Exergy and sustainability-based optimisation of flat plate solar collectors by using a novel mathematical model
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Date
2023
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Journal ISSN
Volume Title
Publisher
INDERSCIENCE ENTERPRISES LTD
Open Access Color
Green Open Access
No
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No
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Abstract
A novel mathematical model was used to estimate optimum tilt and azimuth angles considering exergoeconomic and sustainability aspects. This approach made the solar collector's performance evaluation independent of experimental precision. The optimal angles of 41.191degree celsius 10.038degree celsius for Izmir maximised the total surface radiation exergetic efficiency exergetic sustainability index and minimised the destruction and cost rates due to the enhanced useful exergy stream. However for thermal efficiency maximisation useful collected solar energy and total surface radiation competed leading to lower tilt and azimuth angles (0 -0.008). A multi-objective optimisation process chose the pair (0 259.428) to maximise first law efficiency and exergoeconomic factor.
Description
ORCID
Keywords
flat plate solar collector, tilt and azimuth angle, single and multi-objective optimisation, non-dominated genetic sorting algorithm, exergoeconomic factor, HOURLY DIFFUSE FRACTION, ECONOMIC VIABILITY, SAO-PAULO, RADIATION, IRRADIATION, CITY, TILT, Tilt and Azimuth Angle, Non-Dominated Genetic Sorting Algorithm, Flat Plate Solar Collector, Exergoeconomic Factor, Single and Multi-Objective Optimisation, Non-dominated genetic sorting algorithm, Sorting algorithm, tilt and azimuth angle, Tilt angle, exergoeconomic factor, single and multi-objective optimisation, non-dominated genetic sorting algorithm, Exergoeconomic factor, Flat-plate solar collectors, Exergoeconomics, Solar energy, Surface radiation, Azimuth angles, Single objective optimization, Sustainable development, Collector efficiency, Exergy, Multi-objectives optimization, flat plate solar collector, Thermal efficiency, Multiobjective optimization
Fields of Science
Citation
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Scopus Q
OpenCitations Citation Count
6
Source
International Journal of Exergy
Volume
42
Issue
2
Start Page
192
End Page
215
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Scopus : 6
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Mendeley Readers : 3
Web of Science™ Citations
9
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