@article{properties, purification, and applications of phosphogypsum: a comprehensive review towards circular economy_2024, url={https://doi.org/10.1007/s42824-024-00100-5}, DOI={https://doi.org/10.1007/s42824-024-00100-5}, journal={Materials Circular Economy}, year={2024}, month={Feb} }
 @article{elseify_midani_el-badawy_jawaid_2023, title={A generalized analytical model for predicting the elastic properties of fibrovascular bundles using Crystal-Fibril-Bundle approach}, volume={204}, ISSN={["1872-633X"]}, url={http://dx.doi.org/10.1016/j.indcrop.2023.117309}, DOI={10.1016/j.indcrop.2023.117309}, abstractNote={In order to understand how the structural parameters of vegetable fibers influence their elastic modulus; a generalized analytical model was developed. The model, the Crystal-Fibril-Bundle theory, includes the three main factors that influence the modulus of elasticity of the fiber bundle; the microfibril angle, percentage crystallinity and cell wall volume fraction. The model is generalized and acts as a top-down and bottom-up approach that can be used to predict the modulus of any hierarchical level in any vegetable fibers. The model was verified experimentally using sisal, abaca, banana and date palm fibers, and the model results showed very high agreement with the experimental results (<10 % deviation). Further, a parametric study was conducted to simulate the effect of each structural parameter on the bundle modulus of elasticity. The Crystal-Fibril-Bundle approach provides a novel and insightful tool to understand the knockdown in elastic properties resulting from the bottom-up transition through the structural hierarchical levels of vegetable fiber. It can help natural fiber researchers estimate the fibers elastic performance without the need for intensive testing. It also helps natural fiber composite designers in developing sustainable composites with enhanced performance. This model is considered the first exhaustive model to encompass all the major structural parameters in a single model.}, journal={INDUSTRIAL CROPS AND PRODUCTS}, publisher={Elsevier BV}, author={Elseify, Lobna A. and Midani, Mohamad and El-Badawy, Ayman A. and Jawaid, Mohammad}, year={2023}, month={Nov} }
 @article{elseify_midani_el-badawy_seyam_jawaid_2023, title={Benchmarking automotive nonwoven composites from date palm midrib and spadix fibers in comparison to commercial leaf fibers}, volume={2}, ISSN={["2190-6823"]}, url={http://dx.doi.org/10.1007/s13399-023-03910-w}, DOI={10.1007/s13399-023-03910-w}, abstractNote={Abstract In an attempt to increase the biodiversity of natural fibers, new sources of natural fibers should be discovered. Long textile-grade date palm (DP) fibers were used in the manufacturing of 50:50 polypropylene nonwoven composite. DP fibers are considered newcomers to the natural fiber library. The main aim of this work was to benchmark different types of DP fiber composites in comparison to other commercial leaf fiber composites, namely, sisal, abaca, and banana, in addition to FlexForm automotive composites. The composites were mechanically and physically characterized in order to determine their properties. The results showed that the void content in DP composites was lower than that in sisal and abaca by 33% and 40% respectively. DP composites have tensile strength within the same range as sisal composites and higher than that of banana by nearly 33%. The modulus of elasticity and failure strain of DP composites were nearly 3 GPa and up to 3% respectively. The flexural strength of DP composites (35 MPa) was in the same range as that of sisal and abaca. The normalized impact energy of DP composites was higher than that of banana by 50%. The dynamic mechanical analysis of the six composites showed similar behavior with a glass transition temperature around 10 °C. Finally, the water absorption behavior of DP composites was better than the other composites (lower than sisal by 63%). The results showed that DP fibers are good candidates for applications in automotive interior composites, given their competitive performance and high potential availability.}, journal={BIOMASS CONVERSION AND BIOREFINERY}, publisher={Springer Science and Business Media LLC}, author={Elseify, Lobna A. and Midani, Mohamad and El-Badawy, Ayman A. and Seyam, Abdel-Fattah M. and Jawaid, Mohammad}, year={2023}, month={Feb} }
 @inbook{el-mously_midani_darwish_2023, title={Cultural and Ecological Significance of the Date Palm}, url={http://dx.doi.org/10.1007/978-981-99-0475-4_1}, DOI={10.1007/978-981-99-0475-4_1}, abstractNote={The date palm has been assimilated as a cultural/spiritual theme in both the Jewish and Christian traditions that have been evolved in the Middle Eastern region. In addition, the date palm has been mentioned—more than any other tree—for 23 times in Quran. The date palm’s huge benefits and wide spectrum of uses of its components have been highlighted in Prophet Mohammed’s teachings by comparing the date palm with the Muslim. Besides, the date palm components have been intensively used in Medinah (the first Moslem city): as building materials (date palm trunks and midribs in roofing and walling), as well as in household (stuffing of leather pillows with leaf sheaths fibers and weaving carpets from date palm leaflets) and reliance on dates as an essential component of diet. From the ecological point of view, the date palm represents a keystone species and the tree of life creating in arid and semi-arid regions a microclimate that offsets the effects of drought, preserves high soil moisture with low salinity and thus creates a biodiversity hotspot that can shelter a wide range of plant and animal species in hot desert conditions.}, booktitle={Date Palm Byproducts: A Springboard for Circular Bio Economy}, publisher={Springer Nature Singapore}, author={EL-Mously, Hamed and Midani, Mohamad and Darwish, Eman A.}, year={2023}, pages={3–16} }
 @inbook{el-mously_midani_darwish_2023, title={Date Palm Byproducts as Timber and Wood Substitutes}, url={http://dx.doi.org/10.1007/978-981-99-0475-4_6}, DOI={10.1007/978-981-99-0475-4_6}, abstractNote={The rationale behind the research topic: lumber-like products from date palm midribs, is to test the potentiality of reliance on such a locally sustainable resource as date palm midribs to manufacture lumber-like products as a measure to decrease the country’s wood imports, which are expected to reach ~22.8 billion US$ in 2050! The research results proved the potentiality of manufacture of palm midrib blocks enjoying mechanical properties (e.g. modulus of rupture, modulus of elasticity, maximum compressive strength, nail pull-through test results and hardness) comparable with those for spruce and beech woods. The rationale behind the research topic: organic products from date palm midribs and leaflets is to test the technical and developmental feasibility of reliance on the traditional artisans and the tools they possess in the manufacture of new designs of products and thus opening new markets locally, nationally and worldwide. Besides, this suggested approach means beginning the first cycle of production from the top of cascade of utilization of palm midribs and leaflets thus giving wide chances for subsequent life cycles. It is expected that the green products markets and ecotourism will be most interested in organic products, made from date palm midribs and leaflets. The following organic products from palm midribs and leaflets have been designed and manufactured: The rationale behind the research topic: Mashrabiah products from date palm midribs, is that Mashrabiah (Arabesque) is an important feature of Islamic house architecture in Egypt and the whole Arab world. Mashrabiah (Arabesque) in houses helps in preserving the privacy of house dwellers and in ameliorating the harshness of sun rays especially in summer, while introducing light and allowing the house residents to have a look from windows on the outside world without being exposed to the public! The drastic increase in prices of imported beach wood has led to the shrinkage of demand on Mashrabiah (Arabesque) products. Thus, the discovery of the date palm midrib enjoying physical and mechanical properties comparable with those for imported woods (spruce, pine and beech) opened before us a new realm of development: going to remote villages where the date palm plantations are extensive, teaching the poor there (especially women) the crafts of turning palm midrib pieces on lathes and thus reviving the traditional skills of Mashrabiah (Arabesque) manufacture. Thus, a village (Gededia village) in the New valley governorate in Egypt was chosen as a site for the project. A new multi-purpose lathe was specially designed and manufactured to suit work in houses of beneficiaries. A training center has been established to secure palm midrib pieces for the beneficiaries. Thus, Mashrabiah (Arabesque) products were manufactured by beneficiaries with high quality. How modern pieces of furniture were manufactured from date palm midribs? Four designers joined our team of rediscovery of the date palm byproducts. They put their bet on the uniqueness of the date palm midrib and its specific beauty features as compared with imported wood species. Their efforts have led to the design and manufacture (in village conditions) of new pieces of furniture to satisfy contemporary needs of high and high-middle class citizens in Egypt. Thus, a new market for products from date palm midribs has been opened to satisfy local contemporary needs in Egypt. Within the framework of the research on flooring and parquet products from date palm midribs, different chemical treatments have been applied on samples of date palm midribs with the objective of improvement of dimensional stability properties, static bending properties and abrasion resistance to be used in flooring and parquet products. A research has been conducted on eco-friendly laminated strand lumber from date palm midribs. The research results have proven that the laminated strand lumber manufactured from date palm midribs enjoys similar or superior strength properties compared to solid lumber and engineered products from wood or other lignocellulosic materials for building sector. The rationale behind the research on blockboards with core layer from date palm midribs was that we found that the local blockboard industry in Egypt is not economically competitive, because it totally relies on imported wood, the price of which is continuously increasing. Meanwhile, our research endeavors have shown that the date palm midribs being a sustainable locally available lignocellulosic resource enjoys physical and mechanical properties comparable with those for imported wood (e.g. spruce and beech). Here came the spark of rediscovery: could we replace the inner wooden core of the blockboard with palm midribs and thus save ~80% of the wood being imported for the manufacture of blockboards in Egypt? The research results have proven that the date palm midrib core blockboard enjoys excellent quality as compared with the wooden-core blockboard according to DIN standards and can be thus used as a substitute for spruce-core blockboards in furniture, wall and ceiling paneling, containers etc. A research has been conducted on the use of date palm petioles as a sandwich core. The petioles constitute the bases of the date palm leaves and are most dominantly treated as waste. But the petiole is very anisotropic with the best mechanical properties in the longitudinal direction, having a limited density and thus a high fatigue life. Proceeding from the above research results and the almost zero-price of the date palm petioles, they are a good candidate for the development of core for sandwich panels. Given the decline in plywood manufacturing worldwide due to limited large log supply, the oriented strand board—being typically manufactured from fast-growing small tree species—is one of the world’s most commonly used engineered wood-base panel products in residential construction. In a pioneer study, date palm midribs from barhi, saqui, khalas and sukkari cultivars were used in making untreated strands to manufacture oriented strand boards with acceptable physical and mechanical properties. Within the framework of a research conducted on the use of date palm products of pruning in the manufacture of MDF, samples of products of pruning were collected with quantities proportional to those obtained during the traditional pruning activities in Bahariah oases in Egypt. These samples were sent to the laboratories of Naga Hammady Company of Fiber Boards (MDF) in Egypt. The results of tests of physical and chemical properties, conducted according to EN322, EN317, EN120 and mechanical properties, conducted according to EN310; EN319; EN311 prove that it is possible to manufacture MDF boards from date palm products of pruning satisfying the international standards with respect to their physical, chemical and mechanical properties. This opens the potentiality—worldwide—to establish MDF industrial projects in locations having extensive date palm plantations. Within the framework of research on the potentiality of production of particleboards from date palm midribs, two semi-industrial experiments have been conducted. The first industrial experimental was conducted in October 1993 on 1.15 tons of air-dried date palm midribs in the Nasr Company for particleboards in Egypt according to the Egyptian standard 906/1991 for particleboards. The results of tests of the modulus of rupture were 30.3 N/mm2 satisfying the requirements of the above-mentioned standard. The second industrial experiment was conducted in August 1994 on 60 tons of air-dried date palm midribs in the Modern Arabian Company for Industry of Wood. The experiment on 100% date palm midrib boards gave the following results: A research has been conducted on the potentiality of production of particleboards from date palm midribs. Date palm leaves were collected from Barhi, Saqie and Sukkari cultivars in Riyadh, Saudi Arabia. To manufacture particleboard panels, dried particles were blended with urea–formaldehyde resin 10% (oven dry particle weight), 1% liquid paroffin wax, as well as ammonium chloride as a hardener (2% based on the hard resin weight). From the results of tests, it can be concluded that the date palm midribs can be used for the manufacture of particleboards. Another research has been conducted on the potentiality of use of fast-growing tree species (e.g. A. Saligna, C. erectus L and M. azedarach L.) and date palm midribs for the manufacture of particleboards. As a conclusion of this research, all the tested species can be used for the manufacture of particleboards of density 750 kg/m3. A research has been conducted to evaluate the potentiality of use of the date palm midribs for the production of particleboards. Date palm midribs were collected from local areas in Quena governorate, south of Egypt, cut into small strips and then converted into small chips 25 × 25 × 5 mm. Three-layer particleboards 400 × 400 × 12 mm with density 680 kg/m3 were produced at a pressure 35 kg/cm2. The results of tests proved that the date palm midrib panels have satisfied the requirements of load-bearing boards for use in dry conditions type (p4) of the European standard (EN 314.2010). This opens a wide potentiality of use of such an available renewable resource in manufacture of a value-added product as particleboards. Another study has been conducted to test the potentiality of use of date palm midribs considered as waste and vemiculite (as an inorganic filler) in the manufacture of particleboards. Midribs were obtained by defoliation of date palm leaves obtained from Kerman region in Iran, cut to suitable lengths (30–40 cm) and air-dried. A hammer mill was then used to cut them into pieces of 15 mm length, 2 mm width and 0.4 mm thickness. A sample of vermiculate commercially available in Iran was used in micro and nanosize. Experimental panels were manufactured with resin content 10%, hardener content 2%, press closing rate 6 mm/s, press pressure 35 kg/cm2, press temperature 175 °C, board thickness 15 mm and target density 0.75 g/cm3. The experimental values were number of layers (single-and 3-layer), the size of vermiculate particles (micro and nano). The research results have led to the conclusion that date palm midribs are potentially feasible for the manufacture of particleboards for indoor applications, to absorb noise, preserve the temperature of indoor living spaces as a substitute for wooden boards. An important study has been conducted to evaluate the potentiality of use of date palm trunks and midribs in the manufacture of particleboards as a substitute for imported wood. Date palm trunks and midribs were sourced from a local plantation in south Algeria, reduced to a particle size 1–2 cm, oven-dried at 100 °C to reach a MC of 3%. To manufacture the particleboard specimens, the chips were placed in a drum blender and sprayed with phenol formaldehyde or melamine–urea–formaldehyde for 1 min. The resin content was 10% based on dry particle content. The panels were produced at a density 0.7 g/cm3. The test panels reached after trimming 320 × 270 × 14 mm3. The total press time was 7.5 min and temperature 195 °C. Proceeding from the research results, it can be concluded that the manufacture of particleboards from date palm trunks and midribs is technically feasible. It is worth noting that the particleboards produced from the trunk enjoy significantly higher MOR, MOE and 1B values as compared with those for midribs. This opens a great potential for use of a new material resource (old unproductive date palm trunks) for a high value-added product such as particleboards. Research has also been conducted on self-bonded particleboards from date palm products of pruning. The rationale behind the idea of self-bonding particleboards is the dispensing with the synthetic resins, the presence of which hinders the recycling of the products at the disposal stage. To conduct this study samples of date palm leaflets, midribs, petioles and fibrillum were sourced from Marrakesh province in Morocco, hammer milled, sieved by 3-mm sieve and oven-dried at 105 °C for 12 h. The self-bonding was successful: all samples were cohesive. The fibrillum boards enjoyed the highest MOR and MOE properties (12.9 N/mm2 and 1257 N/mm2, respectively). This can be explained by the high lignin content in the fibrillum (the lignin plays an important role as a binder forming a coherent thermosetting matrix during board manufacture gluing particles togethers). The panels of leaflets and midribs had the second highest MOR values of 8.4 and 8.5 N/mm2, respectively. This can be explained by the highest amount of hemicelluloses in midribs and highest content of extractives in leaflets, beside its average content of hemicelluloses.}, booktitle={Date Palm Byproducts: A Springboard for Circular Bio Economy}, publisher={Springer Nature Singapore}, author={EL-Mously, Hamed and Midani, Mohamad and Darwish, Eman A.}, year={2023}, pages={139–177} }
