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Endüstriyel Soğutucularda Enerji Verimlilik Endeks Değerinin Azaltılmasına Yönelik Deneysel Bir Çalışma

Year 2021, Volume: 9 Issue: 3, 432 - 445, 30.09.2021
https://doi.org/10.29109/gujsc.903320

Abstract

Endüstriyel soğutucularda enerji verimlilik endeks (EVE) değerine göre enerji etiketlemesi yapılmaktadır. Tüketilen enerji miktarı ve soğutucunun özelliklerine göre hesaplanan EVE değerinin azaltılması amacıyla bu çalışmada iki sistem tasarlanmış ve elde edilen sonuçlara göre soğutucuların enerji etiketi sınıfı belirlenmiştir. Bu çalışmada, iki farklı soğutucu tasarlanmış (Tip 1 ve Tip 2), üretilmiş ve test edilmiştir. Sistemler homojen bir soğutma sağlamak için iki giriş-çıkış evaporatörlü, çift kondenserli ve çift kompresörlü yeni nesil doğal ve çevreci bir soğutucu akışkan olan R290 (propan) kullanılarak tasarlanmıştır. Deneyler sırasında soğutulan ürünlerin ve soğutma sistemi ekipmanlarının dakikada bir belirli noktalardan sıcaklık-basınç ölçümleri alınarak test verileri kaydedilmiştir. Deneylerde Tip 1 soğutucuda rezistans camlı deneyin test odasının ortalama hava sıcaklığı ve bağıl nem değerleri sırasıyla 25 ℃ ve % 59.09, buğu önleyici film kaplı cama sahip Tip 2 sistemi deneyinin test odasının ortalama hava sıcaklığı ve bağıl nem değerleri sırasıyla 25.231 ℃ ve % 57.207 olarak ölçülmüştür. Deneylerde soğutucularda günde ikişer kez defrost işlemi gerçekleştirilmiştir. Deney sırasında soğutulan ürünlerin en yüksek ve en düşük ortalama sıcaklıkları -16.18 ℃ ve -19.40℃ olarak ölçülmüştür. Buz çözme sırasında artan ürün sıcaklıkları ve soğutmanın durması, sistemdeki güç tüketimini artırmıştır. Hesaplamalar sonucunda Tip 1 rezistanslı modelde enerji verimlilik endeks değeri 60,53 hesaplanmış ve enerji etiketinin “E” sınıfı olduğu görülmüştür. Buğu önleyici kaplama film kullanılan Tip 2 modelinde ise enerji verimlilik endeks değeri 49,25 çıkmış ve enerji etiketinin “D” sınıfı olduğu görülmüştür.

References

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  • [2] Foster A., Hammond E., Brown T., Evans J., Maidment G., Technological options for retail refrigeration, London South Bank University, (2018).
  • [3] Dixell (Asia) Co., Ltd. Refrigerated Case Aftermarket Anti-Fogging Film, (2009).
  • [4] Rauss D., Mitchell S., Faramarzi R., Cool retrofit solutions in refrigerated display Cases. ACEEE Summer Study on Energy Efficient Buildings, (2008) 9-233 -- 9-244.
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  • [10] ANSI/AHRI Standard 1201, 2013 Standard for performance rating of commercial refrigerated display merchandisers and storage cabinets, AHRI, (2013).
  • [11] Radha K.K., Sarda S.N., Rajagopal K., Development of a chest freezer – optımum desıgn of an evaporator coıl, International Journal of Automotive and Mechanical Engineering, ISSN: 2229-8649, (2012), Volume 5, pp. 597-611.
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  • [13] Koşan M., Erten S., Aktekel, B., Aktaş M., Performance analyses of the ındustrial cooling system with microchannel condenser: An Experimental Study, Gazi University Journal Of Science, Part A: Engineering And Innıvation, 7:83-95, (2020).
  • [14] Waide P., Slui, S., Michineau T., CLASP Commercial refrigeration equipment: mapping and benchmarking, Waide Strategic Efficiency Ltd, (2014).
  • [15] Girottoa S.; Minettoa S. and Neksa P., Commercial refrigeration system using CO2 as the refrigerant, International Journal of Refrigeration 27 (2004) 717–723.
  • [16] Tai, J., Evans J., Baton M., Analysis of specific issues regarding EU policy proposals for DG ENER Lot 12 Commercial Refrigeration, Tait Consulting Limited, (2014).
  • [17] Geilinger E., Jansse, M., Pedesen P.H., Huggins P., Bush E., Best available technology of plug-in refrigerated cabinets, beverage coolers and ice cream freezers and the challenges of measuring and comparing energy efficiency, Topten International Services, Re/genT BV, Danish Technological Institute, The Carbon Trust, Topten International Services, (2017).
  • [18] Choudhari C.S., Sapali S.N., Testing of environment friendly refrigerant R290 for water cooler application, International Journal of Engineering, Ije Transactıons A: Basics Vol. 31, No. 1, (2018) 157-163.
  • [19] Ya, G., Hu H., Yu J., Performance evaluation on an ınternal auto-cascade refrigeration cycle with mixture refrigerant R290/R600a, Applied Thermal Engineering, 75, (2014) 994-1000.
  • [20] Ataer E.Ö., Özalp M., Bıyıkoğlu A., Buhar sıkıştırmalı soğutma sistemleri için soğutucu akışkan seçimi,V. Ulusal Tesisat Mühendisliği Kongresi ve Sergisi, (2001).
  • [21] Elektrik Fiyatları Erişim Tarihi:22.03.2021 https://www.tedas.gov.tr/sx.web.docs/tedas/docs/elektriktarifeleri//2021OcakElektrikTarifeleri.pdf
  • [22] 2019/2018 of 11 March 2019 supplementing regulation (eu) 2017/1369 of the european parliament and of the council with regard to energy labelling of refrigerating appliances with a direct sales function. official journal of the European Union, (2019).
  • [23] 2019/2024 of 1 October 2019 laying down ecodesign requirements for refrigerating appliances with a direct sales function pursuant to directive 2009/125/EC of the european parliament and of the council. official journal of the European Union, (2019).
  • [24] Sovacool B.K., Valuing the greenhouse gas emissions from nuclear power: A critical survey, Energy Policy. 36(8), (2008) 2950-2963.
  • [25] Tripathi R., G Tiwari, V Dwivedi., ‘Overall energy, exergy and carbon credit analysis of N partially covered photovoltaic thermal (PVT) concentrating collector connected in series’, Solar Energy, 136 (2016) 260-267.

