ABSTRACT
This chapter presents theoretical analysis for the ultimate goal of securing mathematical models, in the complex frequency domain, of the main processes of energy conversion of organic prepared refuse to synthetic hydrocarbon fuel, followed by the stage of generating electric power at the terminal of the bioelectrochemical fuel cell. It proceeds to show, through the mechanism of modeling, the operational prospects for the production of synthetic fuel from prepared refuse and then the controlling process of bioelectrochemical energy conversion. The Modeling criteria have been developed for the energy storage in chemical form for a redox flow energy system, a bioelectrochemical system, as well as for a hydrogen and ammonia production system. For the practical and feasible economic development of the bioelectrochemical fuel cell as a reliable energy conversion mechanism, methodology of mathematical modeling of generalized energy functions are developed for the ultimate purpose of total physical realization of extracting electric energy from refuse.