 @inbook{el-mously_midani_darwish_2023, title={Date Palm Byproducts for Cellulose and Cellulose Derivatives Production}, url={http://dx.doi.org/10.1007/978-981-99-0475-4_5}, DOI={10.1007/978-981-99-0475-4_5}, abstractNote={Nanofibrillated cellulose and cellulose nanocrystals were extracted from date palm midribs and successfully used in the reinforcement of nanocomposites (latex). Microfibrillated cellulose and oxidized microfibrillated cellulose were extracted from date palm midribs and successfully used for the improvement of paper sheet properties. Enzymatic treatment was used for the isolation of microfibrillated cellulose from date palm fruit stalks dominantly treated as waste. Microcrystalline cellulose having wide applications in pharmaceutical, food and cosmetics applications has been isolated from date palm stalks with a yield of 35.4%. Its high crystallinity (79.4%) endowing it with high rigidity opens a great potentiality for its use as a reinforcing material in nanocomposites. Oxidized nanocellulose has been successfully extracted from date palm leaf sheath fibers and used as a packaging additive for better packaging properties. Cellulose whiskers were successfully extracted from date palm midribs and leaflets and characterized. Only cellulose whiskers extracted from midribs were used in the reinforcement of nanocomposites (rubber) due to their higher geometrical characteristics (higher aspect ratio). Microfibrillated cellulose was successfully extracted from date palm fruit stalks using enzymatic treatment. This proves the economic and developmental potentiality of realizing such a high value-added product from date palm fruit stalks dominantly treated as waste.}, booktitle={Date Palm Byproducts: A Springboard for Circular Bio Economy}, publisher={Springer Nature Singapore}, author={EL-Mously, Hamed and Midani, Mohamad and Darwish, Eman A.}, year={2023}, pages={129–137} }
 @inbook{el-mously_midani_darwish_2023, title={Date Palm Byproducts for Green Fuels and Bioenergy Production}, url={http://dx.doi.org/10.1007/978-981-99-0475-4_11}, DOI={10.1007/978-981-99-0475-4_11}, abstractNote={The annual products of pruning of date palms are predominantly treated as waste: either open-field burnt or sent to landfills. The date palm leaves representing ~ 54.6% by weight of products of pruning have been successfully used for production of bioethanol with a 60% yield using the simulatanous treatment by 3 enzymes: laccase for lignin degradation, xylanase for hemicellulose hydrolysis and cellulase for cellulose hydrolysis. In anthor study the organoslov process has been successfully used to extract lignin and digestible cellulose pulp from date plam leaves for the production of bioethanol. The maxiumam practical yield of bioethanol was 9.92 g ethanol/100 g raw material representing 90.95% of the theoretical value. Aceton, butanol and ethanol are common solvents used in many important industries and thus can replace energy derived from petrochemicals. A study has been conducted on the use of low-quality surplus date palm fruits as a substrate for fermentation in the production of acetone, butanol and bioethanol using the original Egyptian clostridium strains, isolated from agriculatural soil, cultivated with different plants in Assiut Governorte, Egypt. A research has been conducted on the biodesiel production from date palm seeds. The date seed represents 10–15% of the date fruit weight. The date seed is composed of 3.1–7.1% moisture, 2.3–6.4% protein, 5.0–13.2% fat, 0.9–1.8% ash and 22.5–80.2% dietary fiber. According to FAO statistic 2010 the date production in South-Western Asia and North Africa can be estimated at 7.85 million tons including seeds of 785,000 to 1.18 million tons. Biodiesel is generally considered as the most acceptable biofuel for diesel engines, because of its technical, environmental and strategic advantages compared with fossil-based diesel fuels, such as cleaner engine emissions, biodegradability, renewability and superior lubricating properties. In this research the biodiesel has been produced by transesterification with a yield of 98% and the fatty acid esters were analysed by GC/MS. The research results show that the fatty acid composition of biodiesel was similar to biodiesel fuels produced from other vegetable oils. The date seed biodiesel had a considerable amount of low-chain fatty acids, which gives special features to biodiesel, high cetane number (60.3), low viscosity (3.84mm2/s), flash point (140 °C) and low iodine value (46). The only weak point is its high pouring point (−1 °C), which limits its use in cold weather as compared with other vegetable biodiesel fuels. A study has been devoted to the investigation of production factors to optimize the extraction of date palm seeds oil, production of biodiesel and testing of biodiesel blends in a compression ignition diesel engine. The date palm seeds were sourced from Sharjah date facility in Sharjah (UAE). The date palm seed oil has been extracted using the Soxhlet extraction method, because it represents the most practical option for analytical scale, where parameters can be appropriately monitored and controlled. The resulting biodiesel was characterized and assessed based on widely used international standards (ASTMD6751 and EN14214). Four biodiesel blends were prepared (B5, B10, B15 and B20) and tested in a compression ignition engine at engine speeds from 1600 to 3600 rpm (200 rpm increments) and three engine loads (50, 75 and 100%). A date seed oil biodiesel yield of 92% has been achieved at the following transesterification conditions: 55 °C, 9:1 AOMR, 1wt% CMF and 90 min. Thus the research results lead to the conclusion of fundamental suitability of date palm seeds as a biodiesel feedstock. An important study has been devoted to the production of ethanol from date palm residues. The fermented ethanol can be produced from three groups of feedstocks: sugary, starchy and ligno-cellulosic compounds. In the first generation (1G) processing, sugary and starchy feedstock is converted to bioethanol. However (1G) processing is in contradiction with needs of hummans and animals. Therefore, it is expected that (2G) production of ethanol will prevail in the near future. Bioethanol production from ligno-cellulosic biomass (G2) process is economical only if the sugar concentration exceeds 40 gL−1 and yield is increased. The aim of the present study is to find the optimum ways to convert the date wastes and products of pruning to ethanol and to encourage investors to invest in bioethanol production. Egypt, Iran and Saudi Arabia produce almost ½ the world’s dates production with shares of world production ~ 20%, 14%, 14% respectively. The weight of date seeds varies between 0.5 and 4 g (6–30% of fresh fruit weight). Assuming an average of 13% of total fruit weight belongs to the seed, a weight of 120 kg dried seed per ton of date wastes can be estimated. Thus 13 kg of seed oil (10.85% by weight) can be used for biodiesel fuel production (density 0.871 kg/L). The finding of this study show that there is a great potential to produce ethanol from date wastes and date palm products of pruning in the Middle East countries due to their high availability potential. Besides, these date wastes and lignocellulosic residues are dominantly treated as waste and thus representing a source of environmental pollution. Egypt, Iran and Saudi Arabia can produce annually 173.5, 401 and 438 million liters of bioethanol respectively from date wastes and annual products of pruning. Other date producing countries have the potentiality to produce 1248 million liters of bioethanol. Thus 3260 million liters of bioethanol can be globally produced. The global cost of bioethanol production from date waste is 0.68$ per liter of which feedstock accounts for 85.3% of the total cost of production. The corresponding value for date palm products of pruning is 0.34$ per liter due to high availability potential. An important research has been conducted on the use of date pits for the synthesis of green diesel and jet fuel fractions. Date pits were sourced from a local supplier in Muscat, Oman. A mechanical grinder was used to convert the samples to a powder. After sieving, the oil was extracted using hexane as a solvent in a Soxhlet apparatus following the AOCS official method Am 2–3. After extraction of oil a 100 g sample of date pits was dried at 100 °C for 8 h and then carbonized in a furnace at 500 °C for 5 h with a heating rate of 3 °C/min under N2 gas at a flow rate of 50 ml/min. Active catalysts were thus produced by carbonization and impregnation with Pt and Pd metals. The synthesized catalysts Pt/c and Pd/c were characterized by XRD, SEM, TEM, EDC, BET and XPS. The activity of the catalyst’s performance was evaluated by hydrodeoxygenation of date pits oil. Based on the elemental analysis, the degree of deoxygenation (DOD) of product oil was 97.5% and 89.4% for Pd/c and Pt/c catalysts respectively. The high DOD was also confirmed by the product analysis that mainly consists of paraffinic hydrocarbons. The results also show that between the two catalysts, Pd/c showed a higher activity towards hydrodeoxygenation. Based on the type of components in the produced oil, the maximum fraction of hydrocarbons formed lay within the range of 72.03% and 72.78% green diesel and 30.39 and 28.25% jet fuel using Pd/c and Pt/c catalysts respectively. Thus it can be concluded that waste date pits can be a promising springboard for the production of catalysts and biofuels (green diesel and jet fuel fractions). A research has been conducted to evaluate the potentiality of use of date palm midribs as an alternative source for energy production. Three healthy 10–15 year-old date palms of cultivars Barhi, Khalas, Khodry, Sukkaria and Sullaj, grown at the experimental station for Research and Agriculture of King Saud University were chosen for the conduction of this research. Three date palm midribs were randomly selected from the pruning residues. Each midrib was divided into three zones (base, middle and top). The content of ash was calculated as a percentage of the residues based on the oven-dried midrib meal weight. The higher heating value (HHV) was determined using a calorimeter based on the oven-dry weight. The statistical ANOVA analysis has shown that the chemical constituents of the date palm midribs differed significantly between the researched 5 date palm cultivars. The date palm midrib contents of cellulose, hemicellulose and lignin ranging from 42 to 46%, 25 to 30% and 26 to 31% respectively were found similar to those found in wood species. The lignin content was found to increase moving along the midrib from the base to the top ranging from 24 to 30%. The inverse trend was recorded for the ash content decreasing from 7.6% at the midrib base to 3.4% at the top. Thus it can be concluded that the date palm midribs include higher total extractives (19.34–21.68%) and ash content (3.31–5,85%) as compared with soft and hard woods. The relatively high heating values found for the date palm midribs (17.3–17.9 MJ/kg) prove that they are promising as an energy source. However, the high ash content of all the parts of the date palm midribs, especially the basal part represents a hinderance in their use as a source of fuel. Besides, the date palm midribs exhibited the lowest fuel value index values (97 to 336) as compared with the corresponding values published in the literature for different wood species. A research has been conducted to characterize the date palm midrib as a potential solid fuel for jet and power generation through various thermal conversion processes. To conduct this study date palm midribs were sourced from Medina (Rothanah & Ajwah varieties) and Jeddah (Jeddah & Sukkaria varieties) in Saudi Arabia and from Atbara (Mishria variety), North Sudan. These samples were individually prepared to evaluate their fuel properties: ultimate analysis, proximate analysis and calorific value analysis. All the midrib samples gave calorific values ranging from 16.2 to 16.9 MJ/kg and thus falling within the range of biomass materials from 15 to 20 MJ/kg and close to that of low rank coal such as peat and lignite. Thus it can be confirmed that the date palm midribs enjoy the potentiality of use as a solid fuel for home and industrial applications. As far as the ultimate analysis results are concerned the range of carbon, hydrogen and oxygen in the date palm midribs is comparable with that for typical biomass materials. But the nitrogen and sulfur contents in all samples were found higher than those in most biomasses. The proximate analysis results indicated a significantly high content of volatile matter in the date palm midribs implying their suitability for pyrolysis and gasification processes. Meanwhile, the ash content in the date palm midribs was found comparable with those values in the featured biomasses and lower than in peat, lignite and bitominous coals making the date palm midribs a highly appropriate fuel for continuous thermal processes, where ash removal and handling is a common technical barrier. The thermal decomposition stages were identified based on TGA trends and DTGA peaks. The high reactivity of midrib samples at low temperatures releasing high amounts of volatiles revealed their potentials for pyrolysis and low temperature gasification puroposes. Thus, it can be concluded that the date palm midribs satisfy the typical requirements as a solid fuel for thermal conversion processes in heat and power generation sector. The date palm midribs enjoy the advantages of high availability, low cost and ease of moisture removal in arid and semi-arid regions and thus have high potentials to be used as a solid fuel for thermal applications in the Arab Peninsula and North African countries. Another research was devoted to the study of date palm midribs as an effective feedstock for energy production. To conduct this research date palm midribs of Sukariah, Ajwah and Jeddah varieties were sourced from Madinah Al Munawarah and Jeddah cities in Saudi Arabia. The moisture content, volatile matter, ash and fixed carbon were determined by proximate analysis using Thermogravimetric Analyser (Pyris 1 TGA). Jeddah had the highest value of volatile matter amounting to 83%, whereas Ajwah had the lowest value of 78.2%. The petiole had the lowest value of volatile matter of 55.3% among the date palm biomass. According to published literature, the date palm midribs values of volatile matter content are comparable with other resources, such as sugar cane bagasse, oil palm midribs and western hemlock. Regarding the heating value Sukariah midribs showed the highest value of 16.8 kJ/kg, whereas Jeddah sample revealed the lowest value of 16.4 kJ/kg compared with the seed value of 18.97 kJ/kg and bituminous coal of 34 kJ/kg. Therefore it can be concluded that the date palm midribs can be used as an alternative feedstock for different energy conversion processes, such as gasification, pyrolysis and torrefaction. The presence of metallic elements can cause problems in the thermo-chemical processing systems and therefore require proper handling and treatment during process. A study has been devoted to the characterization of three date palm residues: leaves, empty fruit bunches and petioles and their fast pyrolysis in a bubbling fluidized bed reactor at 525 °C. The date palm residues were sourced from the American University in Sharjah campus (Sharjah, UAE). The fast pyrolysis experiment was conducted at the European Bioenergy Research Institute in Aston University, Birmingham, UK. The comparison of the proximate and ultimate analysis of the leaves, petioles and empty fruit bunches have shown great similarity, but with the leaves much higher ash was noticed. In comparison with other types of biomass and energy crops, the date palm residues can be classified as of high ash, high oxygen, low volatiles and average heat value. The fast pyrolysis product was found to consist of 38.65% bio-oil (including 10.39% reaction water), 37.23% biochar and 24.02% non-condensable gas. The GC–MS analysis revealed for the first time the detailed composition of the date palm pyrolysis oil consisting of at least 140 detectable compounds with the major ones being D-Allose (monosaccharide), phenols, catechol and apocynin. The latter two compounds are of particular interest due to their antioxidation characteristics. The bio-oil heating value was 20.88 MJ/kg, which falls within the low-intermediate range for most fast pyrolysis bio-oils. However the oxygen content was high, and this may have a negative impact on the oil stability and corrosivity. Future work will be directed to the application side of the pyrolysis products including the potentiality of use of bio-oil as a blend with biodiesel for combustion engines, as well as the long-term aging and stability of the bio-oil and potentiality of use of the biochar for soil amendment, especially in desert conditions. An important study has been devoted to the investigation of the thermal behavior of the date palm residues including: leaflets, midribs, trunk, spadix stems and date seeds. These residues have been obtained from a date palm oasis in Tozeur, Tunisia. The ultimate analysis corresponding to the elemental composition of the samples was performed by Service Central d’Analyses (Vernaison, France). The proximate analysis was carried out using a thermogravitmetric analyzer (CAHN121 thermobalance) with gas following upward through the furance at 12NL/h. The thermal behavior of the biomass has been studied under inert and oxidation conditions using a CAHN 121 thermo-balance. The obtained results show that the tested samples have high content of volatiles, carbon, hydrogen and oxygen, whereas the contents of nitrogen and sulfur were relatively low. The researched materials were found to have typical composition as compared with biomass. The heating values (LHV) were found in the range from 15.2 to 19.0 MJ/kg, which are in the same order of magnitude as those for sawdust, olive solid waste, oil palm fruit bunches, Miscanthus, wood pellets and wood chips. It is interesting to note that among the date palm residues the date palm stones having the highest percentage of volatiles and fixed carbon and the lowest ash content enjoy the highest calorific values in terms of low heating value. The bulk density of date seeds was very high (656 kg/m3), higher than that of wood chips (550 kg/m3). The energy density of the date seeds (11.4 GJ/m3) was found much higher than other date palm residues and approaching that of wood pellets (12 GJ/m3). It can be thus concluded that the date palm seeds are the most attractive residue for energy production due to its high energy density and thus low cost of transportation. But the heating values of other date palm residues are high enough to overcome the problems associated with low energy density. Thus, the obtained results can be useful for the design of processing systems for the production of energy from date palm leaflets, midribs, trunks, date stones and spadix stems. There are strong expectations that the fossil fuels such as oil, coal and natural gas will be depleted within the next 