Download Biopolymers: Biomedical and Environmental Applications by Susheel Kalia, Luc Avérous PDF
By Susheel Kalia, Luc Avérous
This guide specializes in biopolymers for either environmental and biomedical functions. It exhibits fresh advances in expertise in all components from chemical synthesis or biosynthesis to finish use purposes. those components haven't been lined in one booklet prior to they usually comprise biopolymers for chemical and biotechnological variations, fabric buildings, characterization, processing, houses, and applications.After the advent which summarizes the significance of biopolymer out there, the publication covers just about all the themes with regards to polysaccharides, biofibers, bioplastics, biocomposites, normal rubber, gums, bacterial and blood suitable polymers, and functions of biopolymers in numerous fields.
Read or Download Biopolymers: Biomedical and Environmental Applications PDF
Similar chemical engineering books
Separation and purification approaches play a severe function in biorefineries and their optimum choice, layout and operation to maximize product yields and increase total strategy potency. Separations and purifications are important for upstream strategies in addition to in maximising and bettering product restoration in downstream approaches.
The second one variation good points new difficulties that have interaction readers in modern reactor layout hugely praised by way of teachers, scholars, and chemical engineers, advent to Chemical Engineering Kinetics & Reactor layout has been greatly revised and up to date during this moment version. The textual content maintains to provide a superb historical past in chemical response kinetics in addition to in fabric and effort balances, getting ready readers with the root precious for fulfillment within the layout of chemical reactors.
This publication embraces either conventional and complicated ceramics made from man made or deeply reworked typical uncooked fabrics. Following the trail of ceramic innovation, this creation explains electrical houses of ceramic conductors, like high-temperature superconductors, displays at the interplay of fabric and electromagnetic radiation, provides the significance of voids and defects within the fabric, and gives an outlook on most up-to-date advancements within the box of ceramics, corresponding to shrewdpermanent or self-healing fabrics .
Additional resources for Biopolymers: Biomedical and Environmental Applications
41, 3015–3022. Whitaker S. 1987. , 2, 269–299. Whitaker S. 1991. The role of the species momentum equation in the analysis of the Stefan diffusion tube, Ind. Eng. Chem. , 30, 978–983. Whitaker S. 1992. The species mass jump condition at a singular surface, Chem. Eng. , 47, 1677–1685. Whitaker S. 1996. , 25, 27–61. Whitaker S. 1999. The Method of Volume Averaging. Kluwer Academic Press, Dordrecht, The Netherlands. D. and Whitaker S. 1998. Diffusion and reaction in biofilms, Chem. Eng. , 53, 397– 425.
B. and Jackson R. 1967. A fluid mechanical description of fluidized beds, Ind. Engng. Chem. , 6, 527–538. E. N. 2002. Transport Phenomena, 2nd edition. John Wiley & Sons, New York. Birkhoff G. 1960. Hydrodynamics: A Study in Logic, Fact, and Similitude. Princeton University Press, Princeton, New Jersey. B. 1980. Reaction Kinetics and Reactor Design. Prentice-Hall, Englewood Cliffs, New Jersey. J. 1976. Chemical and Catalytic Reaction Engineering. McGraw-Hill, New York. G. and Whitaker S. 1984. Adsorption and reaction at a catalytic surface: The quasisteady condition, Chem.
The constitution and fundamental properties of solids and liquids I: Solids, J. Am. Chem. , 38, 2221–2295. Langmuir I. 1917. The constitution and fundamental properties of solids and liquids II: Liquids, J. Am. Chem. , 39, 1848–1906. Levenspiel O. 1999. Chemical Reaction Engineering, 3rd edition. John Wiley & Sons, New York. M. 1967. Écoulements monophasique en milieu poreux, Rev. Inst. Français du Pétrole, 22(10), 1471–1509. A. and Whitaker S. 1993. Bulk and surface diffusion in porous media: An application of the surface averaging theorem, Chem.