Insights into modelling and evaluation of thermodynamic and transport properties of refrigerants using machine-learning methods

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@Article{NOUSHABADI:2023:energy,

• author = "Abolfazl Sajadi Noushabadi and Ebrahim Nemati Lay and Amir Dashti and Amir H. Mohammadi and Abdoulmohammad Gholamzadeh Chofreh and Feybi Ariani Goni and Jiri Jaromir Klemes",
• title = "Insights into modelling and evaluation of thermodynamic and transport properties of refrigerants using machine-learning methods",
• journal = "Energy",
• volume = "262",
• pages = "125099",
• year = "2023",
• ISSN = "0360-5442",
• DOI = "doi:10.1016/j.energy.2022.125099",
• URL = "https://www.sciencedirect.com/science/article/pii/S0360544222019946",
• keywords = "genetic algorithms, genetic programming, Refrigerants, Thermodynamic properties, Transport properties, Machine learning, Correlation",
• abstract = "The thermophysical properties of refrigerating systems should be accurately understood for designing low-temperature refrigeration cycles of economic acceptance. The present work has tried to simplify this complicated procedure by proposing reliable and new correlative methods for determining thermodynamic and transport properties of four refrigerating substance classes, namely halocarbon, inorganic, hydrocarbon, and cryogenic fluids. New machine learning methods e.g., particle swarm optimisation adaptive neuro-fuzzy inference system (PSO-ANFIS), genetic programming (GP), and hybrid adaptive neuro-fuzzy inference system (Hybrid ANFIS) algorithms were used. The development of a new, simple and comprehensive correlation was for the first time introduced to estimate saturated vapour enthalpy, entropy, velocity of sound, and viscosity of refrigerants without having in-depth knowledge of complicated parameters. The accuracy and validity of the proposed models were assessed using a variety of statistical and graphical demonstrations. The findings were compared, and it was found that Hybrid ANFIS models are more accurate because Absolute Average Relative Errors (percentAARD) for enthalpy, entropy, the velocity of sound, and viscosity were estimated as 0.5558, 1.3105, 0.5215, and 1.5727 in respective order. In addition, the proposed models' results were compared to the results of recently previously published models, and it confirms the reliability of our results. The innovation of this research is the design of reliable correlative methods having elevated precisions for thermodynamic and transport specifications of refrigerating substances",

}

Genetic Programming entries for Abolfazl Sajadi Noushabadi Ebrahim Nemati Lay Amir Dashti Amir H Mohammadi Abdoulmohammad Gholamzadeh Chofreh Feybi Ariani Goni Jiri Jaromir Klemes

Citations