An Experimental Study Towards Decreasing the Energy Efficiency Index Value in Industrial Refrigerators

Year 2021, Volume: 9 Issue: 3, 432 - 445, 30.09.2021
https://doi.org/10.29109/gujsc.903320

Abstract

Energy labeling is performed according to the energy efficiency index (EEI) value in industrial coolers. In order to reduce the EEI value calculated according to the amount of energy consumed and the characteristics of the cooler. Two systems were designed in this study and the energy label class of the coolers was determined according to the obtained results. In this study, two different coolers (Type 1 and Type 2) were designed, manufactured and tested. The systems are designed using R290 (propane), a new generation natural and environmentally friendly refrigerant with two inlet-outlet evaporators, double condensers and double compressors to provide a homogeneous cooling. During the experiments, temperature-pressure measurements of the cooled products and cooling system equipment were taken from certain points every minute and test data were recorded. In the experiments, the average air temperature and relative humidity values of the test chamber of the experiment with resistance glass in the Type 1 cooler were measured as 25 ℃ and 59.09%, respectively, the average air temperature and relative humidity values of the test room of the Type 2 system experiment with antifogging film were measured as 25.231 ℃ and 57.207%, respectively. In the experiments, defrosting process was carried out twice a day in the coolers. During the experiment, the highest and lowest average temperatures of the cooled products were measured as -16.18 ℃ and -19.40 ℃. Increasing product temperatures during defrosting and stopping cooling increased the power consumption in the system. As a result of the calculations, the energy efficiency index value of the Type 1 resistance model was calculated to be 60.53 and it was seen that the energy label was class “E”. In the Type 2 model in which anti-fog coating film is used, the energy efficiency index value is 49.25 and it has been observed that the energy label is class "D".