40–50 years. Therefore, there is a growing interest among researchers to study the potentiality of use of biomass for energy production as a more sustainable substitute for fossil fuels, as well as for the rescue of the environment from CO2 emissions. Therefore, a study has been conducted for the evaluation of date palm residues combustion in a fixed bed laboratory reactor as compared with sawdust behavior. Samples of Deglet Nour date palm residues were sourced from Djerid region in Tunisia including the leaflets (DPL), rachises (PDR), trunks (DPT), spadix stems (FD) and date stones (DS). The ultimate analyses corresponding to the elemental composition of the date palm residues samples were carried out by Service Central d’Analyses (Vernaison, France) according to the relevant XP CEN/TS15014 standard method. Proximate analysis was conducted using a thermogravimetric analyser (CAHN 121 thermobalance). The high heating values (HHV) were measured following XPCEN/T515103 standard methods using an adiabatic oxygen bomb calorimeter (1KA). The energetic potential for different residues was estimated basing on the calculation of the low heating values, bulk density, energetic density that is the potential of energy per unit of biomass volume. Referring to the results of ultimate and proximate analyses, the weight fractions of the different date palm residues were found of the same order as several biomasses. The comparison between the date palm residues and conventional biomasses has shown higher chlorine content for DPR. FP and DPT samples with values above 1%. Thus future controls of this element in gas and particles in fumes are needed in order to reduce both corrosion impacts and emission factors of persistent organic pollutants as dioxins and furans. The low heating values (LHV) were found within the range from 15.2 to 19.0 MJ/kg, i.e. in the same order of magnitude as for olive solid waste, Miscanthus, wood pellets and wood chips. The date stones (DS) were found to have the highest percentage of volatiles (VM) and fixed carbon (FC) and lowest ash content similar to sawdust. The bulk density is an important characteristic of the biomass materials in relation to transport and storage cost. It was found that the bulk density value for DS is very hight (656 kg/m3) higher than that for wood chips (550 kg/m3). In addition the energy density (ED) of DS was found 11.4 near to that for wood pellets (12 GJ/kg). Thus it can be concluded that date seeds (DS) is the most attractive material for energy production because of its high energetic density and therefore low cost of transportation. The date seeds is one of the best biofuels enjoying the advantages of highest bulk density, calorific value and volatile matter content and the lowest ash content close to 1.2%. Its energy density (11.4 GJ/m3) is much higher than other date palm residues. Although the highest value of LHV was obtained for date palm leaflets, their high ash content (15.2%) represents a hinderance for their development as a biofuel since it may lead to corrosion problems in the combustion chambers. As biofuels the date palm rachis (DPR), date palm trunk (DPT) and spadix stem (FD) have very close energtic density chemical composition. The high amount of chlorine in DPR and DPT may introduce potential risks of corrosion in exchange boiler tubes and the formation of persistent organic pollutants as dioxin during combustion in district or domestic applications. A study has been devoted to the chemical analysis of date palm residues for energy production using ultimate, proximate and thermos-gravimetric techniques: the Sukkari cultivar has been chosen as an important variety cultivated in most areas of Saudi Arabia. The date palm residues were chosen to include palm trunk (PT), palm frond base (petiole)(PFB), palm leaflets (PL), fruit stalk (FS), fruit empty bunch (FEB), date palm stones (DPS) and leaf sheaths fibers (LSF) taking Acacia tortils wood (AT) as a reference. These residues were found to have medium to high cellulose content (33–48%) and lignin (26–40%) and low to medium hemicellulose content (13–31%). The total extractives were (8–33%) and the ash content (1–15%) ( lignin and higher extractive content contribute to a high heating value, whereas ash is considered an undesirable material). The volatile matter content ranged from 74.3% for PL to 87.5% for FEB; fixed carbon ranged from 10.5 for PL to 17.6% for PT and the ash content ranged from 1.4% (DPS) to 15.2 for PL. The heat values of the residues varied from 15.47 MJ/kg for PFB to 19.93 MJ/kg for LSF. However, the heat values based on ash-free dry weight had a wide range from 16.5 MJ/kg for FEB to 22.6 MJ for PL due to the large variation in the ash content (1.3%-11.6%). The fuel value index of DPS was higher (2078) than the value for A.tortilis wood (1170) and other date palm residues. Concerning the ranking of the date palm residues, the date stones (DPS) showed the best value (1.9), followed by leaf sheaths fibers (LSF) (2.5), while the palm frond base (PFB) showed the poorest rating (6.3). Thus it can be concluded that the date palm seeds and leaf sheaths fibers are the most suitable among the date palm residues for energy production. A research has been devoted to the ultrasound assisted oil extraction from date palm kernels for biodiesel production. Three solvent types were used: hexane, isopropyl alcohol and ethanol for oil extraction from date palm kernels and ultrasound was applied for 5 min to 25 min at 5 levels using transesterification of oils with methanol and potassium hydroxide. It was found that the ultrasonic-assisted hexane oil extraction provided the highest yield by extracting 85% of the total available oil present in the date palm kernels. The biodiesel samples produced from oils extracted with and without ultrasonification had similar physical and chemical properties. Thus it can be concluded that ultrasonification has a potential to enchance the industrial processes by reducing the oil extraction time and energy. A research has been devoted to the hydrothermal pretreatment of date palm leaflets and midribs to evaluated their potential for bioethanol production. To conduct this research date palm leaves were sourced from Abu Dhabi in 2013. Leaflets were separated from the midribs, dried and stored before use. The dried material was milled using a knife mill to pass through a 1 mm screen, sequential Soxhlet extractions with water and ethanol were performed based on National Renewable Energy Laboratory (NREL) protocol. The hydrothermal pretreatment was performed at 10% w/w dry matter at 4 temperature levels (180, 190, 200 and 210 °C). Processing time was at 10 min. The research results showed that high glucan (> 90% for both leaflets and midribs) and high xylan (>75% for leaflets and > 79% for midribs) recovery were achieved. Under the optimal conditions of hydrothermal pretreatment (210 °C for 10 min) highly digestible (glucan convertibility 100% to leaflets, 78% to midribs) and fermentable (ethanol yield 96% to leaflets, 80% to midribs) solid fractions were obtained. The fermentability test of liquid fractions proved that no considerable inhibators to saccharomyces cerevisisae were produced in hydrothermal pretreatment. Proceeding from the high sugar recovery, enzymatic digestibility, and ethanol yield it can be concluded that the production of bioethanol by hydrothermal pretreatment from date palm residues is feasible. A research has been conducted on the characterization of pyrolytic products of date palm residues. The pyrolysis process is a thermal cracking of the biomass in an inert atmosphere at temperatures ranging from 300 to 700 °C to produce useful liquid biofuel (bio-oil), solid biocombustible fuel (biochar) and renewable syngas. Therefore, the objective of this study was the investigation of the main characteristics of the obtained products from the pyrolysis of the date pam residues to evaluate their potential as a feedstock for renewable energy and chemical industries. To conduct this study, four date palm residues samples were obtained from the National Institute of Arid Zone (IRA-Kebili, Tunisia): midribs, leaflets, empty fruit bunches and spathes. The samples were finely crushed to small pieces with sizes from 2 to 4 mm and air-dried. The pyrolysis experiments were conducted on a laboratory scale pyrolysis plant under the operational conditions: 500 °C as final temperature, 15 °C/min and 300 g mass initial of the used sample. The elemental composition (CHN-O) of date palm residues, bio-oil and biochar were determined using an elemental analyser (LECOCHNSTRu Spec); the O content was determined by difference. The proximate and ultimate analyses have shown that the date palm spathes had the least ash content of 2.4%, whereas the leaflets had the highest ash content (11.58%). But in general the date palm researched residues had high volatile matter content and ash fairly compared with those found in the literature for lignocellulosic materials converted into biofuels using pyrolysis. The calculated high heat values ranged from 17.88 to 19.09 MJ/kg for all studied residues. These values are low for a commercial fuel. The bio-oil yield ranged from 17.03 wt% for leaflets to 25.99 wt% for empty fruit bunches. Concerning the biochar, the highest yield 36.66 wt% was obtained for leaflets, whereas the lowest one (31.66 wt%) was obtained for the spathes, while the syngas production varied from 39.1 wt% for midribs to 46.31 wt% for leaflets. As a conclusion of this study, the bio-oil which represents moderate amounts of carbon and hydrogen compared to petroleum-based fuels, could be used as a biofuel after grading. The biochar could be used as biocoke in industrial applications. The presence of CH4 and H2 in significant proportions in the gaseous mixture gives the obtained syngas good combustion properties. A study has been conducted to evaluate the technical feasibility of using seawater instead of freshwater in the pretreatment of date palm leaflets for bioethanol production. The lignocellulosic biorefineries are one of the most promising alternatives for fossil oil. But one of the obstacles of proliferation is the excessive utilization of freshwater (1.9–5.9 m3 water per m3 of biofuel), which may be in shortage in arid and semi-arid regions, where the date palms are usually grown. In this study artificial seawater has been used to replace fully the freshwater in the hydrothermal pretreatment of date palm leaflets to produce bioethanol. The results of this study confirm the feasibility of replacing freshwater with seawater in the hydrothermal pretreatment of date palm leaflets to produce bioethanol. However a lower crystallinity of cellulose has been observed after treatment with seawater rather than freshwater. Pretreatment by using seawater produced slightly lower digestibility of solids (glucan-to-glucose conversion) in enzymatic hydrolysis than pretreatment by using freshwater. But there was no significant difference in the bioethanol yield. Moreover, the fermentability test showed no significant difference in the bioethanol yield between liquids from pretreatment by freshwater and seawater. Thus it can be concluded that seawater could be a promising alternative to freshwater in biorefineries processing lignocellulosic materials. Within the expected increase of demand on energy for homes, industries and transportation the expected contribution of biofuels will grow from 50 EJ/year in 2012 to more than 160 EJ/year in 2050. The bioethanol is seen as the main biofuel for the future. Within this framework a study has been devoted for the realization of an experimental solar fermenter for the production of bioethanol from date palm waste (DPW). To conduct this study DPW of Hchef, Kacien and other varieties of date’s scraps of the cattle food were sourced from Algerian Sahara. A batch fermenter was designed and installed to operate effectively by using a solar water heater in order to reduce the cost of the bioethanol generation process. The fermenter was realized within the South Society of Metallic Construction (ECOMES), located in Adrar. Experimentation was performed during the cold season of the year, the 1st week of January 2015. The results of this study indicate that DPW constitute a favorable medium for S.cerevisiae growth, due to its sugar content and is thus considered as attractive feedstock. It is thus technically feasible to produce bioethanol using the solar batch fermenter at relatively moderate cost. The DPW distilled juice produced the highest bioethanol concentraction of about 90° with an acceptable productivity of 3.47 ml/kg/h assessing a scale efficiency 33%. These results represent a strong support to continue R&D in the renewable energy field. It is thus necessary to start to build semi-pilot and pilot fermenters and investigate new methods, microorganisms and other byproducts to improve the quantity of bioethanol produced and to reduce the energy consumption during the bioethanol process transformation to improve the economics of bioethanol production. A study has been conducted to explore the anaerobic digestive technology for processing of date palm residues being the most available and sustainable feedstocks for renewable energy. These residues, annually available with huge quantities are most dominantly treated as waste: being open-field burnt or sent to landfills. Therefore the exploitation of these residues for the production of methane gas should be seriously considered. A carbon to nitrogen (C/N) ratio between 20 and 30 is regarded optimum for anaerobic digestion process. To conduct this study midribs, fruit empty bunches and rotten dates were sourced from the southern oases of Libia. In this research two-liters batch digester was used. The results of the study have shown that production of biogas from fresh waste nitrogen source (NH4CI) gives best biogas production compared to dry waste with nitrogen source (NH4CI) and fresh waste without nitrogen source (NH4CI). The bio-gas production of dry waste nitrogen source (NH4CI) was better than biogas production from fresh waste without nitrogen source (NH4CI). Thus it can be concluded that the heat treatment of date palm residues is very useful to improve the production of biogas. The percentage of methane gas in the produced biogas reached 48% for fresh waste with addition of nitrogen source. The maintenance of pH in the digester at range 6.5–8 is more efficient to produce biogas. The retention time for fresh waste inside the digester is less than that for dry waste. The palm tree wastes contain a high ratio of carbon compared to nitrogen specially the dry one and addition of nitrogen source is required. A study has been devoted to investigate the usage of date palm biomass for biogas production. The Zahdi date cultivar has been chosen because of its abundance in Iraq representing 60% of the country production. The Waste Management Lab/Corneal University (USA) methodology for anaerobic digestion was used in this research. The results of the study indicate that the volatile solids of substrate and inoculums was 39.82, 2.37% respectively with a ratio 16.8:1. The nitrogen content of the substrate was found 2.35 indicating the demand for extra amount of nutrients to provide nitrogen for bacteria growth in the fermentation batch. A total gas pressure with 67% Methane was produced from date pulp waste fermentation with a yield of 0.57 Lit for each gram volatile solid of the substrate. The addition of 1% yeast extract solution as a nutrient increased Methane yield in liters by 5.9%. The high volatile solids content in the date palm biomass compared to inoculums indicates a high potential of biogas production from a small amount of biomass. Given the great abundance of date palms in the Middle East and North Africa there are great future potentials for production of biogas and biofuel in a commertial scale. An important study investigated the production of biogas from date palm fruit wastes by measuring the gas volumetric flow rate directly. Samples of Digal date fruit wastes in their final stage of maturity (with hard texture) were sourced from stores of Diyala province in Iraq. A lab-scale digestion system was used in this research. After the samples were pitted, weighted, mixed with a proper amount of water and placed in the digester, eight mixtures of substrates were divided into two groups. Each group contained 4 samples of substrate having ratios of 0.5, 0.2, 0.15 and 0.1 (w/w). They were subjected to anaerobic digestion at 37 °C for mesophilic and 55 °C for thermophilic conditions. The dischange process of biogas was carried out every 3–5 days and the data was saved on a laptop. Concerning the effect of solid mixing ratio the results of the study showed that under mesophilic temperature of 37 °C, the highest biogas yield was achieved in the case of 0.15 w/w (182 L/kg volatile solid mass), whereas the lowest biogas yield was in the case of 0.5 w/w (84 L/kg volatile solids mass). As far as the effect of recycled digestate is concerned, the research results showed that the use of recycled digestate has improved the production of biogas by 12%. Thus it can be concluded that the date palm fruit wastes are a suitable source for biogas production and that a mesophilic system is the best option for producting biogas from date wastes. A maximum biogas production of 203L/kg volatile solids was achieved for a solid concentration of 0.15 (w/w), when the substrate was mixed with recycled digestate at 25% of the substrate content. A study has been conducted to evaluate the potential impact of date seeds on biogas production. To conduct this study seeds of Khalas and Khudri cultivars were selected. Oil was extracted from the date seeds using an automatic Soxhlet extractor. The oil-spent date seeds were recovered from the extractor, dried and then used for biogas production. The primary waste water treatment sludge was sourced from a nearby domestic wastewater treatment plant. The total solids of the primary sludge was adjusted to approximately 2% and stored in a freezer in small containers until use. The volatile solids after total solids adjustment reached 1.64%. The preparation of the date seeds/sludge mixtures was conducted by thawing the frozen sludge from containers, mixing and adding the predetermined date seed quantity and then adjusting the pH if necessary to approximately 7.3. After 14 weeks of incubation the biogas production expressed in terms of the date seed/sludge ratios, were in the following order: 10% > 7.5%≃5%≃2.5%≃0% > 20% > 40%. The size of the date seed particles did not significantly affect biogas production. The specific gas production was in the range of 370–390 mlg−1 volatile solids for the 0–10% seed/sludge ratios, 245 mlg−1 at 20% and 120 mlg−1 for volatile solids at 40%. The relatively low biogas production from the 20 and 40% seed/sludge mixtures indicated inhibation, which was also, shown by the low pH in the mixtures following digestion. Oil extraction from the date seeds reduced, but did not fully overcome, inhibition of biogas production from the 20% and 40% mixtures.}, booktitle={Date Palm Byproducts: A Springboard for Circular Bio Economy}, publisher={Springer Nature Singapore}, author={EL-Mously, Hamed and Midani, Mohamad and Darwish, Eman A.}, year={2023}, pages={271–343} }
