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Performance prediction of a single-stage refrigeration system using R134a as a refrigerant by artificial intelligence and machine learning method

Yıl 2020, Cilt: 10 Sayı: 2, 84 - 87, 28.12.2020
https://doi.org/10.17678/beuscitech.846735

Öz

In this study, COP and heat capacities of evaporator and condenser were calculated by artificial intelligence and machine learning method in a vapor compression mechanical refrigeration cycle using well-known R134a as a refrigerant. Dataset was obtained with CoolPack software to train the model. Evaporating, condensing, superheating and subcooling temperatures are selected as input data. COP, heat capacities of evaporator and condenser are included in the dataset as target values. Artificial Neural Network (ANN) model was created with Matlab R2018b software and validated with target data. The output files obtained were compared with the target files and it was found that the mean square error value was quite close to one. The results of this study show that the ANN method can be used to obtain cycle parameters in one stage refrigeration cycle with high accuracy.

Kaynakça

  • [1] N.E. Klepeis, W.C. Nelson, W.R. Ott, J.P. Robinson, A.M. Tsang, P. Switzer, J. V. Behar, S.C. Hern, W.H. Engelmann, The National Human Activity Pattern Survey (NHAPS): A resource for assessing exposure to environmental pollutants, J. Expo. Anal. Environ. Epidemiol. 11 (2001) 231–252. doi:10.1038/sj.jea.7500165.
  • [2] T. Akimoto, S. ichi Tanabe, T. Yanai, M. Sasaki, Thermal comfort and productivity - Evaluation of workplace environment in a task conditioned office, Build. Environ. 45 (2010) 45–50. doi:10.1016/j.buildenv.2009.06.022.
  • [3] S. ichi Tanabe, M. Haneda, N. Nishihara, Workplace productivity and individual thermal satisfaction, Build. Environ. 91 (2014) 42–50. doi:10.1016/j.buildenv.2015.02.032.
  • [4] P. Wargocki, D.P. Wyon, j. Sundell, G. Clausen, P.O. Fanger, The Effects of Outdoor Air Supply Rate in an Office on Perceived Air Quality, Sick Building Syndrome (SBS) Symptoms and Productivity, Indoor Air. 10 (2000) 222–236. doi:10.1034/j.1600-0668.2000.010004222.x.
  • [5] P. and C.E.U. European Commission Joint Research Centre, Institute For Health and Consumer Protection, Ventilation, good indoor air quality and rational use of energy, Rep. No. 23, EUR20741 EN. (2003).
  • [6] B. Kılıç, Alternative Approach For Thermal Analysis Of Transcritical Co2 One-Stage Vapor Compression Cycles, Int. J. Eng. Appl. Sci. 8 (2016) 1–1. doi:10.24107/ijeas.251263.
  • [7] M. Hosoz, H.M. Ertunc, Modelling of a cascade refrigeration system using artificial neural network, Int. J. Energy Res. (2006). doi:10.1002/er.1218.
  • [8] Ö. Kizilkan, A.Ş. Encan, K. Yakut, R410a Soğutucu Akişkaninin Termodina Ik Özelliklerinin Yapay Sinir Ağlari Metoduyla Modellenmesİ, 21 (2006) 395–400.
  • [9] S. Yilmaz, K. Atik, Modeling of a mechanical cooling system with variable cooling capacity by using artificial neural network, Appl. Therm. Eng. 27 (2007) 2308–2313. doi:10.1016/j.applthermaleng.2007.01.030.
  • [10] R. Yamankaradeniz, İ. Horuz, Ö. Kaynakli, S. Coşkun, N. Yamankaradeniz, Soğutm tekniği ve Isı Pompası Uygulamaları, 3., DORA, Bursa, 2013.
  • [11] S.A. Kalogirou, Artificial neural networks in renewable energy systems applications: A review, Renew. Sustain. Energy Rev. (2000). doi:10.1016/S1364-0321(01)00006-5.
  • [12] H. Yağlı, A. Koç, A. Yapıcı, H.H. Bilgiç, Deneysel Bi̇r Organi̇k Ranki̇n Çevri̇mi̇nde YapaSi̇ni̇r Ağlari (Ysa) Yardimiyla Güç Tahmi̇ni̇, Selcuk Univ. J. Eng. ,Science Technol. 4 (2016) 7–7. doi:10.15317/scitech.2016116091.
Yıl 2020, Cilt: 10 Sayı: 2, 84 - 87, 28.12.2020
https://doi.org/10.17678/beuscitech.846735