References

  • [1] Dixell (Asia) Co., Ltd. Case study of anti-fog film installation to prevent fogging on cabinet glass door, (2010).
  • [2] Foster A., Hammond E., Brown T., Evans J., Maidment G., Technological options for retail refrigeration, London South Bank University, (2018).
  • [3] Dixell (Asia) Co., Ltd. Refrigerated Case Aftermarket Anti-Fogging Film, (2009).
  • [4] Rauss D., Mitchell S., Faramarzi R., Cool retrofit solutions in refrigerated display Cases. ACEEE Summer Study on Energy Efficient Buildings, (2008) 9-233 -- 9-244.
  • [5] Antifoglu cam, http://www.windowfilms.co.uk/products/specialist-window-films/anti-fog-window-film/
  • [6] Sabic Global. Price Chopper anti-fog film. Retrieved 10 17, (2014).
  • [7] Antifoglu cam, https://fsicti.com/markets/commercial-freezer-display-cases/
  • [8] Antifoglu cam, http://www.sunrayfilms.com/wp-content/uploads/2012/08/ANTI-FOG-PRESENTATION-PDF-Sunray.pdf
  • [9] ANSI/AHRI Standard 1321, 2011 Standard for performance rating of commercial refrigerated display merchandisers and storage cabinets for use with secondary refrigerants, AHRI, (2012).
  • [10] ANSI/AHRI Standard 1201, 2013 Standard for performance rating of commercial refrigerated display merchandisers and storage cabinets, AHRI, (2013).
  • [11] Radha K.K., Sarda S.N., Rajagopal K., Development of a chest freezer – optımum desıgn of an evaporator coıl, International Journal of Automotive and Mechanical Engineering, ISSN: 2229-8649, (2012), Volume 5, pp. 597-611.
  • [12] Erten S., Koşan M., İşgen F., Aktaş M., Experımental analysıs of the aır defrost process ın an ındustrıal coolıng system, Kütahya Dumlupınar University Institute Of Graduate Studies, Journal Of Scientific Reports-A, ISSN: 2687-6167, (2020).
  • [13] Koşan M., Erten S., Aktekel, B., Aktaş M., Performance analyses of the ındustrial cooling system with microchannel condenser: An Experimental Study, Gazi University Journal Of Science, Part A: Engineering And Innıvation, 7:83-95, (2020).
  • [14] Waide P., Slui, S., Michineau T., CLASP Commercial refrigeration equipment: mapping and benchmarking, Waide Strategic Efficiency Ltd, (2014).
  • [15] Girottoa S.; Minettoa S. and Neksa P., Commercial refrigeration system using CO2 as the refrigerant, International Journal of Refrigeration 27 (2004) 717–723.
  • [16] Tai, J., Evans J., Baton M., Analysis of specific issues regarding EU policy proposals for DG ENER Lot 12 Commercial Refrigeration, Tait Consulting Limited, (2014).
  • [17] Geilinger E., Jansse, M., Pedesen P.H., Huggins P., Bush E., Best available technology of plug-in refrigerated cabinets, beverage coolers and ice cream freezers and the challenges of measuring and comparing energy efficiency, Topten International Services, Re/genT BV, Danish Technological Institute, The Carbon Trust, Topten International Services, (2017).
  • [18] Choudhari C.S., Sapali S.N., Testing of environment friendly refrigerant R290 for water cooler application, International Journal of Engineering, Ije Transactıons A: Basics Vol. 31, No. 1, (2018) 157-163.
  • [19] Ya, G., Hu H., Yu J., Performance evaluation on an ınternal auto-cascade refrigeration cycle with mixture refrigerant R290/R600a, Applied Thermal Engineering, 75, (2014) 994-1000.
  • [20] Ataer E.Ö., Özalp M., Bıyıkoğlu A., Buhar sıkıştırmalı soğutma sistemleri için soğutucu akışkan seçimi,V. Ulusal Tesisat Mühendisliği Kongresi ve Sergisi, (2001).
  • [21] Elektrik Fiyatları Erişim Tarihi:22.03.2021 https://www.tedas.gov.tr/sx.web.docs/tedas/docs/elektriktarifeleri//2021OcakElektrikTarifeleri.pdf
  • [22] 2019/2018 of 11 March 2019 supplementing regulation (eu) 2017/1369 of the european parliament and of the council with regard to energy labelling of refrigerating appliances with a direct sales function. official journal of the European Union, (2019).
  • [23] 2019/2024 of 1 October 2019 laying down ecodesign requirements for refrigerating appliances with a direct sales function pursuant to directive 2009/125/EC of the european parliament and of the council. official journal of the European Union, (2019).
  • [24] Sovacool B.K., Valuing the greenhouse gas emissions from nuclear power: A critical survey, Energy Policy. 36(8), (2008) 2950-2963.
  • [25] Tripathi R., G Tiwari, V Dwivedi., ‘Overall energy, exergy and carbon credit analysis of N partially covered photovoltaic thermal (PVT) concentrating collector connected in series’, Solar Energy, 136 (2016) 260-267.
There are 25 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Tasarım ve Teknoloji
Authors

Elif Merve Bahar 0000-0002-4692-9312

Süleyman Erten 0000-0002-7811-6148

Mustafa Aktaş 0000-0003-1187-5120

Publication Date September 30, 2021
Submission Date March 26, 2021
Published in Issue Year 2021 Volume: 9 Issue: 3

Cite

APA Bahar, E. M., Erten, S., & Aktaş, M. (2021). An Experimental Study Towards Decreasing the Energy Efficiency Index Value in Industrial Refrigerators. Gazi Üniversitesi Fen Bilimleri Dergisi Part C: Tasarım Ve Teknoloji, 9(3), 432-445. https://doi.org/10.29109/gujsc.903320

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