Paschalidis, Leandros; Beer, Barbara; Sutiono, Samuel; Sieber, Volker; Burger, Jakob published the artcile< Design of enzymatic cascade reactors through multi-objective dynamic optimization>, Name: D-Glucosaccharic acid, the main research area is enzymic cascade reactor multiobjective dynamic optimization.
Multi-enzymic cascade reactions have gathered a lot of interest lately because of their potential for sustainable production of chems. In this paper, model-based, multi-objective, dynamic optimization is applied to the design of an enzymic cascade reactor that produces α-ketoglutarate. Pareto-optimal process schedules, which are best compromises between space-time yield, enzyme consumption and cofactor consumption, are determined and visualized. Depending on the importance of the individual objectives, the optimal process schedules vary. It is demonstrated, that multi-objective optimization is a valuable tool for the development of enzymic cascades. It provides decision support for making further experiments, finding bottlenecks in the cascade, and choosing an optimal process schedule for the production
Biochemical Engineering Journal published new progress about Biochemical cofactors Role: BSU (Biological Study, Unclassified), BIOL (Biological Study). 87-73-0 belongs to class alcohols-buliding-blocks, and the molecular formula is C6H10O8, Name: D-Glucosaccharic acid.
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