4E analysis of a two-stage refrigeration system through surrogate models based on response surface methods and hybrid grey wolf optimizer
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Altres documents de l'autoria: Ahmed, Rasel; Mahadzir, Shuhaimi; Mota-Babiloni, Adrián; Al-Amin, Md.; Usmani, Abdullah Y; Ashraf Rana, Zaid; yassin, hayati; Shaik, Dr. Saboor; Hussain, Fayaz
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comunitat-uji-handle3:10234/8617
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Títol
4E analysis of a two-stage refrigeration system through surrogate models based on response surface methods and hybrid grey wolf optimizerAutoria
Data de publicació
2023-02-03Editor
PLoSISSN
1932-6203Cita bibliogràfica
Ahmed R, Mahadzir S, Mota-Babiloni A, Al-Amin M, Usmani AY, Ashraf Rana Z, et al. (2023) 4E analysis of a two-stage refrigeration system through surrogate models based on response surface methods and hybrid grey wolf optimizer. PLoS ONE 18(2): e0272160.Tipus de document
info:eu-repo/semantics/articleVersió
info:eu-repo/semantics/publishedVersionParaules clau / Matèries
Resum
Refrigeration systems are complex, non-linear, multi-modal, and multi-dimensional. However, traditional methods are based on a trial and error process to optimize these systems, and a global optimum operating point ... [+]
Refrigeration systems are complex, non-linear, multi-modal, and multi-dimensional. However, traditional methods are based on a trial and error process to optimize these systems, and a global optimum operating point cannot be guaranteed. Therefore, this work aims to study a two-stage vapor compression refrigeration system (VCRS) through a novel and robust hybrid multi-objective grey wolf optimizer (HMOGWO) algorithm. The system is modeled using response surface methods (RSM) to investigate the impacts of design variables on the set responses. Firstly, the interaction between the system components and their cycle behavior is analyzed by building four surrogate models using RSM. The model fit statistics indicate that they are statistically significant and agree with the design data. Three conflicting scenarios in bi-objective optimization are built focusing on the overall system following the Technique for Order of Preference by Similarity to Ideal Solution (TOPSIS) and Linear Programming Technique for Multidimensional Analysis of Preference (LINMAP) decision-making methods. The optimal solutions indicate that for the first to third scenarios, the exergetic efficiency (EE) and capital expenditure (CAPEX) are optimized by 33.4% and 7.5%, and the EE and operational expenditure (OPEX) are improved by 27.4% and 19.0%. The EE and global warming potential (GWP) are also optimized by 27.2% and 19.1%, where the proposed HMOGWO outperforms the MOGWO and NSGA-II. Finally, the K-means clustering technique is applied for Pareto characterization. Based on the research outcomes, the combined RSM and HMOGWO techniques have proved an excellent solution to simulate and optimize two-stage VCRS. [-]
Publicat a
PLoS ONE, Vol. 18(2) (2023)Entitat finançadora
University Brunei Darussalam
Codi del projecte o subvenció
UB-WRSCH/1.3/FICBF(b)/2020/011
Drets d'accés
info:eu-repo/semantics/openAccess
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