1 AIT Asian Institute of Technology

Preparation of chitosan membranes and their performance evaluation

AuthorKader, Mohammad Abdul
Call NumberAIT Thesis no. AE-97-1
Subject(s)Chitosan

NoteA thesis submitted in partial fulfillment of the requirements for the degree of Master of Engineering, School of Environment, Resources and Development
PublisherAsian Institute of Technology
AbstractChitosan membranes were prepared from different sources of chitosan (shrimp and cuttle fish), different degree of deacetylation (66%, 70%,75% and 90%), commercial (Fluka and Sigma grade) and laboratory prepared chitosan and different molecular weight (low, medium and high) chitosan. The effects of molecular weight, degree of deacetylation, crystal structure (a and p) on swelling index, tensile strength and elongation, breaking pressure and tear resistance properties of the prepared membranes were studied. The results show that with the increase of degree of deacetylation tensile strength and breaking pressure increased and swelling index decreased. This is the indication of increasing in crystalline regions in membranes prepared from higher degree of deacetylation. Higher molecular weight chitosan membranes showed higher tensile strength and breaking pressure and lower swelling index. a -chitosan (shrimp) membranes showed lower tensile strength and breaking pressure and higher swelling index than P-chitosan. This indicated that antiparallel molecular and crystal structure has less crystalline region than parallel molecular and crystal structure. Flux of distill water was determined for the 66%,75% and 90% DD shrimp chitosan membranes at various pressure ranging from 1.5 bar to 4 bar.For each membrane flux was found to have increased with the increase in pressure. This effect is understandable on the basis of increased driving pressure for fluid flow. For the same operating pressure flux of the chitosan membranes increased with the decrease of the degree of deacetylation of the membranes. The effect of degree of deacetylation on the flux of the chitosan membrane reassured that chitosan molecules with higher DD chitosans were more flexible in solution than that of lower DD ones. Because, higher chain flexible molecules tended to increase the crystalline regions in the membranes and rendered the permeabilities of the membranes become smaller.
Year1997
TypeThesis
SchoolSchool of Environment, Resources, and Development (SERD)
DepartmentDepartment of Food, Agriculture and Natural Resources (Former title: Department of Food Agriculture, and BioResources (DFAB))
Academic Program/FoSAgricultural and Food Engineering (AE)
Chairperson(s)Vincent, Jean Claude ;Stevens, Willem;
Examination Committee(s)Jindal, Vinod Kumar ;Suwalee Chandrluachang ;Athapol Noomhorm;
Scholarship Donor(s)SIDA (Swedish International Development Authority);
DegreeThesis (M.Eng.) - Asian Institute of Technology, 1997


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