Works (15)
Updated: April 6th, 2024 05:03
2024 journal article
Aquatic Aerobic Biodegradation of Commonly Flushed Materials in Aerobic Wastewater Treatment Plant Solids, Seawater, and Lakewater
BIORESOURCES, 19(1), 1150–1164.
author keywords: Biodegradation; Sustainability; Cellulose; Microfibers
bioresources.cnr.ncsu.edu (publisher PDF)
UN Sustainable Development Goal Categories
6. Clean Water and Sanitation
(OpenAlex)
Sources: Web Of Science, ORCID, NC State University Libraries
Added: February 22, 2024
2021 journal article
Impact of dyes and finishes on the aquatic biodegradability of cotton textile fibers and microfibers released on laundering clothes: Correlations between enzyme adsorption and activity and biodegradation rates
MARINE POLLUTION BULLETIN, 165.
author keywords: Biodegradability; Aquatic biodegradation; Cotton; Finishes; Dye; Textiles
MeSH headings : Adsorption; Clothing; Coloring Agents; Cotton Fiber; Laundering; Polyesters; Textiles
TL;DR:
The biodegradability of cotton knitted fabrics with different finishes, silicone softener, durable press, water repellent, and a blue reactive dye was evaluated, indicating the finishes impact the initial adsorption of enzymes excreted by the microorganisms and the initial rates of biodegradation, however despite this the cellulosic material maintains its biodegradeability.
(via Semantic Scholar)
UN Sustainable Development Goal Categories
14. Life Below Water
(Web of Science)
Sources: Web Of Science, NC State University Libraries
Added: June 10, 2021
2021 journal article
Impact of dyes and finishes on the microfibers released on the laundering of cotton knitted fabrics
Environmental Pollution, 272, 115998.
author keywords: Microfibers; Laundering; Fiber fragments; Cotton; Finishes; Dye; textiles
MeSH headings : Coloring Agents; Laundering; Physical Phenomena; Polyesters; Textiles
TL;DR:
The influence of common textile finishes on cotton fabrics on the generation of microfibers during laundering was assessed and microfiber release was determined to be in the range of 9000-14,000 particles per gram of cotton fabric.
(via Semantic Scholar)
UN Sustainable Development Goal Categories
14. Life Below Water
(Web of Science)
Sources: Web Of Science, NC State University Libraries, Crossref
Added: March 22, 2021
2020 journal article
Aerobic biodegradation in freshwater and marine environments of textile microfibers generated in clothes laundering: Effects of cellulose and polyester-based microfibers on the microbiome
Marine Pollution Bulletin, 151, 110826.
author keywords: Biodegradability; Aquatic biodegradation; Cotton; Polyester; Rayon; Bacterial communities
MeSH headings : Biodegradation, Environmental; Cellulose; Clothing; Laundering; Microbiota; Polyesters; Textiles; Water Pollutants / analysis
TL;DR:
The bacterial diversity analyses in the different biodegradation inoculums show that there are distinct bacterial communities related to the assimilation and mineralization of complex carbohydrates that were promoted with the cellulosic MCC, cotton, and rayon samples different than the polyester sample.
(via Semantic Scholar)
UN Sustainable Development Goal Categories
14. Life Below Water
(Web of Science)
Sources: Web Of Science, NC State University Libraries, ORCID, Crossref
Added: March 16, 2020
2019 journal article
Microfibers generated from the laundering of cotton, rayon and polyester based fabrics and their aquatic biodegradation
Marine Pollution Bulletin, 142, 394–407.
author keywords: Microplastics; Microfibers; Laundering; Biodegradation; Textiles; Aquatic environments
MeSH headings : Biodegradation, Environmental; Cellulose / chemistry; Cellulose / metabolism; Cotton Fiber; Laundering; Polyesters / chemistry; Polyesters / metabolism; Textiles; Water / chemistry; Water Pollutants, Chemical / chemistry; Water Pollutants, Chemical / metabolism
TL;DR:
Using well-controlled aquatic biodegradation experiments it was shown that cotton and rayon microfibers are expected to degrade in natural aquatic aerobic environments whereas polyester microf fibers areexpected to persist in the environment for long periods of time.
(via Semantic Scholar)
UN Sustainable Development Goal Categories
14. Life Below Water
(Web of Science)
Sources: Web Of Science, NC State University Libraries, Crossref
Added: July 29, 2019
2018 journal article
Techno‐economic analysis of various biochemical conversion platforms for biosugar production: Trade‐offs of co‐producing biopower versus pellets for either a greenfield, repurpose, or co‐location siting context
Biofuels, Bioproducts and Biorefining, 12(3), 390–411.
