@misc{smith_hendrix_butcher_2004, title={Process for treating textile substrates}, volume={6,676,710}, number={2004 Jan. 13}, publisher={Washington, DC: U.S. Patent and Trademark Office}, author={Smith, C. B. and Hendrix, W. A. and Butcher, D. L.}, year={2004} }
 @misc{hendrix_montero_smith_butcher_2003, title={Method for introducing dyes and other chemicals into a textile treatment system}, volume={6,615,620}, number={2003 Sept. 9}, publisher={Washington, DC: U.S. Patent and Trademark Office}, author={Hendrix, W. A. and Montero, G. A. and Smith, C. B. and Butcher, D. L.}, year={2003} }
 @misc{hendrix_montero_smith_butcher_2001, title={Method for introducing dyes and other chemicals into a textile treatment system}, volume={6,261,326}, number={2001 July 17}, publisher={Washington, DC: U.S. Patent and Trademark Office}, author={Hendrix, W. A. and Montero, G. A. and Smith, C. B. and Butcher, D. L.}, year={2001} }
 @misc{smith_montero_hendrix_2000, title={Method of dyeing hydrophobic textile fibers with colorant materials in supercritical fluid carbon dioxide}, volume={6,048,369}, number={2000 Apr. 11}, publisher={Washington, DC: U.S. Patent and Trademark Office}, author={Smith, C. B. and Montero, G. A. and Hendrix, W. A.}, year={2000} }
 @article{shannon_hendrix_smith_montero_2000, title={Modeling of supercritical fluid flow through a yarn package}, volume={19}, ISSN={["0896-8446"]}, DOI={10.1016/S0896-8446(00)00078-4}, abstractNote={Abstract Steady-state supercritical fluid flow through both isotropic and anisotropic cylindrical yarn packages is modeled as 2-D, axisymmetric flow through porous media. A numerical flow model using a finite-difference method predicts pressure and velocity profiles based on user-defined package geometry, permeability profile, and fluid properties. The use of variable permeability in the model allows simulation of typical package heterogeneities that result from radial variations and relatively denser edges usually associated with package winding. The numerical model is compared with results obtained from analytical expressions for radial flow, axial flow, and 2-D flow in an annulus of isotropic, porous material. The model is then verified using experimental pressure drop measurements for a range of supercritical CO 2 flows through polyester yarn packages. Model predictions show very good agreement with experimental data.}, number={1}, journal={JOURNAL OF SUPERCRITICAL FLUIDS}, author={Shannon, B and Hendrix, W and Smith, B and Montero, G}, year={2000}, month={Nov}, pages={87–99} }
 @article{montero_smith_hendrix_butcher_2000, title={Supercritical fluid technology in textile processing: An overview}, volume={39}, ISSN={["0888-5885"]}, DOI={10.1021/ie0002475}, abstractNote={In light of environmental concerns, the textile industry has accelerated efforts to reduce or eliminate water consumption in all areas of yarn preparation, dyeing, and finishing. Supercritical fluid dyeing technology has the potential to accomplish this objective in many commercial textile applications around the world, both at present and in the future around the world. Increased interest in this technology has made a fundamental understanding of thermophysical (equilibrium solubility) and transport (kinetics) properties of such fluids and fluid mixtures necessary. Supercritical carbon dioxide (SC-CO2) is one of the most environmentally acceptable solvents in use today, and textile processes using it have many advantages when compared to conventional aqueous processes.1-4 Positive environmental effects range from drastically reduced water consumption to eliminating hazardous industrial effluent. Furthermore, economic benefits include increased productivity and energy savings. Successfully commercializing...}, number={12}, journal={INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH}, author={Montero, GA and Smith, CB and Hendrix, WA and Butcher, DL}, year={2000}, month={Dec}, pages={4806–4812} }
 @inproceedings{samatova_schmidt_hendrix_breimyer_thomas_park, title={Coupling graph perturbation theory with scalable parallel algorithms for large-scale enumeration of maximal cliques in biological graphs - art. no. 012053}, volume={125}, booktitle={Scidac 2008: Scientific discovery through advanced computing}, author={Samatova, N. F. and Schmidt, M. C. and Hendrix, W. and Breimyer, P. and Thomas, K. and Park, B. H.}, pages={12053–12053} }