LAPSE:2023.14318v1
Published Article
LAPSE:2023.14318v1
Gas-Fueled Binary Energy System with Low-Boiling Working Fluid for Enhanced Power Generation
March 1, 2023
Abstract
This article discusses methods of enhanced power generation using a binary power system with low-boiling fluid as an intermediate energy carrier. The binary power system consists of micro-gas and steam power units and is intended for remote standalone power supply. Trifluotrichloroethane was considered as the working agent of the binary cycle. The developed system was modeled by two parts in MATLAB Simulink and Aspen HYSYS. The model in Aspen HYSYS calculates the energy and material balance of the binary energy system. The model in MATLAB Simulink investigates the operation of power electronics in the energy system for quality power generation. The results of the simulation show that the efficiency of power generation in the range of 100 kW in the developed system with micro-turbine power units reaches 50%.
This article discusses methods of enhanced power generation using a binary power system with low-boiling fluid as an intermediate energy carrier. The binary power system consists of micro-gas and steam power units and is intended for remote standalone power supply. Trifluotrichloroethane was considered as the working agent of the binary cycle. The developed system was modeled by two parts in MATLAB Simulink and Aspen HYSYS. The model in Aspen HYSYS calculates the energy and material balance of the binary energy system. The model in MATLAB Simulink investigates the operation of power electronics in the energy system for quality power generation. The results of the simulation show that the efficiency of power generation in the range of 100 kW in the developed system with micro-turbine power units reaches 50%.
Record ID
Keywords
binary cycle, combined heat and power, low-boiling fluid, Natural Gas, organic Rankine cycle
Subject
Suggested Citation
Morenov V, Leusheva E, Lavrik A, Lavrik A, Buslaev G. Gas-Fueled Binary Energy System with Low-Boiling Working Fluid for Enhanced Power Generation. (2023). LAPSE:2023.14318v1
Author Affiliations
Morenov V: Department of Oil and Gas, Saint Petersburg Mining University, 199106 Saint Petersburg, Russia [ORCID]
Leusheva E: Department of Oil and Gas, Saint Petersburg Mining University, 199106 Saint Petersburg, Russia
Lavrik A: Department of Energy, Saint Petersburg Mining University, 199106 Saint Petersburg, Russia
Lavrik A: Department of Oil and Gas, Saint Petersburg Mining University, 199106 Saint Petersburg, Russia
Buslaev G: Department of Oil and Gas, Saint Petersburg Mining University, 199106 Saint Petersburg, Russia [ORCID]
Leusheva E: Department of Oil and Gas, Saint Petersburg Mining University, 199106 Saint Petersburg, Russia
Lavrik A: Department of Energy, Saint Petersburg Mining University, 199106 Saint Petersburg, Russia
Lavrik A: Department of Oil and Gas, Saint Petersburg Mining University, 199106 Saint Petersburg, Russia
Buslaev G: Department of Oil and Gas, Saint Petersburg Mining University, 199106 Saint Petersburg, Russia [ORCID]
Journal Name
Energies
Volume
15
Issue
7
First Page
2551
Year
2022
Publication Date
2022-03-31
ISSN
1996-1073
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Original Submission
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PII: en15072551, Publication Type: Journal Article
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LAPSE:2023.14318v1
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https://doi.org/10.3390/en15072551
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Mar 1, 2023
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