The production of ultra-pure hydrogen through biological processes is a promising alternative to conventional processes, such as steam reforming, limited by thermodynamic constraints: in this framework, Sequential Batch Reactors (SBRs) allow a strict control of the reaction environment, so as to guide the metabolic pathway towards the production of the desired products. In this work we have formulated a model for the dynamics of an SBR applied to biohydrogen production through a hexose source conversion by anaerobic (Clostridia) fermentation. We aimed at providing a useful tool to control the reactor performance in terms of SBRs operating conditions: an incorrect choice of key operating parameters would lead to an unstable reaction system, which is likely to shift to low-productivity working points.
Document Sequencing batch reactors (SBRs) for BioH2 production: Reactor operation criteria
Basile;
2014
Abstract
The production of ultra-pure hydrogen through biological processes is a promising alternative to conventional processes, such as steam reforming, limited by thermodynamic constraints: in this framework, Sequential Batch Reactors (SBRs) allow a strict control of the reaction environment, so as to guide the metabolic pathway towards the production of the desired products. In this work we have formulated a model for the dynamics of an SBR applied to biohydrogen production through a hexose source conversion by anaerobic (Clostridia) fermentation. We aimed at providing a useful tool to control the reactor performance in terms of SBRs operating conditions: an incorrect choice of key operating parameters would lead to an unstable reaction system, which is likely to shift to low-productivity working points.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
