| Abstract: | Columns of calcium alginate gel pellets have excellent physical properties when used as a cell immobilization support. Columns of pellets were very resistant to compression and abrasion during passage of high concentrations of sucrose at high flow rates, but if the pellets were formed using low alginate and Ca2+ concentrations, compression occurred and flow out of the column was reduced and pressure built up. Transfer of sucrose into the pellets was controlled by internal diffusion, the rate of diffusion being increased by reductions in the alginate and Ca2+ concentrations used for immobilization and by the presence of entrapped active cells. Some leakage of cells occurred during use especially when cell division of the entrapped cells took place, but leakage could be minimized by using more highly polymerized pellets. Therefore, immobilization conditions can be chosen so as to form strong pellets, possessing high substrate transfer rates and low rates of cell leakage. |