 @inbook{el-mously_midani_darwish_2023, title={Date Palm Byproducts for Natural Fodder and Silage}, url={http://dx.doi.org/10.1007/978-981-99-0475-4_9}, DOI={10.1007/978-981-99-0475-4_9}, abstractNote={Waste dates (most dominantly treated as waste) representing ~20–30% of total dates production have been used as a replacement of dietary starch in tilapia feed. This has led to the improvement of growth rate, feed conversion, specific growth rate and protein efficiency ratio. In another study, the addition of date palm seed—most dominantly treated as waste—to the diet of the African catfish has led to a considerable increase of the weight gain, specific growth rate, protein efficiency ratio and protein productive value, as well as the improvement of final fish carcass and hematological indices. The improved growth rate and nutrient utilization could be explained by the presence of a range of digestive enzymes in the date palm seeds. A research has been conducted in Kuwait to evaluate the technical feasibility of use of the locally and sustainably available date palm leaflets as a roughage to substitute the imported barley straw in feeding of Friesian and Holstein cows. The results of feeding experiments revealed that milk yields, milk composition and live weight gains of cows fed by either date palm leaflets or barley straw did not significantly differ. Therefore, it can be concluded that the date palm leaflets—a local sustainable resource treated as waste—can be used as an acceptable alternative roughage in feeding of cows to the expensive imported barley straw. Another research was devoted to the evaluation of ensilage, made from cardboxes, annually available with about 100,000 tons in Kuwait and date palm leaves resulting from annual pruning of date palm and treated as waste. The bioconversion and upgrading of nutritive value of cardboxes and date palm leaves to silages were investigated over 90 days through chemical and microbial treatments. The qualitative aspects of the produced silages for ruminants were evaluated. It can be concluded from the research results that cardboxes and date palm leaves can be effectively ensilaged, and the resultant silages are acceptable and palatable to be used as ruminant feed in arid regions. A research has been conducted to evaluate the potentiality of use of date palm leaves for feeding of Omani sheep. Oman and the whole gulf region suffer as an arid region from the shortage of animal feed representing an obstacle in livestock investment projects. This study has been conducted on 32 one-year old male Omani native sheep of starting body weight ~32 kg in a feeding trial for 120 days. The conducted feeding included two types of roughages: Rhodes grass hay (RGH) and urea-treated date palm leaves (UTPF). The experimental animals fed by the date palm leaves were in good health throughout the trial. But the sheep fed by UTPF had lower feed intake as compared with those fed by RGH, but feed intake/body weight was similar across diet groups. Therefore, date palm leaves can be used as a component of feed for Omani sheep in case of nutritional shortage frequently experienced in arid zones. A research has been conducted in Algeria to evaluate, in vitro, the ruminal fermentation and nutritive value of the date palm leaves, pedicels, date pits and waste dates. To conduct this study, 20–30 specimens of leaves, pedicels and date pits were taken from Deglet-Nour palm and waste dates from three varieties Bourus, Harchaya and Kentichi in Biskra in Saharan Atlas region in Algeria. Vetch-oat hay was taken as a control reference. All the samples including the control were oven-dried at 50 °C and ground to pass 1 mm screen. The results of this research showed that the date palm leaves have the highest NDF, ADF, lignin and crude protein contents (609, 435, 84, 649 kg−1 DM), respectively. The cumulative gas production at 144 h of incubation was greatest for Kentichi dates (330 mLg−1 DM) and lowest for date pits (69 mL−1 DM). Regardless of the variety, waste dates showed the highest DM effective ruminal degradability and organic matter digestibility. The date pits seemed to be a poorly degradable material. These results indicate that waste dates—though of low-protein content—are highly digestible with energy concentration as high as that of vetch-oat hay. The palm leaves and pedicels can be considered as highly fibrous emergency roughages for low-producing animals. Protein supplements should be added when date palm byproducts are used as feedstuff in order to balance the ruminant diets. An important study has been conducted with the objective of learning about farmer’s knowledge south of Tunisia on the use of date palm byproducts (DPBP) as forage resources. To conduct this study, samples of wasted dates, date pits, leaves, peduncles and pedicels of two dominant varieties (Deglet Nour and Kentah) were taken and analyzed for dry matter, crude protein, total ash, crude fiber, natural detergent fiber, acid detergent fiber and acid detergent lignin. The in vitro digestibility measurements have been taken on each sample using rumen juices from three species: sheep, goat and dromedary. An extensive socio-economic survey has been conducted in a sub-region of Nefazoua (EL Faoura) concerning the use of DPBP in livestock feeding. It can be concluded from the results of this study that DPBP, taken individually, are highly unbalanced for animal nutrition: high energy content in the cases of wasted dates and date pits and high fiber content for leaves, peduncles and pedicels and for all: low crude protein content (3–6.5% of dry matter). The in vitro dry matter digestibility for wasted dates were found 74.5, 79.7 and 79.2% for sheep, goats and dromedary, respectively. The corresponding figures for leaves, peduncles and pedicels were found much lower: 12.3, 19.6 and 18.3%, respectively. Thus, the main questions to be asked in use of DPBP in ruminant feeding are how to make a well-balanced DPBP-based forage? And how to conserve this feed to overcome the problem of seasonal unavailability? This indicates the significance of research on DPBP-based silage to improve the technical and economic feasibility of use of DPBP as a local and sustainable forage resource. An important study has been conducted to evaluate the effectiveness of a combined treatment of date palm leaves by sodium hydroxide and lime for conversion into a promising ruminant feed. Date palm leaves (DPL), annually available in Iran with big quantities (e.g., 300,000–400,000 t) are being treated as waste! One of the approaches to solve this problem is to use DPL in feeding of ruminants. But DPL in its natural form has a very low ruminal digestibility (16% in vitro dry matter digestibility). The alkaline pretreatment of DPL to improve the ruminal degradability at high temperature is fast and effective, but it is a capital-intensive process. Therefore, the idea of this research was to replace only a part of costly sodium hydroxide with less expensive lime to realize a cost-effective and efficient pretreatment of DPL at a mild temperature with low concentration of sodium hydroxide. To conduct this study, DPLs were collected in Jam country in Busher province in Iran. Raw milled DPLs were pre-washed, and 10 g of dry matter basis was mixed with a solution of sodium hydroxide and lime at a 1:8 solid-to-liquid ratio in a 250 ml bottle, purged with N2 stream (60 s) to remove probable CO2 in headspace which may react with lime, tightly closed and stirred at 500 rpm for 10 min. The statistical analysis of results revealed that the impact of sodium hydroxide, lime and residence reaction time is significant (p < 0.0001). Under the optimum pretreatment conditions (sodium hydroxide loading 0.06 g NaOH/g dry biomass, lime loading of 0.09 lime/g dry biomass and residence time 71.4 h), the amount of cumulative gas production after 24 h was 101.4 ml gas/g organic matter, versus 104.6 ml gas/g organic matter for the predicted value. Thus, the results of this study proves the applicability of this low-cost efficient on-farm pretreatment to overcome the recalcitrance of date palm leaves and holds a promise to use date palm leaves—this dominantly wasted resource—for feeding of ruminants particularly in arid and semi-arid regions.}, booktitle={Date Palm Byproducts: A Springboard for Circular Bio Economy}, publisher={Springer Nature Singapore}, author={EL-Mously, Hamed and Midani, Mohamad and Darwish, Eman A.}, year={2023}, pages={235–249} }
 @inbook{el-mously_midani_darwish_2023, title={Date Palm Byproducts for WasteWater Treatment}, url={http://dx.doi.org/10.1007/978-981-99-0475-4_10}, DOI={10.1007/978-981-99-0475-4_10}, abstractNote={The pollution caused by heavy metals, phenols and phenolic compounds, as well as synthetic dyes and pesticides is an environmental problem of world concern. A research has been devoted to the use of a sorbent made from date palm leaflets for the removal of Cd2+ and Ag+ from waste water. The date palm leaflets are annually available from pruning of date palms with big quantities: 180,000 ton and 3 million tons in Oman and the gulf states, respectively. Palm leaflets were sourced from a farm in Muscat (Oman), washed with distilled water, left to be air-dried and then oven-dried to constant weight. The sorption of Cd2+ and Ag+ from aqueous solutions was investigated, taking the following parameters into consideration: pH value, contact time, metal concentration and temperature. The sorption behavior was different for both metals. The sorption of Cd2+ was fast reaching equilibrium within ~ 2 h, whereas that for Ag+ was slow and required ~ 60 h. The research results has led to the conclusion that the date palm leaflets, generally of no value in the field and treated as waste, can be successfully used to make a chemically-carbonized sorbent for the removal of copper and silver metals from the waste water. Another research was conducted to investigate the potentiality of use of raw date palm trunks for the removal of cadmium from waste water. The effects of the process variables, such as fiber size, mixing rate, temperature, pH of the solution and absorbent dose on the absorption capacity of trunk fibers were studied. It was found that the adsorption capacity of Cd2+ increased from 29.06 to 51.1 mg/g (~2 times) as the particle size decreased from 875 to 100 µm. Concerning the effect of pH value, it was found that the adsorption capacity of Cd2+ decreased in the strong acidic medium and rapidly increased as the pH of the solution increased from 1.69 to 3.71. It was found that the equilibrium time of adsorption process is very small: the maximum adsorption capacity was attained only after 10 min. Thus, it can be concluded that the date palm trunk fibers are a potential absorbent for the removal of cadmium from waste water. This opens a great economic and developmental potentiality of use of the trunks of the old and unproductive date palms as a low cost material for the removal of Cd2+ and other toxic metals from the waste water. A research has been conducted on the use of date palm seeds for the production of activated carbon via sequential hydrothermal carbonization (HTC) and sodium hydroxide activation. HTC is a distinguished low temperature and environmentally favorable process. To conduct this study, the date palm seeds (PDS) were locally obtained in Malaysia. An automated stainless-steel hydrothermal reactor of capacity 200 ml was used for HTC, and a sample of 5 g was put in it. The reactor was sealed and heated to 200 °C for 5 h at 5 °C/min heating rate. After cooling, the obtained hydrochar was well washed with distilled water and put in an oven at 105 °C for 24 h. The PDS-HTC hydrochar was impregnated with NaOH at ratios of PDS-HTC: NaOH (w/w): 1:1, 1:2 and 1:3, then oven-dried at 105 °C for 24 h. Then an automatic electric vertical furnace was used to activate the NaOH pretreated hydrochar at 600 °C under a continuous nitrogen (N2 99.995%) flow at 150 cm3/min. A 10 °C/min rate of heating was set for 1 h. The produced AC was collected after cooling, repetitively rinsed with hot distilled water to decrease the pH of the washing solution from 6to 7. Then the ACs were dried in an oven at 105 °C for 24 h and stored in tightly closed container. The methylene blue (MB) was chosen in this study for the evaluation of the adsorption performance of the PDS hydrochar AC in aqueous solution. The textural, morphological and chemical properties of the produced hydrochar AC were investigated. NaOH activation enhanced the porosity and surface functionality of the hydrochar. Thus, the prepared AC exhibited a relatively high specific surface area of1282.49 m2/g, a total pore volume of 0.66 cm3/g and an average pore width of 20.73 Å. Thus, it can be concluded that it is feasible by a combination of HTC and NaOH activation to produce activated carbon with remarkable adsorptive properties from date palm seeds, a very cheap resource, dominantly treated as a waste. A research has been conducted on the use of date palm seeds for the removal of phenol. The date palm seeds were received from a local farm in Abu Dhabi, washed with deionized water, dried at 105 °C for 24 h, ground to size > 500 µm and stored in a desiccator. Ten grams of the material was mixed with KOH (40% by volume) solution at an impregnation ratio (KOH/biomass) of 2. The produced porous carbon had a Brunauer–Emmett–Teller area of 892 m2/g, pore volume of 0.45 cm3/g and average pore diameter of 1.97 nm. This porous carbon was used for the adsorption of phenol at different concentrations (100–400 mg/L) and temperatures (30–50 °C). The adsorption behavior of phenol on porous carbon was found to be well described by Langmuir isotherm model. The monolayer adsorption capacity was found to be 333 mg/g, the highest as compared with date palm seed biomass-based porous carbons. Thus, it can be concluded that it is feasible to use date palm seeds for the preparation of KOH-based activated carbon for the removal of phenol from aqueous solutions as a low-cost process with an extremely high performance. An important paper has been devoted to a review on the preparation of activated carbons from date palm stones and application for wastewater treatments. The agricultural residues have withdrawn the attention of researchers as promising precursors for activated carbon, because of the low cost, great abundance, renewability and high lignocellulosic content. Fruit stones are of particular interest being byproducts of food industries and thus easy to collect. Examples of these fruit stones are peach, apricot, olive, cherry, grape and date stones. Among these fruit stones, the date stones are especially distinguished for their high carbon content, low price and high availability in the Arab countries. The date stone represents ~ 10% of the fruit weight making it the largest agricultural byproduct in the date-producing countries (~700 thousand tons annually). Chemical activation is preferred over physical due to higher yield, single-step treatment, lower temperature, shorter time and better porous structure. Among the different methods of wastewater treatment the adsorption is advantageous because of its simplicity, flexibility, suitability for batch and continuous processes, possibility of regeneration and reuse, low expenses and capability to remove a wide array of pollutants in different concentrations. The activated carbon is distinguished with a high adsorption performance due to its high surface area, well-developed porous structure and favorable surface properties. The chemical composition of date stones is as follows: moisture (5–10%), ash (1–2%), protein (5–7%), oil (7–10%), crude fiber (10–20%) and carbohydrates consisting of 23% hemicellulose, 15% lignin, 57% cellulose and 5% ash. The activation variables affecting the pore characteristics and yield of carbon are in the order of: activation temperature, impregnation ratio and activation time. The surface areas of date stone carbons were in the range from 490 to 1282 m2/g and yields from 17 to 47% with the highest values obtained by chemical activation. The application of date palm stones-carbons for the adsorption of organic and inorganic pollutants demonstrated maximum capacities of 612.1, 359.1, 238.1 and 1594 mg/g for dyes, phenols, pesticides and heavy metals, respectively. Thus, it can be concluded that the date palm stones are a low-cost, renewable, non-toxic and biocompatible source for the manufacture of activated carbon of high efficiency for removal of pollutants from waste water. Proceeding from the insufficiency of literature on the use of date palm seeds as a suitable precursor for the manufacture of activated carbon a research has been conducted to investigate the impact of process conditions on the preparation of porous carbon from date palm seeds using KOH activation. To conduct this study, date palm seeds were sourced from a local farm in Abu Dhabi, UAR, washed with deionized water and dried in oven at 105 °C for 24 h and then ground to a particle size > 500 µm. Ten grams of date palm seeds dust were mixed with KOH (40% by volume) solution at an impregnation ratio 1–5. The mixture was stirred for 5 h using a magnetic paddle. After complete soaking of KOH solution, the mixture was oven-dried at 105 °C and then activated at a horizontal furnace at 500–900 °C for an activation time 30–120 min in a nitrogen flow of 150 mL/min. The carbonized samples were cooled to room temperature in an inert atmosphere, washed with HCI aqueous solution to remove ash, and then by distilled water to reduce pH to neutral. The final porous carbon was then dried at 105 °C for 12 h. The yield of activated carbon was estimated based on grams bone dry per grams bone dry of date palm seeds. The results of the study have come to the following conclusions:}, booktitle={Date Palm Byproducts: A Springboard for Circular Bio Economy}, publisher={Springer Nature Singapore}, author={EL-Mously, Hamed and Midani, Mohamad and Darwish, Eman A.}, year={2023}, pages={251–269} }