Contributors: C. Reeb n, R. Phillips n, R. Venditti n , T. Treasure n, n, R. Gonzalez n , H. Jameel n, S. Kelley n
author keywords: biochemical conversion; biosugar; techno-economic analysis; fuel pellets; biopower; greenfield; repurpose; co-locate
UN Sustainable Development Goal Categories
7. Affordable and Clean Energy
(Web of Science)
12. Responsible Consumption and Production
(Web of Science)
Sources: Web Of Science, NC State University Libraries, ORCID, Crossref
Added: August 6, 2018
2017 journal article
Multi-attribute uncertainty analysis of the life cycle of lignocellulosic feedstock for biofuel production
Biofuels, Bioproducts & Biorefining: BIOFPR, 11(2), 269–280.
author keywords: biofuels; multi-attribute analysis; pedigree matrix; SMAA-LCIA; single score
UN Sustainable Development Goal Categories
12. Responsible Consumption and Production
(Web of Science)
13. Climate Action
(Web of Science)
Sources: Web Of Science, Crossref, NC State University Libraries
Added: August 6, 2018
2015 journal article
Environmental impacts of bioethanol using the NREL biochemical conversion route: multivariate analysis and single score results
Biofuels, Bioproducts and Biorefining, 9(5), 484–500.
Contributors: n, T. Treasure n, C. Reeb n, R. Venditti n , R. Gonzalez n & S. Kelley n
author keywords: cellulosic ethanol; LCA; biomass; greenhouse gas; impact assessment; dilute acid
UN Sustainable Development Goal Categories
7. Affordable and Clean Energy
(Web of Science)
12. Responsible Consumption and Production
(Web of Science; OpenAlex)
Sources: Web Of Science, NC State University Libraries, Crossref, ORCID
Added: August 6, 2018
2015 journal article
Environmental life cycle impacts of cellulosic ethanol in the Southern U.S. produced from loblolly pine, eucalyptus, unmanaged hardwoods, forest residues, and switchgrass using a thermochemical conversion pathway
Fuel Processing Technology, 138, 164–174.
Contributors: n, C. Reeb n, R. Gonzalez n , R. Venditti n & S. Kelley*
author keywords: Biofuel; Biomass; Greenhouse gases (GHG); Gasification; Environmental impact; Land use; Life cycle assessment (LCA)
UN Sustainable Development Goal Categories
7. Affordable and Clean Energy
(Web of Science)
12. Responsible Consumption and Production
(Web of Science)
Sources: Web Of Science, Crossref, NC State University Libraries, ORCID
Added: August 6, 2018
2015 journal article
The NREL biochemical and thermochemical ethanol conversion processes: Financial and environmental analysis comparison
BioResources, 10(3), 5096–5116.
Sources: NC State University Libraries, NC State University Libraries
Added: August 6, 2018
2014 journal article
Economics, environmental impacts, and supply chain analysis of cellulosic biomass for biofuels in the Southern US: pine, eucalyptus, unmanaged hardwoods, forest residues, switchgrass, and sweet sorghum
BioResources, 9(1), 393–444.
Sources: NC State University Libraries, NC State University Libraries
Added: August 6, 2018
2013 journal article
Enhanced absorbent products incorporating cellulose and its derivatives: A review
BioResources, 8(4), 6556–6629.
Contributors: M. Hubbe*, A. Ayoub* , *, R. Venditti* & J. Pawlak*
UN Sustainable Development Goal Categories
6. Clean Water and Sanitation
(OpenAlex)
Sources: NC State University Libraries, NC State University Libraries, ORCID
Added: August 6, 2018
2013 journal article
Impacts of feedstock composition on alcohol yields and greenhouse gas emissions from the NREL thermochemical ethanol conversion process
BioResources, 8(4), 5261–5278.
Contributors: n, R. Venditti n , R. Gonzalez , H. Jameel n, M. Jett n & C. Reeb n
Sources: NC State University Libraries, NC State University Libraries, ORCID
Added: August 6, 2018
2012 journal article
Carbon Emission Reduction Impacts from Alternative Biofuels*
Forest Products Journal, 62(4), 296–304.
Sources: NC State University Libraries, NC State University Libraries, Crossref
Added: August 6, 2018
2012 journal article
Life-Cycle Assessment of Bioethanol from Pine Residues via Indirect Biomass Gasification to Mixed Alcohols
Forest Products Journal, 62(4), 314–325.
Contributors: *, C. Reeb*, R. Venditti* , R. Gonzalez* & M. Puettmann
Sources: NC State University Libraries, NC State University Libraries, ORCID, Crossref
Added: August 6, 2018
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