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Design and Techno-economic assessment of a new hybrid system of a solar dish Stirling engine instegrated with a horizontal axis wind turbine for microgrid power generation

Shboul, Bashar; AL-Arfi, Ismail; Michailos, Stavros; Ingham, Derek; AL-Zoubi, Omar H.; Ma, Lin; Hughes, Kevin; Pourkashanian, Mohamed

Authors

Bashar Shboul

Ismail AL-Arfi

Derek Ingham

Omar H. AL-Zoubi

Lin Ma

Kevin Hughes

Mohamed Pourkashanian



Abstract

The increasing interest in renewable microgrids have motivated the exploration of more sustainable alternatives to traditional energy supply. In this study, a novel hybrid renewable energy-based microgrid power system is proposed, designed and techno-economically assessed. The system consists of a concentrated parabolic solar dish Stirling engine and a horizontal axis wind turbine integrated with a battery bank. The novelty of the study lies in replacing conventional hybrid systems, such as a typical photovoltaic/wind assembly, with a novel solar dish/wind turbine system that has the potential to achieve higher efficiencies and financial competitiveness. The solar dish Stirling engine serves as the primary source of electrical power generation while the horizontal axis wind turbine, in conjunction with a battery bank, supplies backup electricity when the primary source of power is unavailable. The system has been designed through advanced modelling in the MATLAB/ Simulink® environment that efficiently integrates the individual energy technologies. A technical sensitivity analysis has been performed for all the units in order to reduce the respective design limits and identify optimum operational windows. Further, the performance of the model has been tested at two locations in Jordan, and a thorough techno-economic analysis of the integrated system has been conducted. The simulation results show that at the optimal design point the efficiency of the Stirling engine is 37% with a net output power of 1500 kWe. For the horizontal axis wind turbine, a module of 100 kWe with a power coefficient of 0.2–0.24 is suitable for operation in terms of cost, power, torque and farm size. Also, two economic indicators, namely, the levelised cost of electricity and hourly cost, have been calculated. The levelised cost of electricity lies between 0.13 and 0.15 $/kWh while the hourly cost is found to be around 4 $/h. Thus, the economic evaluation revealed that the proposed system is very competitive with other integrated renewable energy technologies.

Citation

Shboul, B., AL-Arfi, I., Michailos, S., Ingham, D., AL-Zoubi, O. H., Ma, L., Hughes, K., & Pourkashanian, M. (2021). Design and Techno-economic assessment of a new hybrid system of a solar dish Stirling engine instegrated with a horizontal axis wind turbine for microgrid power generation. Energy Conversion and Management, 245, Article 114587. https://doi.org/10.1016/j.enconman.2021.114587

Journal Article Type Article
Acceptance Date Jul 28, 2021
Online Publication Date Aug 9, 2021
Publication Date Oct 1, 2021
Deposit Date Dec 5, 2022
Publicly Available Date Dec 15, 2022
Journal Energy Conversion and Management
Print ISSN 0196-8904
Publisher Elsevier
Peer Reviewed Peer Reviewed
Volume 245
Article Number 114587
DOI https://doi.org/10.1016/j.enconman.2021.114587
Keywords Microgrids; Hybrid system; Horizontal axis wind turbine; Solar dish engine; Stirling engine
Public URL https://hull-repository.worktribe.com/output/4130969

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