 @inbook{el-mously_midani_darwish_2023, title={Date Palm Byproducts in Construction, Insulation and Building Materials}, url={http://dx.doi.org/10.1007/978-981-99-0475-4_7}, DOI={10.1007/978-981-99-0475-4_7}, abstractNote={This chapter reviews several scientific breakthroughs that have tackled the potential of utilizing date palm byproducts for various uses in contemporary construction field as a sustainable and renewable alternative to conventional materials such as concrete and steel. The chapter demonstrates and classifies the fields of utilizing date palm byproducts in construction into usage in the natural form and usage in the processed form. Using date palm midribs in their natural form for light structures was investigated by several studies that showed clear loyalty to traditional techniques whose continuing thriving to the present day indicates their compatibility with the material while sustaining low-cost production. In addition, date palm midribs and trunk were investigated to be used to produce facades and structural sandwich panels. On the other hand, other researches focused on processing date palm fibers to be used in more sophisticated fields such as reinforcing concrete, high strength concrete and mortar to enhance shrinkage resistance and ductility. In addition, the superior insolating properties of date palm fibers led to their involvement in several researches specialized in producing insulation materials, polyester composites and insolating panels which are highly in demand globally to reduce the cooling loads and heating loads and improve the indoor air quality of residential and office spaces. Moreover, crushed date palm midribs ash, midribs and petioles fibers have been introduced as a recommendable stabilizer for traditional building materials such as raw earth blocks and compressed blocks.}, booktitle={Date Palm Byproducts: A Springboard for Circular Bio Economy}, publisher={Springer Nature Singapore}, author={EL-Mously, Hamed and Midani, Mohamad and Darwish, Eman A.}, year={2023}, pages={179–220} }
 @inbook{el-mously_midani_darwish_2023, title={Date Palm Byproducts in Enzymes, Food, Beverage, Pharmaceuticals, Cosmetics and Natural Wax}, url={http://dx.doi.org/10.1007/978-981-99-0475-4_3}, DOI={10.1007/978-981-99-0475-4_3}, abstractNote={Peroxidase—an important enzyme of a high value-added—has been successfully extracted from date palm leaflets, usually treated as waste! Seeds from waste dates have been used as a source for functional ingredient in food systems enjoying a high economic feasibility. Date palm leaflets and midribs have been successfully used as a substrate for microbial protein production. Carotenoids—natural colors of a very high commercial value—have been extracted from date wastes. Date palm leaflets have been used as a substrate for growth of pleurotus fungi. Bakers’ yeast and citric acid have been extracted from date wastes. Glucose and citric acid have been extracted from date palm fronds, petioles and leaf sheaths. Lactic acid, successfully produced from date palm sap, has revealed the existence of a diversity of microflora including yeasts, coliforms and lactic acid bacteria, which can be used as a starter culture for the production of fermented beverage. Insoluble fibers were extracted from waste dates being a good dietary source rich in mineral contents and can be used as an excellent food ingredient. Date palm kernel extract was found to exhibit antiaging effect suggesting its use in antiaging skin care products. Seeds oil extracted from date palm seeds was successfully used in cream, liquid shampoo and bar shaving soap. Natural wax was successfully extracted from date palm leaflets to be used in cosmetics and health care products.}, booktitle={Date Palm Byproducts: A Springboard for Circular Bio Economy}, publisher={Springer Nature Singapore}, author={EL-Mously, Hamed and Midani, Mohamad and Darwish, Eman A.}, year={2023}, pages={93–102} }
 @inbook{el-mously_midani_darwish_2023, title={Date Palm Byproducts in Fibers, Textiles and Composites}, url={http://dx.doi.org/10.1007/978-981-99-0475-4_4}, DOI={10.1007/978-981-99-0475-4_4}, abstractNote={Date palm (Phoenix dactylifera L.) is a very rich source of cellulosic fibers. Fibers could be extracted from different parts of the palm including midribs, spadix stems, leaflets, mesh and even the trunk at the end of the palm life. The extracted date palm fibers have promising properties when compared to other leaf fibers like sisal, abaca and banana. This chapter sheds the light on the great potential of date palm fibers as a newcomer to the natural fibers’ library and then provides a comparative analysis between fibers extracted from the palm midrib, spadix stem and leaf sheath to other commercial vegetable fibers. The chapter also benchmarks the performance of the automotive-grade composite panels reinforced by date palm fibers to other leaf fiber composites. Further, the thermal and acoustical insulation properties of nonwoven fiber batts made from date palm midrib were also analyzed. Finally, the potential applications of date palm fibers were highlighted in the context of the circular bioeconomy of the future. The information presented in this chapter confirms the excellent opportunity of valorizing date palm byproducts in producing sustainable textile grade fibers with competitive properties and high availability.}, booktitle={Date Palm Byproducts: A Springboard for Circular Bio Economy}, publisher={Springer Nature Singapore}, author={EL-Mously, Hamed and Midani, Mohamad and Darwish, Eman A.}, year={2023}, pages={103–128} }
 @inbook{el-mously_midani_darwish_2023, title={Date Palm Byproducts in Organic Fertilizers, Compost, Soil Amendment and Coal}, url={http://dx.doi.org/10.1007/978-981-99-0475-4_8}, DOI={10.1007/978-981-99-0475-4_8}, abstractNote={Grinded date palm trees mulch applications have additional benefits of decreasing water evaporation from the soil surface, helping control weed invasion, dust suppression, helping prevent soil erosion loss by wind or water and providing thermal stabilization by keeping soil cooler in hot weather and warmer in cool weather. In an important study, the composting of date palm trees mulch, produced from grinded date palm leaves, trunks and roots and fresh cow manure, was investigated and analyzed in AL Hofuf Stars Recycle Station of AL Hasa City, K.S.A. The composite compost mixtures were built by mixing date palm mulch as a carbon source with fresh cow dung as a nitrogen source with C/N ratio 44.3:1, 50:1 and 44:1 for the mixture 1, 2 and 3, respectively. The turned windrow method has been applied in the composting process. The obtained organic fertilizer had natural soil odor and was brown in color. Thus, it can be concluded that the date palm mulch can be biologically recycled into an organic product having the criteria of organic fertilizers, soil stabilizers and soil plantation. Another research was conducted with the objective of preparing local farm residues, such as date palm leaves (DPL) as a substitute for imported peatmoss. DPL compost has been prepared according to Abu-Alfadhal method with some modifications. Air-dried DPL were cut to pieces of 10 cm length and buried in 2 × 1 m size concrete pit of depth 1.1 m. The compost layers were ~25 cm deep. There were four identical layers of DPL up to 1 m in height. The compost layers were stirred after 6 weeks followed by remixing the compost layers with an interval of 3 weeks. The compost pit was opened after 6 months, and the completely decomposed date palm leaves (compost) was separated from the undecomposed part. The results of the germination experiment in the first growing season showed that there was no significant difference in the number of seeds germinated in the DPL compost and peatmoss. In the second growing season the total number of seeds germinated were significantly higher in the DPL compost than peatmoss. In conclusion, the date palm leaves compost is an excellent substitute for peatmoss. Another study has been conducted to evaluate the feasibility of using composted date palm residues as a growth medium for tomato greenhouse plants production. Compost was prepared by mixing goat manure with crushed date palm residues (1:3 v/v). The date palm residues were sourced from the oasis of Cheneni (Gabes) and the goat manure from a local organic farm in Gabes (south of Tunisia). The windrow of 7 tons was irrigated by well water having pH 7.08 and electrical conductivity 3.4 mS/cm. The obtained compost was then evaluated for its effects on the growth of Rio Grande tomato seeds under greenhouse conditions at a local nursery in Sfax (south of Tunisia). The ingredients of the windrow were mixed by mechanical rotation to allow for aeration. The mature compost was ready after 6 months of adequate aeration and humidification. The produced compost from date palm leaves and goat manure co-composting had a pH value within the range of 6.0–8.5 and electric conductivity value lower than 3 mS/cm and is thus compatible with most plants growth needs. In addition, the final C/N ratio value indicated the complete biodegradation and the stability of the substrate. The produced compost seems to be the most efficient for tomato seedling, especially leaves numbers when used at 30% in the substrate. Thus, it can be concluded that the date palm residues co-composting could provide a viable ecological and sustainable alternative to conventional fertilizers. Another study has been conducted with the objective of achieving a better understanding of the microbial assemblages involved in the composting of lignocellulosic residues and to estimate the diversity of the microbial community structures responsible for the biodegradation. This has been achieved by analyzing the composition of the lipid fraction and following qualitative and quantitative variations in the levels of different fatty acid methyl esters (FAMEs) identified during composting. The study of compost’s organic matter composition has been considered important to understand how biowaste can be processed. Various authors devoted their endeavors to study the humic substances. These lipids, formed during the biotransformation of organic matter by composting, provide useful information about the compost’s maturity and stability and play an important role in soil processes. These compounds, mainly of plant and microbial origin, are hydrophobic and are often extracted with humic substances. A study has been conducted with the objective of evaluating the potentiality of use of the date palm midrib in charcoal production. The date palm midribs being a product of annual pruning of date palms are extensively available in most of the governorates in Egypt. Charcoal is needed as a fuel beside its environmental, medical and industrial applications. To conduct this study, samples of date palm midribs were collected from two date palm varieties: Balady and Siwei from EL-Qayat village, Menia governorate, Egypt. Each date palm midrib was divided into end, knee, base, middle and top parts. A pyrolysis reactor has been designed and manufactured. The carbonization cycle to 500 °C was conducted according to FAO standard with a heating rate 5–7 °C/min for Balady and Siwei date palm different parts. The experimental analysis has been conducted according to ASTM standards including the calorific value, fixed carbon, volatile matter%, ash content%, sulfur content% and moisture content% for the date palm midrib parts before and after carbonization. The research results show that for Balady midribs the best samples according to FAO standards are the middle part of the followed by the top, base, knee and end. Regarding Siwei midribs, the best samples are the top part of the midrib followed by the base, middle and end. Taking the whole midrib into consideration, Balady and Siwei midribs realized 86% and 88% of the FAO standard, respectively. Thus, it can be concluded that the Balady and Siwei date palm midribs can be used for the manufacture of charcoal suitable for environmental, medical and industrial applications. A research has been conducted with the objective of investigating the effect of pyrolysis temperature on date palm derived biochar characteristics to use it for agronomic or environmental management. Biochar—as a stable carbon-enriched materials—is produced by thermal conversion using unstable carbon-enriched materials. Date palm products of pruning were sourced from a farm near to Riyadh city in Saudi Arabia including leaves and spadix stems. The samples were pyrolyzed to temperatures 300, 400, 500, 600, 700 and 800 °C at a rate of 5 °C/min. The proximate analysis of the samples has been conducted according to ASTM 1762–84 standard method including moisture, ash and volatile matter in biochar. The research results showed that the highest yield of biochar was achieved at the lowest pyrolysis temperature (300 °C). The fixed C, ash and basic cations of biochar increased while its moisture, volatiles and elemental composition (O, H, N and S) decreased with increasing pyrolysis temperature. Biochars produced at high temperature (> 500 °C) could be more resistant to mineralization through biological processes than biochars pyrolyzed at lower temperature (< 500 °C), thus becoming more effective in mitigating greenhouse gas emission into the environmental. Our results suggest that the date palm biochars produced at low pyrolysis temperature (300–400 °C) that are practically carbonized and have relatively high organic functional groups and lower alkalinity may improve the fertility of arid soil more than those pyrolyzed at high temperature (700 and 800 °C). Thus, the research results may lead to the conclusion that the biochars produced from date palm products pf pruning represent a potential alternative materials for agronomic or environmental management.}, booktitle={Date Palm Byproducts: A Springboard for Circular Bio Economy}, publisher={Springer Nature Singapore}, author={EL-Mously, Hamed and Midani, Mohamad and Darwish, Eman A.}, year={2023}, pages={221–234} }
 @inbook{el-mously_midani_darwish_2023, title={Date Palm Byproducts in Other Fields of Applications}, url={http://dx.doi.org/10.1007/978-981-99-0475-4_12}, DOI={10.1007/978-981-99-0475-4_12}, abstractNote={An important research has been conducted to investigate the feasibility of production of furfural from date palm midribs using a sulfuric acid-catalyzed hydrolysis process. In this research, the effect of reaction temperature, liquid-to-solid ratio, acid concentration and reaction time were investigated, and their optimum values determined to attain the maximum furfural yield. Furfural and its derivatives are considered as important chemicals due to their various applications. For example, furfural alcohol is employed in chemical industry as an additive or solvent in the manufacture of different resins. In addition, furfural is used as a selective solvent for the separation of saturated from unsaturated compounds in petroleum refining, gas oil and diesel fuel industries. In addition, furfural is also used as a fungicide, weedkiller and as a feedstock for the production of tetrahydrofuran. In most of the date-producing countries in the Arab world the products of pruning of date palms (e.g., leaflets, midribs, spadix stems, petioles and leaf sheaths fibers) are being treated as waste. i.e., open-field burnt or sent to landfills. This represents a great loss of such an important treasure of locally available renewable resources. As a response to this situation, an important research has been conducted with the objective of isolation and structural characterization of hemicellulose-type polysaccharides from date palm leaflets and midribs. The hemicellulose-type polysaccharides were successfully extracted from the leaflets and midribs of the date palms. The sugar analysis and nuclear magnetic resonance measurements indicate that they belong to xylans family. This may open new potentialities for the economic utilization of date palm products of pruning. A study has been conducted to investigate the potentiality of transforming the date palm midrib into sizing agent for use in the textile industry as a substitute for expensive commercial products imported from aboard. The date palm midribs were collected from Monastir (Tunisia). To obtain sodium cellulose carboxyl methylate (NaCMC), the cellulose was transformed into alkali-cellulose, and then etherification agent (monochloroacetic acid) was then introduced. The performance of NaCMCs was then compared to that of the imported commercial product. To conduct yarn sizing, 100% cotton yarns were utilized. To evaluate the performance of the sized yarn, the yarn hairiness and the load and elongation at break were measured. Hairiness is defined as the number of fibrils outside the main axis of the yarn. The results of this research prove the potentiality of use of date palm midrib in the manufacture of sizing materials for yarn as a substitute for expensive imported commercial products. A research has been conducted with the purpose of extracting cellulose fibers from date palm petioles. The date palm petioles were collected in Monastir, Tunisia. The samples were air-dried, milled and sieved to a grain size between 200 µm and 1 mm. The extraction of fibers was conducted under alkaline conditions to remove hemicellulose and break the hydrogen bonds and the hydrolyzed ester groups. The chemical composition of the date palm petioles was determined and found: 1,4% extractives, 27.5% lignin and 67.7% holocellhouse. In this work, it was possible to extract and purify cellulose fiber from date palm petioles with a yield of 42%. Moreover, the solubility of cellulose in ionic liquid (N-buthyl-N-methylpyrrolidium buthyl-dibutthylphosphate) allowed the dissolving of 11 g of cellulose per 100 g of this ionic liquid at 80 °C. The results of this study provide an environment-friendly method of dissolving cellulose from date palm petioles. It also represents an eloquent example of valorization of date palm products of pruning generally treated as waste. A research has been conducted to evaluate the potentiality of use of date palm seeds powder in sealing of fractures in oil wells. The expenses of drilling of oil wells represent 25% of the total oilfield exploitation cost. The drilling fluids represent 15 to 18% of the total cost of petroleum well drilling operations. One of the problems in well drilling is the loss of drilling liquids into drilling-induced fractures or natural fractures in wells. Therefore, it is necessary to find appropriate materials that can efficiently seal these fractures during drilling operations. In this research two superior fracture seal materials made from crushed date palm seeds and shredded waste tires were tested in laboratory conditions to seal artificially fractured holes under high temperature and pressure conditions. Mixtures of either crushed date palm seeds or shredded waste car tires of different grain sizes proved its ability to completely seal the samples at pressures up to 1000 psi and temperature up to 90 °C. In addition to its superior ability to seal the fractured formations, the date palm seeds are cheap, locally available in commercial quantities, environmentally friendly and easy to crush into various required grain sizes. A research has been conducted to study the effect off using a perforated plate on the sound absorption of date palm leaf sheaths fibers. To conduct this research, fibers were collected from the sheathing leaf bases and dried in shade at room temperature for 2 days. The pulp (paranchyma) was removed from fibers by combing and the fibers were then scrapped to remove the pulp completely. The average diameter and density of the fibers were 0.408 mm and 919 kg/m3 respectively. The plastic molds were fabricated with diameters 28 mm and 100 mm to suit the two impedance tubes used in this research. The thickness and density of prepared samples were 30 mm and 77 kg/m3, respectively. The frequency span of the experiment was 100–5000 Hz with 3 Hz resolution. An aluminum performed plate was used to enhance the sound absorption. The experiment was conducted for the panel without air gap, with air gap of 10, 20 and 30 mm between the date palm fiber sample and the rigid backing of the impedance tube. The use of the perforated plate has led to the increase of the absorption coefficient between 1000 and 3000 Hz by shifting the peak toward the low frequency range. However, the sound absorption coefficient decreased above 3000 Hz and the peak decreased by 4%. The results show that the best performance for improving the sound absorption at low frequency range can be achieved using the date palm leaf sheaths fibers combined with the perforated plate facing and the 10 mm air gap backing. The performance of the date fibers can be improved by increasing the samples density and using plates with different perforations.}, booktitle={Date Palm Byproducts: A Springboard for Circular Bio Economy}, publisher={Springer Nature Singapore}, author={EL-Mously, Hamed and Midani, Mohamad and Darwish, Eman A.}, year={2023}, pages={345–354} }