Öz

Kaynakça

  • [1] N.E. Klepeis, W.C. Nelson, W.R. Ott, J.P. Robinson, A.M. Tsang, P. Switzer, J. V. Behar, S.C. Hern, W.H. Engelmann, The National Human Activity Pattern Survey (NHAPS): A resource for assessing exposure to environmental pollutants, J. Expo. Anal. Environ. Epidemiol. 11 (2001) 231–252. doi:10.1038/sj.jea.7500165.
  • [2] T. Akimoto, S. ichi Tanabe, T. Yanai, M. Sasaki, Thermal comfort and productivity - Evaluation of workplace environment in a task conditioned office, Build. Environ. 45 (2010) 45–50. doi:10.1016/j.buildenv.2009.06.022.
  • [3] S. ichi Tanabe, M. Haneda, N. Nishihara, Workplace productivity and individual thermal satisfaction, Build. Environ. 91 (2014) 42–50. doi:10.1016/j.buildenv.2015.02.032.
  • [4] P. Wargocki, D.P. Wyon, j. Sundell, G. Clausen, P.O. Fanger, The Effects of Outdoor Air Supply Rate in an Office on Perceived Air Quality, Sick Building Syndrome (SBS) Symptoms and Productivity, Indoor Air. 10 (2000) 222–236. doi:10.1034/j.1600-0668.2000.010004222.x.
  • [5] P. and C.E.U. European Commission Joint Research Centre, Institute For Health and Consumer Protection, Ventilation, good indoor air quality and rational use of energy, Rep. No. 23, EUR20741 EN. (2003).
  • [6] B. Kılıç, Alternative Approach For Thermal Analysis Of Transcritical Co2 One-Stage Vapor Compression Cycles, Int. J. Eng. Appl. Sci. 8 (2016) 1–1. doi:10.24107/ijeas.251263.
  • [7] M. Hosoz, H.M. Ertunc, Modelling of a cascade refrigeration system using artificial neural network, Int. J. Energy Res. (2006). doi:10.1002/er.1218.
  • [8] Ö. Kizilkan, A.Ş. Encan, K. Yakut, R410a Soğutucu Akişkaninin Termodina Ik Özelliklerinin Yapay Sinir Ağlari Metoduyla Modellenmesİ, 21 (2006) 395–400.
  • [9] S. Yilmaz, K. Atik, Modeling of a mechanical cooling system with variable cooling capacity by using artificial neural network, Appl. Therm. Eng. 27 (2007) 2308–2313. doi:10.1016/j.applthermaleng.2007.01.030.
  • [10] R. Yamankaradeniz, İ. Horuz, Ö. Kaynakli, S. Coşkun, N. Yamankaradeniz, Soğutm tekniği ve Isı Pompası Uygulamaları, 3., DORA, Bursa, 2013.
  • [11] S.A. Kalogirou, Artificial neural networks in renewable energy systems applications: A review, Renew. Sustain. Energy Rev. (2000). doi:10.1016/S1364-0321(01)00006-5.
  • [12] H. Yağlı, A. Koç, A. Yapıcı, H.H. Bilgiç, Deneysel Bi̇r Organi̇k Ranki̇n Çevri̇mi̇nde YapaSi̇ni̇r Ağlari (Ysa) Yardimiyla Güç Tahmi̇ni̇, Selcuk Univ. J. Eng. ,Science Technol. 4 (2016) 7–7. doi:10.15317/scitech.2016116091.
Toplam 12 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Bölüm Makaleler
Yazarlar

Bahadır Erman Yüce 0000-0002-2432-964X

Yayımlanma Tarihi 28 Aralık 2020
Gönderilme Tarihi 25 Aralık 2020
Yayımlandığı Sayı Yıl 2020 Cilt: 10 Sayı: 2

Kaynak Göster

IEEE B. E. Yüce, “Performance prediction of a single-stage refrigeration system using R134a as a refrigerant by artificial intelligence and machine learning method”, Bitlis Eren University Journal of Science and Technology, c. 10, sy. 2, ss. 84–87, 2020, doi: 10.17678/beuscitech.846735.