Open AccessDYNAMIC CONTROL OF HEAT EXCHANGE PROCESSES FOR TRIGENERATION POWER SYSTEMS WITH FUEL CELLS
Author(s) -
В. А. Мельников,
A. D. Umurzakova,
Yermek Isenov,
Rinat Bayzakov
Publication year - 2021
Publication title -
interconf
Language(s) - English
Resource type - Journals
ISSN - 2709-4685
DOI - 10.51582/interconf.21-22.05.2021.025
Subject(s) - fuel cells , proton exchange membrane fuel cell , process engineering , process (computing) , power (physics) , electricity generation , computer science , control (management) , electric potential energy , stability (learning theory) , heat exchanger , temperature control , automotive engineering , control engineering , engineering , mechanical engineering , thermodynamics , chemical engineering , physics , artificial intelligence , machine learning , operating system
The article considers the issues related to the development of energy technologies based on trigeneration with the use of fuel cells, which is expedient to use for additional generation of electrical energy. The possibilities of fuel cells to integrate them into traditional energy systems are shown; technological schemes using PEMFC, PAFC, and MCFC fuel cells are given. Maintaining a stable operating mode depends on temperature stability, so models of heat exchange processes are given and calculations of dynamic parameters for process stabilization under various external influences and dynamic control correction schemes are presented. The tools MatlabSimulink are used as a research tool.