Pengaruh Receiver Terhadap Kinerja Refrigerasi Mesin Pembeku
DOI:
https://doi.org/10.19028/jtep.06.3.343-350Keywords:
Receiver, freezer, energy savingAbstract
Abstract
Freezing is the best method to preserve the quality of food for a long period of time compared to other technologies such as drying and canning. Technology of freezing requires more energy than other preservation technologies, however. Therefore, an energy efficient freezer is needed. This research aims to the effect of utilization of a receiver to improve the freezer performance efficency. The research is conducted on freezer used to cool and freeze 1 kg of water from a temperature of 27oC to -14oC, then a receiver is installed in the freezer and the same research is conducted (the type and setting of expansion valve and test materials are the same). The refrigerant medium is R404A working fluid. The receiver is installed between condenser and filter dryer in the system circuit of the freezer. The result shows that the utilization of receiver increases the coefficent of performance (COP) from 2.24 to 2.69 and reduce the electricity consumption. The time required for freezing becomes shorter particularly on the transition of liquid to solid phase (ice) . Consequently, the freezing rate becomes quicker and provides advantages for application of food freezing.
Abstrak
Pembekuan merupakan metode yang paling baik untuk menjaga kualitas makanan dalam jangka waktu lama, dibanding dengan teknologi lain seperti pengeringan dan pengalengan. Namun teknologi pembekuan membutuhkan lebih banyak energi daripada teknologi pengawetan lainnya, karena itu diperlukan mesin pembeku yang hemat energi. Penelitian ini bertujuan untuk mempelajari pengaruh penggunaan receiver untuk meningkatkan efisiensi kinerja mesin pembeku. Penelitian dilakukan pada mesin pembeku yang digunakan untuk mendinginkan dan membekukan air 1 kg dari suhu 27oC sampai -14oC, selanjutnya penelitian mesin pembeku ditambahkan receiver dan dilakukan penelitian yang sama (bukaan katup ekpansi diatur tetap dan sama, serta bahan uji dilakukan dalam kondisi sama). Media pendingin menggunakan fluida kerja R404A. Receiver diletakkan di antara kondensor dan filter dryer pada rangkaian sistem mesin pembeku. Hasil penelitian menunjukkan bahwa penggunaan receiver pada mesin pembeku berdampak pada peningkataan koefisien kinerja (COP) dari 2.24 menjadi 2.69, dan terjadi penghematan konsumsi energi listrik. Waktu proses pembekuan menjadi lebih singkat, khususnya pada tahap perubahan fase cair menjadi es, sehingga laju pembekuan menjadi lebih cepat dan memberi keuntungan untuk penerapan pada pembekuan bahan pangan.
Downloads
References
Barbosa-Cánovas, G.V., B. Altunakar and D.J. Mejía- Lorio. 2005. Freezing of fruits and Vegetabels. An Agri-Business Alternative for Rural and Semi-Rural
Areas. FAO Agricultural Services Bulletin 158, pp.26–36.
Berman, E.T. 2015. Analisis Kuantitas Penyerapan Kalor Pada Refrigerator Domestik Kapasitas 90 Liter Yang Menggunakan Tube In Tube Heat
Exchanger. Jurnal TORSI, Volume XIII, No.1, Januari 2015, pp. 19-36.
Bolaji, B.O., M.A. Akintunde and T.O. Falade. 2011. Comparative Analysis of Performance of Three Ozone-Friends HFC Refrigerants in a Vapour
Compression Refrigerator. Journal of Sustainable Energi & Environment 2 pp. 61-64.
Chopra K., V. Sahni and R.S. Mishra. 2014. Thermodynamic Analyses Of Multiple Evaporators Vapor Compression Refrigeration Sistems With
R410a, R290, R1234yf, R502, R404a, R152a And R134a. International Journal Of Air-ConditioningAnd Refrigeration. Vol. 22, No. 1 (2014) 1450003 (14 Pages)
Fang G., L. Xing, F. Yang and H. Li. 2005. Exergy Analysis Of A Dual-Mode Refrigeration Sistem For Ice Storage Air Conditioning. International Journal
on Architectural Science, Volume 6, Number 1, p.1-6.
Megdouli K., B.M. Tashtoush, Y. Ezzaalouni, E. Nahdi, A. Mhimid and L. Kairouani. 2017. Performance analysis of a new ejector expansion refrigeration cycle (NEERC) for power and cold: Exergy and energi points of view, Applied Thermal Engineering (2017), doi: http://dx.doi.org/10.1016/j.
applthermaleng. 2017.05.014.
Kamal D.M. 2008. Modelling of Stepping Freezing Medium for Freezing of Beef Meat With Exergy Method (PhD Thesis), Bogor Agricultural University,
Indonesia.
Luo Y. dan W. Wang. 2010. Exergy Analysis On Throttle Reduction Efficiency Based On Real Gas Equations. Elsevier Ltd. All rights reserved.
doi:10.1016/j.energi.2009.09.008, Energi 35 (2010) pp. 181–187.
Tambunan A.H., T.E. Sihaloho and D.M. Kamal. 2012. Experimental study on the effect of freezing medium suhu on eksergi efficiency. Int. J. eksergi,
Vol. 10, No. 3, 2012 321.
Vidal A, R. Best, R. Rivero and Cervantes. 2006. Analysis of a Combined Power and Refrigeration Cycle By The eksergi Method. Elsevier Ltd. All
rights reserved. doi:10.1016/j.energi.2006.03.001, Energi 31 (2006), pp. 3401–3414.
Yumrutas R., M. Kunduz and M. Kanoglu. 2002. Exergy Analysis Of Vapor Compression Refrigeration Sistems. Eksergi, an International Journal 2 (2002) 266–272.
Downloads
Published
Issue
Section
License
Authors submitting manuscripts should understand and agree that copyright of manuscripts of the article shall be assigned/transferred to Jurnal Keteknikan Pertanian. This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License (CC BY-SA) where Authors and Readers can copy and redistribute the material in any medium or format, as well as remix, transform, and build upon the material for any purpose, but they must give appropriate credit (cite to the article or content), provide a link to the license, and indicate if changes were made. If you remix, transform, or build upon the material, you must distribute your contributions under the same license as the original.