 @book{el-mously_midani_darwish_2023, title={Date Palm Byproducts: A Springboard for Circular Bio Economy}, url={http://dx.doi.org/10.1007/978-981-99-0475-4}, DOI={10.1007/978-981-99-0475-4}, abstractNote={This book focuses on the by-products of date palms which is a sustainable material base for the circular bioeconomy of the future}, journal={Springer Nature Singapore}, publisher={Springer Nature Singapore}, author={EL-Mously, Hamed and Midani, Mohamad and Darwish, Eman A.}, year={2023} }
 @article{sarmin_jawaid_ismail_hashem_fouad_midani_salim_2023, title={Effect of chitosan filler on the thermal and viscoelasticity properties of bio-epoxy/date palm fiber composites}, volume={36}, ISSN={["2352-5541"]}, url={http://dx.doi.org/10.1016/j.scp.2023.101275}, DOI={10.1016/j.scp.2023.101275}, abstractNote={The present study focuses on the efficacy of incorporating a combination of date palm fibres (DP) and chitosan (CTS) filler in bio-epoxy composites for engineering applications. In this research work, chitosan serves as bio-filler to enhance the viscoelasticity and thermal properties of composites made from bio-epoxy/date palm fiber through DMA and thermogravimetry analysis. Four different amounts of chitosan powder (5,10,15,20%wt) were incorporated into a bio-epoxy/date palm fiber composite. A bio-epoxy/date palm fiber composite without chitosan filler was made for comparison purposes. With the addition of chitosan bio-filler, the storage modulus of the bio-epoxy/date palm fiber composite increased, with the exception of composite containing 5% CTS. Comparing 20% chitosan filler to without chitosan composite, the damping factor (Tan δ) increases from 0.34 to 0.39. Thermogravimetric analysis performed on composites showed that the presence of chitosan influences the thermal properties of the composites. The composite containing 20% CTS demonstrated the greatest improvement in thermal stability. These DMA and TGA results validate the positive thermal and viscoelastic properties of chitosan-incorporated bio-epoxy/date palm fibre composites. Based on the findings, bio-epoxy/date palm fiber with chitosan filled can be used in a variety of lightweight engineering applications with great success.}, journal={SUSTAINABLE CHEMISTRY AND PHARMACY}, publisher={Elsevier BV}, author={Sarmin, Siti Noorbaini and Jawaid, Mohammad and Ismail, Ahmad Safwan and Hashem, Mohamed and Fouad, Hassan and Midani, Mohamad and Salim, Nurjannah}, year={2023}, month={Dec} }
 @article{abare_jawaid_hamid_bakar_ismail_sarmin_fouad_midani_2023, title={Evaluation of physical, mechanical, and thermal properties of woven kenaf/bio-epoxy composites}, volume={53}, ISSN={["1530-8057"]}, url={https://journals.sagepub.com/doi/10.1177/15280837231163342}, DOI={10.1177/15280837231163342}, abstractNote={The demand for eco-friendly materials in many sectors is due to the age-long usage of synthetic materials, which has so many negative impacts on the environment, high energy consumption, and health concerns. The physical, mechanical, morphological, and thermal properties of woven kenaf fibre reinforced bio-epoxy composites are investigated in this study. The bio-composites were produced utilizing a manual lay-up process with varying fibre loading percentages of 30%, 35%, and 40%. Pure Bio-epoxy composites were also prepared as a reference. Physical, mechanical, morphological, and thermal characteristics were assessed. The density and water absorption of the bio-composites increase as the fibre loading increased. The highest density (1.2559 g/cm3) was shown by 40% fibre loading which also exhibited the highest water absorption of 9.8%. Furthermore, the void content revealed that the pure bio-epoxy has the highest value of 3.16% as compared to kenaf/bio-epoxy composites. The highest tensile strength and Young’s modulus was recorded by 40% fibre loading with 92.47 MPa and 9.18 GPa respectively. Impact properties also show enhancement with the increase in fibre loading, it showed the highest impact strength of 7280.8 J/m2 at 40% fibre loading. Scanning electron microscopy (SEM) of the tensile fracture indicates that 40% fibre loading shows better fibre and bio-epoxy inter facial bonding because of its higher strength. The Initial decomposition temperature (IDT) of the bio-composites happens at about 230°C–280°C, and the Final decomposition temperature (FDT) is 540°C–560°C which is lower when compared to the pure bio-epoxy composites of 279°C and 560°C. Kenaf/bio-epoxy composites with 40% fibre loading show the best physical and mechanical and thermal properties. Based on our findings, we believe that our green bio-composites has the potential to be employed in various industries such as automobiles, construction and packaging.}, journal={JOURNAL OF INDUSTRIAL TEXTILES}, author={Abare, Alhassan Yakubu and Jawaid, Mohammad and Hamid, Norul Hisham and Bakar, Balkis Fatomer A. and Ismail, Ahmad Safwan and Sarmin, Siti Noorbaini and Fouad, Hassan and Midani, Mohamad}, year={2023}, month={Mar} }
 @article{housing retrofit for energy efficiency: utilizing modular date palm midribs claddings to enhance indoor thermal comfort_2023, url={https://doi.org/10.1016/j.asej.2023.102323}, DOI={10.1016/j.asej.2023.102323}, abstractNote={Date palm midribs, major agricultural residues in Egypt, were utilized in the development of a novel prefabricated thermal cladding panel as a local cost-efficient option by which users can retrofit their houses to enhance thermal comfort and reduce energy consumption, while complimenting the existing interior context. The developed panel consisted of midribs-strip-boards cladding surface encasing midribs-fibers non-woven insulating core. Firstly, cladding specimen and insulating core specimens of different densities were tested to determine their thermal conductivity. Secondly, results were used to design various configurations according to the requirements of The Egyptian Code of Energy Efficiency in Residential Buildings. Thirdly, Design Builder “Whole Building” simulations were used to compare between the annual cooling and heating energy consumption savings achieved after using standard insulation methods and savings achieved using the developed thermal-cladding panels. Results showed that midribs thermo-cladding panels effectively enhanced energy efficiency as a successful equivalent to standard insulation wall retrofitting techniques.}, journal={Ain Shams Engineering Journal}, year={2023}, month={May} }
 @book{multiscale textile preforms and structures for natural fiber composites_2023, url={https://shop.elsevier.com/books/multiscale-textile-preforms-and-structures-for-natural-fiber-composites/midani/978-0-323-95329-0}, journal={Elsevier}, year={2023}, month={Jul} }
 @article{lamia_nafissa_djoubair_jawaid_fouad_midani_2023, title={New cellulosic fibre from Spathes of male date for lightweight composite materials: extraction and characterization}, volume={24}, ISSN={["2214-0697"]}, url={http://dx.doi.org/10.1016/j.jmrt.2023.04.159}, DOI={10.1016/j.jmrt.2023.04.159}, abstractNote={Researchers and industry are looking for green and sustainable materials as reinforcement for lightweight composite structures. This research aim was designed to study the characteristics of the fibre extracted from a waste product of the spathe of date palm (SDP). In this work, density, crystallinity index, crystal size, tensile strength, surface roughness, extreme degradation temperature and thermal stability of SDP fibres were investigated. Density is estimated to be 0.59 g/cm3. X-ray diffraction analysis indicated the crystallinity index about (57.82%) and the crystal size is (19 nm). The results of the thermal analysis gave the degradation temperature as 270 °C and Ea as 69.14 kJ/mol. Scanning electron microscopy (SEM) investigation confirmed the presence of surface contaminants including wax and other foreign materials. Also, the mechanical properties identified are tensile strength (100 ± 21.5 MPa), and Young's modulus (4 ± 0.9% GPa). Based on the study's findings, SDP fibres should be considered for usage as a reinforcing material in the development of novel polymer composites with a wide range of lightweight industrial applications.}, journal={JOURNAL OF MATERIALS RESEARCH AND TECHNOLOGY-JMR&T}, publisher={Elsevier BV}, author={Lamia, Benhamadouche and Nafissa, Moussaoui and Djoubair, Benhamadouche Abdelouahab and Jawaid, Mohammad and Fouad, Hassan and Midani, Mohamad}, year={2023}, pages={5361–5371} }
 @article{awad_salahudeen_elseify_hamouda_midani_2023, title={Prediction of Fibre Orientation in Biodegradable Composites Reinforced With Short Date Palm Fibre Using Micromechanics Modelling}, volume={5}, url={http://dx.doi.org/10.1007/s42824-023-00080-y}, DOI={10.1007/s42824-023-00080-y}, number={1}, journal={Materials Circular Economy}, publisher={Springer Science and Business Media LLC}, author={Awad, Said and Salahudeen, Shafaat Ahmed and Elseify, Lobna and Hamouda, Tamer and Midani, Mohamad}, year={2023}, month={Dec} }
 @book{jawaid_midani_khiari_2023, title={Proceedings of 2nd World Conference on Byproducts of Palms and Their Applications}, url={http://dx.doi.org/10.1007/978-981-19-6195-3}, DOI={10.1007/978-981-19-6195-3}, abstractNote={This book presents the selected papers presented at the 2nd World Conference on Byproducts of Palms and their Applications (ByPalma 2021)}, journal={Springer Nature Singapore}, publisher={Springer Nature Singapore}, year={2023} }
 @inbook{el-mously_midani_darwish_2023, title={The Date Palm Byproducts: Description, History of Utilization and Associated Technological Heritage}, url={http://dx.doi.org/10.1007/978-981-99-0475-4_2}, DOI={10.1007/978-981-99-0475-4_2}, abstractNote={The date palm abundantly exists in North Africa, the Arab Peninsula and Iran. The first emergence of date palm dates back to 4000 BC in Mesopotamia. This long history, along with the high renewability rate, has led to the accumulation of a rich technical heritage associated with the utilization of all the secondary date palm products, including whole leaves (midribs, leaflets), petioles, spadix stems, leaf sheaths fibers, date kernels and trunks. Midribs have been used in roofing, fencing, furniture making, and manufacturing crates and coops. Leaflets have been used in making mats, baskets and bags. Leaf sheaths fibers have been used in making ropes, nets, bags, brooms and fly whiskers. Spadix stems have been used in making brooms and household sieves. In addition, fibers obtained from spadix stems have been used for tying agricultural crops. The palm trunk has been used as windows lintels, beams and columns in construction. Moreover, trunks have been used as a wood substitute in furniture making. This chapter reveals the technical heritage associated with several traditional uses of the secondary date palm products to satisfy the human needs in the Arab region. In addition, geometrical description of these secondary products and the procedures of their preparation are included.}, booktitle={Date Palm Byproducts: A Springboard for Circular Bio Economy}, publisher={Springer Nature Singapore}, author={EL-Mously, Hamed and Midani, Mohamad and Darwish, Eman A.}, year={2023}, pages={17–90} }
 @inbook{el-mously_midani_darwish_2023, title={The Date Palm as a Springboard for Circular Bioeconomy: A Biorefinery for Each Date Palm Byproduct}, url={http://dx.doi.org/10.1007/978-981-99-0475-4_13}, DOI={10.1007/978-981-99-0475-4_13}, abstractNote={This chapter proceeds from the reality of each date palm plantation with its production: of dates and byproducts that can be sorted in site to different byproducts and from the necessity of rational utilization of these byproducts. Otherwise, these byproducts will turn into waste (as the situation is most predominantly now) being either open-field burnt causing considerable environmental pollution or sent to landfills!}, booktitle={Date Palm Byproducts: A Springboard for Circular Bio Economy}, publisher={Springer Nature Singapore}, author={EL-Mously, Hamed and Midani, Mohamad and Darwish, Eman A.}, year={2023}, pages={355–366} }
 @article{darwish_midani_2023, title={The potential of date palm midribs-based fabric acoustic panels for sustainable interior design}, volume={12}, url={https://publons.com/wos-op/publon/54613870/}, DOI={10.1016/J.ASEJ.2022.102100}, abstractNote={This paper presents an experimental study of acoustic absorption of novel fabric acoustic panels utilizing non-woven fabric cores and fabric facings made of date palm midribs-fibers; to be used as absorbent panels for spaces with privacy needs. Normal acoustic absorption coefficients of various configurations; different densities, thicknesses and facings; were measured using impedance tube. Findings showed that the highest absorption was exhibited by 50 mm- thick midribs-fibers cores. Additionally, 150 kg/m3 cores balanced between high tortuosity and porosity. Results of full assembly tests showed that 30 mm-150 kg/m3 and 40 mm-100 kg/m3 cores with woven midribs-fibers facings enjoyed significantly high absorption at low frequencies and high frequencies. Additionally, 40 mm-100 kg/m3 and 50 mm-200 kg/m3 cores with cotton facings provided competitive overall performances to commercial acoustic panels while providing flexible interior design options. Thus, interior designers can incorporate midribs-based fabric acoustic panels into their designs as local sustainable absorbent panels to enhance acoustical quality and complement space aesthetics.}, journal={Ain Shams Engineering Journal}, publisher={Elsevier BV}, author={Darwish, E.A. and Midani, Mohamad}, year={2023}, pages={102100} }
 @article{elseify_midani_el-badawy_awad_jawaid_2022, title={Comparative study of long date palm (Phoenix dactylifera L.) midrib and spadix fibers with other commercial leaf fibers}, volume={12}, ISSN={["1572-882X"]}, url={https://publons.com/wos-op/publon/53923305/}, DOI={10.1007/S10570-022-04972-1}, journal={CELLULOSE}, publisher={Springer Science and Business Media LLC}, author={Elseify, Lobna A. and Midani, Mohamad and El-Badawy, Ayman A. and Awad, Said and Jawaid, Mohammad}, year={2022}, month={Dec} }
 @inbook{midani_elseify_hamouda_hassanin_2022, title={Comparison of coconut coir and date palm coir (sheath fiber) and their composites}, url={https://doi.org/10.1016/B978-0-443-15186-6.00070-9}, DOI={10.1016/B978-0-443-15186-6.00070-9}, abstractNote={Date palm is the main element of flora in the Arab region and its coir was historically regarded as an important byproduct of palm cultivation and it was used in every aspect of living since ancient Egypt. Date palm coir is the fibrous sheath layer surrounding the date palm trunk, which can be separated from the trunk during the annual pruning. However, there has been a declining interest in such resource, and it has lost ground to modern synthetic fibers. Nowadays, the use of date palm coir is limited to cultural and traditional crafts, with no significant industrial application. Despite that its annual production could reach 234 thousand tons, which is almost 20% of the annual production of coconut coir. This chapter discusses the industrial potential of date palm coir fiber as a reinforcement for polymer composites and compares it to commercial coconut coir fiber. Important fiber properties such as, physical, morphological, chemical, thermal and mechanical are compared. Moreover, performance of polymer composites reinforced with both date palm coir and coconut coir fibers are also discussed, including composites with different matrix systems, fiber fraction and length. The results of the comparative study reveal that date palm coir has very similar characteristics to coconut coir fiber. Yet, in order to be industrialized similar to coconut coir, much attention is needed from government associations and developmental organizations to develop its value chain.}, booktitle={Coir Fiber and its Composites}, author={Midani, Mohamad and Elseify, Lobna A and Hamouda, Tamer and Hassanin, Ahmed H}, year={2022}, month={Aug} }
 @article{awad_ghaffar_hamouda_midani_katsou_mizi_2022, title={Critical evaluation of date palm sheath fibre characteristics as a reinforcement for developing sustainable cementitious composites from waste materials}, volume={5}, url={http://dx.doi.org/10.1007/s13399-022-02759-9}, DOI={10.1007/s13399-022-02759-9}, abstractNote={Abstract Decarbonizing the construction industry is an important step towards achieving the net-zero goals for many countries. New technologies and materials are extensively investigated and proposed to meet sustainability guidelines imposed by governments. This research develops a novel mix of sustainable pozzolanic cementitious composite ordinary Portland cement (OPC) with ground granulated blast-furnace slag (GGBS)) reinforced with date palm fibre (DPF) to evaluate the effect of varying DPF loading contents (1, 2, and 3 wt.%) and lengths (10, 20, 30, and 40 mm) on the mechanical (compressive and flexural strength) and physical properties (water absorption) of the produced composite. The effect of curing conditions and DPF surface modification on the mechanical and physical properties was also explored. The results showed that the utilization of DPF as a reinforcement for GGBS/OPC improves the flexural and compressive strength of the composites, which represents a sustainable alternative to synthetic reinforcements for construction applications. Optimal results were demonstrated at the inclusion of 20-mm alkali-treated DPF at a loading content of 1 wt.% showing an enhancement in strength by 57.12% and 30.97% of flexural and compressive strength, respectively, at 28 days of ageing in a water bath. Graphical abstract}, journal={Biomass Conversion and Biorefinery}, publisher={Springer Science and Business Media LLC}, author={Awad, Said and Ghaffar, Seyed Hamidreza and Hamouda, Tamer and Midani, Mohamad and Katsou, Evina and Mizi}, year={2022}, month={May} }
