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Assessment and optimization of a single flash geothermal system recovered by a trans‐critical <scp>CO<sub>2</sub></scp> cycle using different scenarios

Yashar Aryanfar, Humberto García Castellanos, Farshad Akhgarzarandy, Ali Keçebaş, Salem Algarni, Talal Alqahtani, Kashif Irshad, Elsayed Tag-Eldin

2024Environmental Progress & Sustainable Energy11 citationsDOI

Abstract

Abstract In the evolving landscape of sustainable energy, optimizing geothermal power systems presents a critical challenge. This study explores the energy and exergy efficiencies of a power production system utilizing a single‐flash geothermal cycle integrated with a trans‐critical CO 2 cycle. The study's methodology involves a detailed examination of key performance parameters—separator pressure, CO 2 turbine intake pressure, and steam turbine output pressure. Utilizing the EES software environment, the study innovatively employs a combination of Genetic Algorithm (GA), Nelder–Mead Simplex (NMS) method, and Direct algorithm (DA). When using GA, NMS and DA, the system's exergy efficiency increases from 32.46% in the default operating mode to 39.21%, 36.16%, and 38.82%, respectively. One of the notable outcomes is the identification of optimal separator pressure for maximum energy efficiency. Furthermore, the study reveals that increasing the CO 2 turbine's inlet pressure adversely impacts the system's efficiency. The study's results contribute significantly to the field of renewable energy, offering practical guidelines for enhancing the performance of geothermal power systems.

Topics & Concepts

Flash (photography)Geothermal gradientComputer scienceEnvironmental scienceProcess engineeringChemistryGeologyEngineeringPhysicsPaleontologyOpticsPhase Equilibria and ThermodynamicsCarbon Dioxide Capture TechnologiesGeothermal Energy Systems and Applications