Comparative thermodynamic evaluation of a geothermal power plant by using the advanced exergy and artificial bee colony methods

• Published in: Energy (Oxford) Vol. 156; pp. 169 - 180
• Main Authors: Özkaraca, Osman, Keçebaş, Ali, Demircan, Cihan
• Format: Journal Article
• Language: English
• Published: Oxford Elsevier Ltd 01.08.2018; Elsevier BV
• Subjects: Advanced exergy analysis; Artificial bee colony; Computer simulation; Decision analysis; Decision making; Electric power generation; Energy; Energy efficiency; Exergy; Geothermal energy; Geothermal power; Geothermal power plant; Geothermal power plants; Heat exchangers; Identification methods; Mathematical models; Optimization; Performance enhancement; Power plants; Swarm intelligence; Thermal performance improvement; Thermodynamics; Vaporizers; Thermal performance improvement; Advanced exergy analysis; Artificial bee colony; Optimization; Geothermal power plant
• ISSN: 0360-5442; 1873-6785
• DOI: 10.1016/j.energy.2018.05.095

In this study, the thermodynamic performance of a binary geothermal power plant (GPP) is comparatively evaluated using the exergy analysis and optimization method. Thus, in addition to routes to improve the thermodynamic performance of the system, the thermodynamic relationships between the system components and improvement performances of the components are determined. With this aim, the Sinem GPP located in Aydın province in Turkey as a real system is selected. All data from the system are collected and a numerical model simulating the real system is developed. On the developed model, the conventional and advanced exergy analyses for exergy analysis and the artificial bee colony (ABC) method for optimization process are performed. The results of the study show that total exergy efficiencies of the conventional exergy analysis, advanced exergy analysis and artificial bee colony are determined as 39.1%, 43.1% and 42.8%, respectively. The exergy efficiency obtained from advanced exergy analysis is higher compared to the other two methods. This is due to the fact that theoretical and unavoidable operation assumptions in advanced exergy analysis are arbitrary as a single value depending on the decision maker. However, decision variables in the ABC method are within certain constraints chosen by the decision maker. It is better to select constraint limits instead of an arbitrary single value selection. Therefore, its arbitrary values should be confirmed with any optimization method. Additionally, the highest exergy destruction identified in the three methods is occurred in heat exchangers as the condenser and vaporizer. •Conventional (CExA) and advanced (AExA) exergy analyses are used for a binary GPP.•It is optimized by artificial bee colony (ABC) to maximize system exergy efficiency.•The CExA, AExA and ABC methods’ results for the system are evaluated comparatively.•Their exergy efficiencies are found as 39.1%, 43.1% and 42.8%, respectively.•Results and assessments of AExA should be verified by any optimization method.