 @inbook{elseify_midani_hamouda_khiari_hassanin_2022, title={Extraction of cellulosic fibers from date palm by-products}, url={https://doi.org/10.1016/B978-0-12-823349-8.00009-5}, DOI={10.1016/B978-0-12-823349-8.00009-5}, abstractNote={Novel long fibrillated date palm fibers were extracted from the midribs using alkaline treatment. The midribs were treated at different conditions by varying three parameters; NaOH concentration, treatment duration, and treatment temperature. The average cross-sectional area was measured using cork method. Single fiber tensile test was used to determine the fiber dry and wet tensile strength and modulus of elasticity. Increasing the extent of the alkaline treatment resulted in a significant removal of the non-load bearing amorphous constituents and hollow content, this was associated with a significant fibrillation resulting in an initial increase in strength which then dropped as the severity kept increasing. Moreover, it was noticed that the highest dry tensile strength (452.79 MPa) was obtained when the fibers were treated at high temperature (100°C) with low NaOH % (1%) and vice versa. Wet tensile test showed a significant reduction in strength compared to the dry results, which is due to the significant reduction in the load sharing efficiency. The extracted fibers had better properties than the fibers extracted from the date palm midribs in the literature, the fibers were 98% longer and 80% stronger. Date palm midrib fibers show a very promising future in replacing and competing with other natural fibers especially in the reinforcement of composites.}, booktitle={Extraction of Natural Products from Agro-industrial Wastes}, author={Elseify, Lobna A. and Midani, Mohamad and Hamouda, Tamer and Khiari, Ramzi and Hassanin, Ahmed H.}, year={2022}, month={Dec} }
 @article{awad_hamouda_midani_katsou_fan_2022, title={Polylactic Acid (PLA) Reinforced with Date Palm Sheath Fiber Bio-Composites: Evaluation of Fiber Density, Geometry, and Content on the Physical and Mechanical Properties}, volume={11}, ISSN={["1544-046X"]}, url={http://dx.doi.org/10.1080/15440478.2022.2143979}, DOI={10.1080/15440478.2022.2143979}, abstractNote={ABSTRACT Significant interest for utilizing and processing natural fibers (NF) to develop sustainable and fully biodegradable composites evolved as the global environmental concerns upsurge. Date palm tree (DPT) accounts for more than 2.8 million tons of waste annually, making it the most abundant agricultural biomass waste in the MENA region. This study investigates the effect of date palm fiber (DPF) density, diameter size and content on both the mechanical and physical properties of polylactic acid (PLA) reinforced DPF bio-composite. The bio-composites are developed using melt-mixing technique which is followed by compression molding. The influence of the mechanical properties is investigated by evaluating the tensile, flexural and impact strengths. Meanwhile bio-composite thickness swelling (TS), moisture content (MC) and water absorption (WA) characteristics are evaluated. Bio-composite microstructures are examined using SEM to investigate the interfacial bonding between PLA matrix and DPF. Results showed that at 40 wt.% DPF, the TS, MC, and WA were the highest demonstrating an increase of 4.10%, 4.95%, and 8.22%, respectively. Although the results demonstrated a decrease in mechanical properties as DPF content increased (depending on DPF geometry), the results indicate that the developed technologies could be commercialized under the waste management scheme for non-structural applications.}, journal={JOURNAL OF NATURAL FIBERS}, publisher={Informa UK Limited}, author={Awad, Said and Hamouda, Tamer and Midani, Mohamad and Katsou, Evina and Fan, Mizi}, year={2022}, month={Nov} }
 @article{chandrasekar_senthilkumar_jawaid_alamery_fouad_midani_2022, title={Tensile, Thermal and Physical Properties of Washightonia Trunk Fibres/Pineapple Fibre Biophenolic Hybrid Composites}, volume={7}, ISSN={["1572-8919"]}, url={https://publons.com/wos-op/publon/53625720/}, DOI={10.1007/s10924-022-02524-z}, journal={JOURNAL OF POLYMERS AND THE ENVIRONMENT}, author={Chandrasekar, M. and Senthilkumar, K. and Jawaid, M. and Alamery, Salman and Fouad, Hassan and Midani, Mohamad}, year={2022}, month={Jul} }
 @article{awad_hamouda_midani_zhou_katsou_fan_2021, title={Date palm fibre geometry and its effect on the physical and mechanical properties of recycled polyvinyl chloride composite}, volume={174}, url={http://dx.doi.org/10.1016/j.indcrop.2021.114172}, DOI={10.1016/j.indcrop.2021.114172}, abstractNote={Natural fibre (NF) is considered as the most available resource that exists in nature. Date palm trees (DPT) accounts for more than 2.8 million tons of waste annually, making it the most abundant agricultural biomass waste in the MENA region. Date palm fibre (DPF) extracted from DPT possesses great mechanical and physical characteristics which make them superior to other NFs in the MENA region. This study investigates the effect of DPF diameter size and loading content on both the mechanical and physical properties of DPF reinforced recycled polyvinyl chloride (RPVC) composite. The composites are developed using melt-mixing technique which is followed by compression moulding . The influence of the mechanical properties is investigated by evaluating the impact strength, tensile strength and flexural strength. Meanwhile the sieve analysis , thickness swelling (TS), moisture content (MC) and water absorption (WA) characteristics are evaluated. Composite microstructures are examined using optical microscopy to investigate the interfacial bonding between DPF and RPVC matrix. Results showed that at 40 wt% DPF, the TS, MC and WA were the highest demonstrating an increase of 1.57%, 1.76%, and 10.80%, respectively. The flexural strength, tensile strength and impact strength decreased as the loading content increased showing maximum reduction at 40 wt% loading, varying depending on DPF geometry. Although the results demonstrated a decrease in mechanical properties and an increase in physical properties as DPF loading increased depending on DPF geometry, the results indicate a great potential that the developed technologies could be industrialised under the waste management scheme for non-structural applications. • Utilising DPF agricultural biomass waste into developing sustainable composites. • Optimising DPF/RPVC composites with designing DPF geometry and concentration. • Establishing correlation of DPF/RPVC property and DPF parameters. • Structure and interfacial bonding characteristics of DPF/RPVC composites.}, journal={Industrial Crops and Products}, publisher={Elsevier BV}, author={Awad, Said and Hamouda, Tamer and Midani, Mohamad and Zhou, Yonghui and Katsou, Evina and Fan, Mizi}, year={2021}, month={Dec}, pages={114172} }
 @inbook{elseify_midani_el-badawy_jawaid_2021, title={Future Trends in Natural Fiber Composites in the Automotive Industry}, url={http://dx.doi.org/10.1007/978-3-030-83025-0_6}, DOI={10.1007/978-3-030-83025-0_6}, abstractNote={Research on natural fiber composites (NFCs) has identified poor compatibility between natural fiber reinforcement and synthetic matrix, as one of the major factors limiting the wide use of NFC. A novel composite is introduced to resolve this problem, which is made entirely of cellulose and known as all-cellulose composite (ACC). ACC is believed to be the future of sustainable composites in the automotive industry. This chapter is devoted to the discussion of all-cellulose composites and its potential use as a sustainable composite in the automotive industry of the future. The manufacturing of ACC using conventional impregnation method (CIM) and partial dissolution method (PDM) is described, including a comparison between both methods. Then, the dissolution and regeneration stages and the types of solvents and anti-solvents used are also presented. Finally, the effect of the processing parameters on the properties of ACC is detailed and discussed.}, booktitle={Manufacturing Automotive Components from Sustainable Natural Fiber Composites}, publisher={Springer International Publishing}, author={Elseify, Lobna A. and Midani, Mohamad and El-Badawy, Ayman and Jawaid, Mohammad}, year={2021}, month={Aug}, pages={77–83} }
 @inbook{midani_hassanin_2021, title={Green, Natural Fibre and Hybrid Composites}, url={http://dx.doi.org/10.1007/978-3-030-71438-3_15}, DOI={10.1007/978-3-030-71438-3_15}, abstractNote={The use of composite materials has seen a surge in many applications such as aerospace, automotive, marine, and medical and sports equipment. The increasing demand for more sustainable and renewable materials has increased natural fibres’ interest as a reinforcement for composite materials. Natural fibres are environmentally friendly, but they also have high specific properties due to their lightweight. This chapter provides an overview of natural fibre and hybrid composites, the types of fibre used, their extraction methods, properties, and microstructure. Moreover, a special section is dedicated to the conversion techniques from fibres to preforms, and the manufacturing methods from preforms to final composites. At the end of the chapter, there is a comprehensive list of all commercial applications of natural fibre composites compiled from JEC Composites Market news from 2011 to 2019, with a discussion on the prospects of adopting natural fibre composites in the industry.}, booktitle={Advances in Machining of Composite Materials}, publisher={Springer International Publishing}, author={Midani, Mohamad and Hassanin, Ahmed H.}, year={2021}, pages={395–420} }
 @book{elseify_midani_el-badawy_jawaid_2021, series={SpringerBriefs in Materials}, title={Manufacturing Automotive Components from Sustainable Natural Fiber Composites}, ISBN={9783030830243 9783030830250}, ISSN={2192-1091 2192-1105}, url={http://dx.doi.org/10.1007/978-3-030-83025-0}, DOI={10.1007/978-3-030-83025-0}, abstractNote={This book focuses on the use of natural fiber composites (NFCs) in the automotive industry and focuses on major areas of interest to academic researchers}, journal={Springer International Publishing}, publisher={Springer International Publishing}, author={Elseify, Lobna A. and Midani, Mohamad and El-Badawy, Ayman and Jawaid, Mohammad}, year={2021}, collection={SpringerBriefs in Materials} }
 @article{eldeeb_midani_seyam_2021, title={Modeling tensile behavior of 3D orthogonal woven green composites considering variability of natural fibers}, volume={5}, ISSN={["1754-2340"]}, url={https://publons.com/wos-op/publon/44575915/}, DOI={10.1080/00405000.2021.1927938}, abstractNote={Abstract Over the past few decades, ecological concerns resulted in an interest in using natural fibers such as flax and hemp as a reinforcement in composite materials. However, the inherent variability of their mechanical and physical properties complicates predicting the mechanical performance of their preforms and hence composites. This research introduces a novel approach in modeling natural fiber composites. To the best of the author's knowledge, this is the first model that considers the variability of natural fibers' properties used in 3D orthogonal woven composites. Measured properties of fibers, yarns and resin in addition to geometrical parameters were used as inputs while the entire Load-Elongation curve of the composite was the output of the model. This model is generalized for any weave design and can be applied for hybrid structures. The model was verified experimentally using preforms from flax and hemp fibers. The model verification showed that there is a better agreement between the predicted and experimental results when using the properties of yarns as input rather than fibers.}, journal={JOURNAL OF THE TEXTILE INSTITUTE}, publisher={Informa UK Limited}, author={Eldeeb, Hadir and Midani, Mohamad and Seyam, Abdel-Fattah M.}, year={2021}, month={May} }
 @inbook{elseify_midani_el-badawy_jawaid_2021, title={Natural Fiber Composite Fabrication for the Automotive Industry}, url={http://dx.doi.org/10.1007/978-3-030-83025-0_3}, DOI={10.1007/978-3-030-83025-0_3}, abstractNote={Selecting the proper composite fabrication technique in the automotive industry is key to fulfilling the performance criteria and economic feasibility of the manufactured parts. While there are several standard techniques that are commonly used with carbon and glass fibers, only few of those techniques are suitable for use with natural fiber reinforcements. This chapter will discuss the different natural fiber composite (NFC) manufacturing techniques used in the literature as well as those techniques used by leading automotive parts manufacturers. Compression molding, resin transfer molding, and vacuum-assisted resin transfer molding techniques are described with details on processing parameters and procedures. Hand layup technique as well as extrusion and injection molding is also discussed. Comparison between processing parameters of NFC with thermoplastic and thermoset matrices is summarized in addition to comparison of the mechanical properties of NFC manufactured using selected techniques.}, booktitle={Manufacturing Automotive Components from Sustainable Natural Fiber Composites}, publisher={Springer International Publishing}, author={Elseify, Lobna A. and Midani, Mohamad and El-Badawy, Ayman and Jawaid, Mohammad}, year={2021}, month={Aug}, pages={23–52} }
 @inbook{elseify_midani_el-badawy_jawaid_2021, title={Natural Fiber Composite Qualification in the Automotive Industry}, url={http://dx.doi.org/10.1007/978-3-030-83025-0_4}, DOI={10.1007/978-3-030-83025-0_4}, abstractNote={Materials qualification is an essential process for approving any new material by the automotive industry. The process occurs between material suppliers and automakers to ensure that any new material meets the performance requirements. This chapter is dedicated to discussing the natural fiber composite (NFC) qualification process in the automotive industry. The three-step process for introducing new materials to the automotive industry is explained. The major challenges facing the use of NFC in the industry are also discussed, including fiber availability, variability of properties, hydrophilicity, compatibility with resin, and degradability. The common automotive interior parts that are made from NFC are tabulated, with details on fiber and matrix types and major performance requirements, this includes door panels, front and rear door liners, headliners, rear parcel shelves, seat backs, spare tire covers, and other interior trims.}, booktitle={Manufacturing Automotive Components from Sustainable Natural Fiber Composites}, publisher={Springer International Publishing}, author={Elseify, Lobna A. and Midani, Mohamad and El-Badawy, Ayman and Jawaid, Mohammad}, year={2021}, month={Aug}, pages={53–65} }
 @inbook{elseify_midani_el-badawy_jawaid_2021, title={Natural Fiber Reinforcement Preparation}, url={http://dx.doi.org/10.1007/978-3-030-83025-0_2}, DOI={10.1007/978-3-030-83025-0_2}, abstractNote={The textile reinforcement form (preform) plays an important role in determining the properties of the final composite/product. The preform formation process provides a precise control of the fiber architecture and orientation using a suitable textile manufacturing technique. While the techniques employed for preparing glass and carbon preforms are well-known, there is a gap in understanding how to prepare natural preforms for composite reinforcements. This chapter discusses the relevant preform preparation techniques and the resulting fiber architecture. Conventional preforms such as spun yarn, woven, knitted, nonwoven, braided, and comingled are illustrated and classified into one-, two- or three-dimensional reinforcements. Non-conventional preform formation techniques used in the automotive industry are also discussed, including, unidirectional tapes, pre-impregnated preforms, and powerRibs. Finally, the structural parameters of each preform and their effect on the final composite properties are explained.}, booktitle={Manufacturing Automotive Components from Sustainable Natural Fiber Composites}, publisher={Springer International Publishing}, author={Elseify, Lobna A. and Midani, Mohamad and El-Badawy, Ayman and Jawaid, Mohammad}, year={2021}, month={Aug}, pages={11–22} }
 @inbook{elseify_midani_el-badawy_jawaid_2021, title={Natural Fibers in the Automotive Industry}, url={http://dx.doi.org/10.1007/978-3-030-83025-0_1}, DOI={10.1007/978-3-030-83025-0_1}, abstractNote={The need to find a sustainable alternative to the man-made fibers used in reinforcing composites has led the automotive manufacturers and parts suppliers to shift to natural fiber reinforcements. Early versions of natural fiber composite (NFC) were only limited to non-structural parts; however, with the ongoing intensive research, the idea to use NFC in more structural and exterior parts is rapidly expanding. Vegetable fibers are the major class of natural fibers used in the automotive, due to their high specific properties in addition to their high thermal and acoustical insulation. This chapter is dedicated to discussing recent practices on natural fiber composites in the automotive industry. The history of adoption of NFC, from Henry Ford’s hemp car in the 1930 till Polestar flax interior panels in 2020, is presented. The technical data on the materials used, including natural fibers and bio-based matrices, is discussed. Finally, up-to-date statistics on world production and global market of vegetable fibers and bioplastics is provided.}, booktitle={Manufacturing Automotive Components from Sustainable Natural Fiber Composites}, publisher={Springer International Publishing}, author={Elseify, Lobna A. and Midani, Mohamad and El-Badawy, Ayman and Jawaid, Mohammad}, year={2021}, month={Aug}, pages={1–10} }
 @inbook{elseify_midani_el-badawy_jawaid_2021, title={Sustainability Assessment and Recycling of Natural Fiber Composites}, url={http://dx.doi.org/10.1007/978-3-030-83025-0_5}, DOI={10.1007/978-3-030-83025-0_5}, abstractNote={Greenwashing and false sustainability claims are being used extensively to benefit from the rise of the eco-conscious consumer. However, it is not always necessary for the products made with natural resources to be environmentally friendly. A comprehensive sustainability assessment is required to validate any sustainability claim. This chapter is devoted to the discussion of the sustainability assessment and recycling of natural fiber composites (NFC). The standard methods used in the sustainability assessment are introduced including life cycle assessment (LCA) and carbon footprint. A comparison between the carbon footprint of different natural fibers is conducted, as well as a comparison between the carbon footprint of NFC and glass fiber composites. Advantages and disadvantages of natural fibers and glass fibers throughout their life cycle are discussed. Finally, the different methods and routes for recycling NFC are explained.}, booktitle={Manufacturing Automotive Components from Sustainable Natural Fiber Composites}, publisher={Springer International Publishing}, author={Elseify, Lobna A. and Midani, Mohamad and El-Badawy, Ayman and Jawaid, Mohammad}, year={2021}, month={Aug}, pages={67–75} }
