Integration of Organic Rankine Cycle to an Aeolic System for Continuous Generation of Electric Energy

The study focuses on determining the technical and economic feasibility of an integrated system based on a cascading ORC cycle with Ammonia and Methanol as working fluids, and with a heating source from solar energy. A wind farm of 10 wind turbines is interconnected to this, as well as a compressed...

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Bibliographic Details
Published in2022 IEEE Central America and Panama Student Conference (CONESCAPAN) pp. 1 - 7
Main Authors Jimenez, Carlos Alberto Rubio, Castillo, Jorge Luis Garcia, Melgar, Paula Madeleine Menchu, Manjarrez, Maria Fernanda Ramirez, Quintana, Carlos Alejandro Hernandez
Format Conference Proceeding
LanguageEnglish
Published IEEE 18.10.2022
Subjects
Energy Storage
Fluids
Proposals
Radiation effects
Rankine Organic Cycle
Solar energy
System Integration
Technical and Financial Feasibility
Wind farms
Wind speed
Wind System
Wind turbines
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Summary:The study focuses on determining the technical and economic feasibility of an integrated system based on a cascading ORC cycle with Ammonia and Methanol as working fluids, and with a heating source from solar energy. A wind farm of 10 wind turbines is interconnected to this, as well as a compressed air storage and expansion system to cover the energy demand when there is low or no solar irradiation. A first-level analysis is carried out to demonstrate the viability of the proposal, evaluating it at the environmental conditions of ambient temperature, altitude, solar irradiation and historical wind speed of the State of Guanajuato. Electrical power, cycle efficiency, net present value, internal rate of return and leveled energy value are the parameters of interest. The results show that the system is capable of generating up to 110 kW of energy under the maximum conditions of the state, allowing to have continuously up to 50 kW during the day and 15 kW at night. In addition, it is shown that the plant operating under standard conditions presents financial viability.
DOI:10.1109/CONESCAPAN56456.2022.9959579