Dağıdır, K. Et Al. 2025. Experimental Energy and Exergy Assessments of a Mechanical Vapor Compression Refrigeration System having Low-GWP Alternative Gas of Pure R1234yf and its Nanoparticle Mixtures using Artificial Intelligence Models. INTERNATIONAL JOURNAL OF REFRIGERATION , vol.2025, no.7 , 1-40.

Dağıdır, K., Bilen, K., Çolak, A. B., & Dalkılıç, A. S., (2025). Experimental Energy and Exergy Assessments of a Mechanical Vapor Compression Refrigeration System having Low-GWP Alternative Gas of Pure R1234yf and its Nanoparticle Mixtures using Artificial Intelligence Models. INTERNATIONAL JOURNAL OF REFRIGERATION , vol.2025, no.7, 1-40.

Dağıdır, Kayhan Et Al. "Experimental Energy and Exergy Assessments of a Mechanical Vapor Compression Refrigeration System having Low-GWP Alternative Gas of Pure R1234yf and its Nanoparticle Mixtures using Artificial Intelligence Models," INTERNATIONAL JOURNAL OF REFRIGERATION , vol.2025, no.7, 1-40, 2025

Dağıdır, Kayhan Et Al. "Experimental Energy and Exergy Assessments of a Mechanical Vapor Compression Refrigeration System having Low-GWP Alternative Gas of Pure R1234yf and its Nanoparticle Mixtures using Artificial Intelligence Models." INTERNATIONAL JOURNAL OF REFRIGERATION , vol.2025, no.7, pp.1-40, 2025

Dağıdır, K. Et Al. (2025) . "Experimental Energy and Exergy Assessments of a Mechanical Vapor Compression Refrigeration System having Low-GWP Alternative Gas of Pure R1234yf and its Nanoparticle Mixtures using Artificial Intelligence Models." INTERNATIONAL JOURNAL OF REFRIGERATION , vol.2025, no.7, pp.1-40.

@article{article, author={Kayhan Dağıdır Et Al. }, title={Experimental Energy and Exergy Assessments of a Mechanical Vapor Compression Refrigeration System having Low-GWP Alternative Gas of Pure R1234yf and its Nanoparticle Mixtures using Artificial Intelligence Models}, journal={INTERNATIONAL JOURNAL OF REFRIGERATION}, year=2025, pages={1-40} }