 @inbook{elseify_midani_2020, title={Characterization of Date Palm Fiber}, url={http://dx.doi.org/10.1007/978-981-15-9339-0_8}, DOI={10.1007/978-981-15-9339-0_8}, booktitle={Date Palm Fiber Composites}, publisher={Springer Singapore}, author={Elseify, Lobna A. and Midani, Mohamad}, year={2020}, pages={227–255} }
 @book{midani_saba_alothman_2020, title={Date Palm Fiber Composites: Processing, Properties and Applications}, url={http://dx.doi.org/10.1007/978-981-15-9339-0}, DOI={10.1007/978-981-15-9339-0}, journal={Springer Nature}, publisher={Springer Singapore}, year={2020} }
 @article{elseify_midani_hassanin_hamouda_khiari_2020, title={Long textile fibres from the midrib of date palm: Physiochemical, morphological, and mechanical properties}, volume={151}, url={http://www.scopus.com/inward/record.url?eid=2-s2.0-85083901494&partnerID=MN8TOARS}, DOI={10.1016/j.indcrop.2020.112466}, abstractNote={The objective of the present research was to extract long fibrillated textile fibres from the date palm midrib using a combined alkaline-mechanical process and study the effect of the extraction conditions on the physiochemical, morphological and mechanical properties. A total of 28 samples were prepared at different conditions and characterized using several techniques. The extraction process effectively fibrillated the coarse and hollow fibre vascular bundles into finer fibrils and reduced the fraction of surface impurities and increased the cellulose purity up to 69 % without causing fibre damage. The impurities removal and fibrillation were dependent on the severity of the alkaline treatment. The characteristics of the treated fibres were significantly improved; density up to 1.324 g/cm3, thermal stability up to 226 °C, crystallinity index up to 58.4 % and tensile strength up to 453 MPa. The extracted midrib fibres have very good properties comparable to that of other annual fibres, considering their wide availability. To the best of our knowledge this is considered a novel successful attempt to extract long fibrillated textile fibres from the date palm midrib which can be further processed following a typical textile process chain. Which in turn may open the door for potential valorization of such underutilized resource.}, journal={Industrial Crops and Products}, author={Elseify, Lobna A. and Midani, Mohamad and Hassanin, Ahmed H. and Hamouda, Tamer and KHIARI, Ramzi}, year={2020} }
 @article{sapiai_jumahat_jawaid_midani_khan_2020, title={Tensile and Flexural Properties of Silica Nanoparticles Modified Unidirectional Kenaf and Hybrid Glass/Kenaf Epoxy Composites}, volume={12}, url={http://dx.doi.org/10.3390/polym12112733}, DOI={10.3390/polym12112733}, abstractNote={This paper investigates the influence of silica nanoparticles on the mechanical properties of a unidirectional (UD) kenaf fiber reinforced polymer (KFRP) and hybrid woven glass/UD kenaf fiber reinforced polymer (GKFRP) composites. In this study, three different nanosilica loadings, i.e., 5, 13 and 25 wt %, and untreated kenaf fiber yarns were used. The untreated long kenaf fiber yarn was wound onto metal frames to produce UD kenaf dry mat layers. The silane-surface-treated nanosilica was initially dispersed into epoxy resin using a high-vacuum mechanical stirrer before being incorporated into the UD untreated kenaf and hybrid woven glass/UD kenaf fiber layers. Eight different composite systems were made, namely KFRP, 5 wt % nanosilica in UD kenaf fiber reinforced polymer composites (5NS-KFRP), 13% nanosilica in UD kenaf fiber reinforced polymer composites (13NS-KFRP), 25 wt % nanosilica in UD kenaf fiber reinforced polymer composites (25NS-KFRP), GKFRP, 5 wt % nanosilica in hybrid woven glass/UD kenaf fiber reinforced polymer composites (5NS-GKFRP), 13 wt % nanosilica in hybrid woven glass/UD kenaf fiber reinforced polymer composites (13NS-GKFRP) and 25 wt % nanosilica in hybrid woven glass/UD kenaf fiber reinforced polymer composites (25NS-GKFRP). All composite systems were tested in tension and bending in accordance with ASTM standards D3039 and D7264, respectively. Based on the results, it was found that the incorporation of homogeneously dispersed nanosilica significantly improved the tensile and flexural properties of KFRP and hybrid GKFRP composites even at the highest loading of 25 wt % nanosilica. Based on the scanning electron microscopy (SEM) examination of the fractured surfaces, it is suggested that the silane-treated nanosilica exhibits good interactions with epoxy and the kenaf and glass fibers. Therefore, the presence of nanosilica in an epoxy polymer contributes to a stiffer matrix that, effectively, enhances the capability of transferring a load to the fibers. Thus, this supports greater loads and improves the mechanical properties of the kenaf and hybrid composites.}, number={11}, journal={Polymers}, publisher={MDPI AG}, author={Sapiai, Napisah and Jumahat, Aidah and Jawaid, M. and Midani, Mohamad and Khan, Anish}, year={2020}, month={Nov}, pages={2733} }
 @book{by-products of palm trees and their applications_2019, url={http://dx.doi.org/10.21741/9781644900178}, DOI={10.21741/9781644900178}, journal={Materials Research Forum}, year={2019}, month={May} }
 @article{elseify_midani_shihata_el-mously_2019, title={Review on cellulosic fibers extracted from date palms (Phoenix Dactylifera L.) and their applications}, volume={26}, url={http://www.scopus.com/inward/record.url?eid=2-s2.0-85060568883&partnerID=MN8TOARS}, DOI={10.1007/s10570-019-02259-6}, number={4}, journal={Cellulose}, author={Elseify, L.A. and Midani, M. and Shihata, L.A. and El-Mously, H.}, year={2019}, pages={2209–2232} }
 @article{andrade pennas_cattani_leonardi_seyam_midani_monteiro_baruque-ramos_2019, title={Textile Palm Fibers from Amazon Biome}, volume={11}, ISBN={["978-1-64490-016-1"]}, ISSN={["2474-395X"]}, url={http://dx.doi.org/10.21741/9781644900178-22}, DOI={10.21741/9781644900178-22}, abstractNote={There are several species of Amazon palm trees from which can be obtained: food and oils (fruits and seeds), medicinal products, construction material (logs and leaves), handicraft, textiles, etc. Taking in account textile fibers, three palm origins stand out: tucum (Astrocaryum chambira Burret), buriti (Mauritia flexuosa Mart.) and tururi (Manicaria saccifera Gaertn.). Tucum fibers, obtained from grown leaves, are used in the manufacture of fabrics, handicrafts, nets, yarns and fishing nets. Buriti presents multiple uses, especially for handicraft products. A soft fiber ("linen") and another harder and rougher ("draff") are removed from the young leaves of the buriti palm, both being used. Tururi is the sac that wraps the fruits of the Ubuçu palm tree. The material is constantly used by the Amazonian riverside population and by artisans for handicrafts, fashion items and other products for tourism. In a joint project of the North Carolina State University (USA) and University of São Paulo (Brazil), multilayer composite materials were developed and characterized in 3D structure with quite promising results in terms of resistance and aesthetic finish similar to wood. Thus, the traditional and innovative uses of native vegetable fibers are ways of valuing the regional product and preserving their respective ecosystems. Introduction The Amazon biome comprises an area of 410 million hectares and is formed by three types of forests: dry land, wet land and flooded area. It encompasses extensive areas of “cerrados” (kind of savannas) and meadows. The Amazon biome develops around the Amazon basin and is present in eight countries of South America [1]. There are several species of palm trees from the Amazon biome, from which can be obtained: food or oils (fruits and seeds), biodiesel, medicinal and cosmetic uses, construction material (logs and leaves), handicraft material, including fibers for textile purposes, etc. Some examples are [2]: Açai (Euterpe precatoria); Cocao (Attalea tessmanii); Inaja (Attalea maripa); Jaci (Attalea butyraceae); Jarina (Phytelephas macrocarpa); Murmuru (Astrocaryum murumuru); Paxiubao (Iriartea deltoidea); Paxiubinha (Socratea exorrhiza); and Pataua (Oenocarpus bataua). The incentive for the employment of native vegetable fibers as an alternative textile material can increase local productivity and improving the income of the populations. Another point is that there is enormous creative potential. Aiming By-Products of Palm Trees and Their Applications Materials Research Forum LLC Materials Research Proceedings 11 (2019) 262-274 doi: https://doi.org/10.21741/9781644900178-22 263 at technology, there is growing international interest in the use of these vegetable fibers, especially as non-conventional materials for the manufacture of composites instead of those made with wood or synthetic materials [3]. Taking in account the obtainment of textile fibers, three palm origins stand out: tucum buriti and tururi. A briefing enrolling the obtention of fibers, processing and manufacture of final products in shown in Figure 1. Figure 1. Tucum: (a) Obtention from grown palm leaves [4]; (b) Processing of obtained fibers [4]; (c) Macrame fabric [4] [5]. Buriti: (d) Obtention of “linen” and “draff” fibers from the young leaves [1] [6] [7] [8]; (e) Dyeing of fibers [1] [6] [7] [8]; (f) Working in manual looms [1] [6] [7] [8]. Tururi: (g) Sac covering the fruits in the palm and after collection [9] [10]; (h) Drying of tururi mats after dyeing [9] [10]; (g) Mat, bags and composite made from tururi [9] [10] [11]. In the present study the main physical-chemical characteristics of these palm fibrous material were compared and for tururi also the characteristics of composite structures were presented. Material and methods The fibers were taken respectively from: (i) Grown leaves of tucum palm trees (Astrocaryum chambira Burret), in the Community Ecological Village of Jurua, municipality of Ipixuna, Amazonas State, Brazil, GPS 07°03′04′′S and 71°41′43′′W; (ii) Yong leaves of buriti palm trees (Mauritia flexuosa Mart.), located in Marcelino Village, situated on the bank of “Preguiça” river, Barreirinhas city, Maranhao State, Brazil, GPS 02°45'18,8101"S and 42°49'04,2782"W; (iii) Sacs of tururi (Manicaria saccifera Gaertn), in the cities of Sao Sebastiao da Boa Vista and Muana, Para State, Brazil, central GPS positions respectively S -1°23 '53.4156"W 49°38'14.9928" and S-1°20'40.3506 "W-49°17'45.3948". All locations are in comprised in Brazilian Amazon Forest biome and in all cases, the prospection radius was 5,000 m. It should (a) (b) (c)}, journal={BY-PRODUCTS OF PALM TREES AND THEIR APPLICATIONS}, publisher={Materials Research Forum LLC}, author={Andrade Pennas, Lais Goncalvez and Cattani, Ivete Maria and Leonardi, Barbara and Seyam, Abdel-Fattah M. and Midani, Mohamad and Monteiro, Amanda Sousa and Baruque-Ramos, Julia}, year={2019}, pages={262–274} }
 @article{midani_seyam_saleh_pankow_2019, title={The effect of the through-thickness yarn component on the in- and out-of-plane properties of composites from 3D orthogonal woven preforms}, volume={110}, ISSN={["1754-2340"]}, url={http://www.scopus.com/inward/record.url?eid=2-s2.0-85047940577&partnerID=MN8TOARS}, DOI={10.1080/00405000.2018.1481722}, abstractNote={Abstract Development of three-dimensional (3D) weaving technology introduced new and enhanced features to the 2D weaving technology. 3D Orthogonal Woven (3DOW) preforms have a through-thickness yarn component that significantly enhances the out-of-plane properties and delamination resistance. In this study, a range of 3DOW E-glass preforms were woven using 3D weaving technology and then converted into composites, using vacuum assisted resin transfer molding technology. The composite samples had varying Z to Y-yarn/ layer ratio, the objective is to study the effect of changing the Z to Y-yarn/ layer ratio on the in-plane and out-of-plane mechanical properties. The study concludes that changing the amount of Z-yarn in the structure has negligible effect on the tensile (in-plane), yet, it has a significant effect on the drop weight impact properties (out-of-plane). Moreover, it had a strong effect on the failure mechanisms, and as the amount of Z-yarn is reduced, delamination became more significant.}, number={3}, journal={JOURNAL OF THE TEXTILE INSTITUTE}, author={Midani, Mohamad and Seyam, Abdel-Fattah and Saleh, Mohamed Nasr and Pankow, Mark}, year={2019}, month={Mar}, pages={317–327} }
 @article{midani_seyam_pankow_2018, title={A generalized analytical model for predicting the tensile behavior of 3D orthogonal woven composites using finite deformation approach}, volume={109}, ISSN={["1754-2340"]}, url={http://www.scopus.com/inward/record.url?eid=2-s2.0-85041129364&partnerID=MN8TOARS}, DOI={10.1080/00405000.2018.1425107}, abstractNote={Abstract Over the past few decades, there have been an increasing interest in woven preforms as a reinforcement for composites. The invention of 3D Orthogonal Weaving (3DOW) technology introduced new and enhanced features to the conventional 2D woven preforms. Modeling the tensile behavior of 3DOW composites is very useful to the industry, it helps in characterizing the composite material with minimal need for coupon testing. In this study, a generalized analytical model was developed to predict the entire load–extension curve of the 3DOW preforms and composites including the non-linear region, using the finite-deformation approach. The model relies on the geometry of the structure and the tensile properties of the constituent yarn and resin components as input parameters. The model was generalized to predict the properties of any 3DOW structure, made with spun or filament yarn, jammed and non-jammed, which have any weave architecture, including hybrid composites. The model was verified experimentally for a broad range of experimental composites, including hybrid ones. The results indicated that there was a general good agreement between the experimental and theoretical curves.}, number={11}, journal={JOURNAL OF THE TEXTILE INSTITUTE}, author={Midani, Mohamad and Seyam, Abdel-Fattah and Pankow, Mark}, year={2018}, month={Nov}, pages={1465–1476} }
 @article{midani_seyam_monteiro_baruque-ramos_2018, title={Effect of structural parameters on the impact properties of multilayer composites from Tururi palm (Manicaria sacciferaGaertn.) fibrous material}, volume={17}, ISSN={1544-0478 1544-046X}, url={http://dx.doi.org/10.1080/15440478.2018.1491369}, DOI={10.1080/15440478.2018.1491369}, abstractNote={ABSTRACT Tururi (Manicaria saccifera Gaertn.) is a natural fibrous mesh which protects the fruits of the Amazon Ubuçu palm tree. This research targets developing natural fiber composites from Tururi fibers and characterizing their impact properties. A set of composites from Tururi fiber with different construction parameters (number of layers, fiber orientation, and fiber volume fraction) were manufactured. The results indicated that increasing the number of layers significantly increased the impact resistance up to a limit after which the resin penetration is impaired; moreover, stretching the preform significantly reduced the fiber volume fraction, and hence the impact properties. Finally, the fiber orientation had a negligible effect on the impact energy; yet, it had a significant effect on the failure mechanism.}, number={2}, journal={Journal of Natural Fibers}, publisher={Informa UK Limited}, author={Midani, Mohamad and Seyam, Abdel-Fattah M. and Monteiro, Amanda Sousa and Baruque-Ramos, Julia}, year={2018}, month={Jul}, pages={1–14} }
 @book{midani_seyam_pankow_2018, title={The effect of the structural parameters of 3d orthogonal woven composites on their impact responses under different modes of impact}, volume={786 KEM}, url={http://www.scopus.com/inward/record.url?eid=2-s2.0-85077026688&partnerID=MN8TOARS}, DOI={10.4028/www.scientific.net/KEM.786.215}, abstractNote={Development of three-dimensional (3D) weaving technology introduced new and enhanced features to the 2D weaving technology. 3D Orthogonal Woven (3DOW) preforms have a through-thickness yarn component that significantly enhances the impact resistance and delamination resistance. In this study, a range of 3DOW E-glass preforms were woven using 3D weaving technology and then converted into composites, using vacuum assisted resin transfer molding technology. The composite samples had varying structural parameters, such as, number of Y-yarn layers, X-yarn pick density, Z-yarn interlacing pattern. The purpose was to study the effect of changing those structural parameters on the different impact responses of the 3DOW composites under different modes of impact, namely, tup, Izod and Charpy impact. The study indicated that, the number of Y-yarn layers, had the most significant effect on the total tup, Izod, and Charpy impact energies. The X-yarn pick density, had slight effect on the three modes of impact, while the Z-yarn weave design only had a slight significant effect on the tup and Charpy impact energy.}, journal={Key Engineering Materials}, publisher={Trans Tech Publications, Ltd.}, author={Midani, M. and Seyam, A.-F. and Pankow, M.}, year={2018}, pages={215–223} }
 @article{midani_2017, title={Date Palm fibre composites: A novel and sustainable material for the aerospace industry}, volume={54}, url={http://www.scopus.com/inward/record.url?eid=2-s2.0-85035015627&partnerID=MN8TOARS}, number={112}, journal={JEC Composites Magazine}, author={Midani, M.}, year={2017}, pages={45–47} }
 @article{seyam_monteiro_midani_baruque-ramos_2017, title={Effect of structural parameters on the tensile properties of multilayer 3D composites from Tururi palm tree (Manicaria saccifera Gaertn) fibrous material}, volume={111}, ISSN={["1879-1069"]}, url={http://www.scopus.com/inward/record.url?eid=2-s2.0-85006312497&partnerID=MN8TOARS}, DOI={10.1016/j.compositesb.2016.11.040}, abstractNote={Tururi (Manicaria saccifera Gaertn.) is a naturally integrated fibrous structure in a form of sac, which protects the fruits of the Amazon Ubuçu palm tree. The goal of this research was to develop and characterize multilayer 3D green composites from Tururi fibrous material and identify applications based on their performance. A total of 12 composite samples were fabricated using Vacuum Assisted Resin Transfer Molding Technique (VARTM) to study the effect of the structural parameters, namely, number of Tururi fibrous layers, fiber orientation, and fiber volume fraction on the tensile and impact behavior of the final composites. The focus of this paper will be on the tensile properties in the sac and cross directions, as for the impact properties, it will be covered in another publication. It was found that a proper stacking sequence, can produce composites from Tururi fibers with quasi-isotropic tensile behavior, and with the proper combination of number of layers, and stretch %, the tensile properties of the produced composite can be optimized.}, journal={COMPOSITES PART B-ENGINEERING}, author={Seyam, Abdel-Fattah M. and Monteiro, Amanda Sousa and Midani, Mohamad and Baruque-Ramos, Julia}, year={2017}, month={Feb}, pages={17–26} }