Analisis Pengaruh Laju Kalor Kondensor HTC terhadap Kinerja Sistem Refrigerasi Cascade Dengan Refrigerant Hidrokarbon

Main Article Content

Hendri Hendri
Suhengki Suhengki
Roswati Nurhasanah
Prayudi Prayudi

Abstract

The need for low temperature storage rooms has not been fulfilled with a single refrigeration system. The problem with a single system is that vacuum pressure is needed to reach very low temperatures. The cascade refrigeration system with two HTC and LTC circuits was developed to answer the problem of low temperature space with hydrocarbon refrigerant. The research was carried out experimentally in the PLN IT Refrigeration System Laboratory. This research uses MC134-R404A and MC22-R404A refrigerant pairs, and uses a heat exchanger plate heat exchanger. From the analysis it was found that the MC22-R404A refrigerant pair had better performance COP, HRR, ratio mass than the MC134-R404A. From the research also obtained the results that the installed heat exchanger cannot work optimally. The results of this study will be very useful for developing further research in developing low temperature storage

Downloads

Download data is not yet available.

Article Details

How to Cite
Hendri, H., Suhengki, S., Nurhasanah, R., & Prayudi, P. (2020). Analisis Pengaruh Laju Kalor Kondensor HTC terhadap Kinerja Sistem Refrigerasi Cascade Dengan Refrigerant Hidrokarbon. JURNAL POWERPLANT, 7(2). https://doi.org/10.33322/powerplant.v7i2.978
Section
Articles
Author Biographies

Hendri Hendri, Institut Teknologi-PLN

Program Studi Sarjana Teknik Mesin Fakultas Teknologi dan Bisnis Energi

Suhengki Suhengki, Institut Teknologi-PLN

Program Studi Sarjana Teknik Mesin Fakultas Teknologi dan Bisnis Energi

Roswati Nurhasanah, Institut Teknologi-PLN

Program Studi Sarjana Teknik Mesin Fakultas Teknologi dan Bisnis Energi

Prayudi Prayudi, Institut Teknologi-PLN

Program Studi Sarjana Teknik Mesin Fakultas Teknologi dan Bisnis Energi

References

[1] Nasruddin, M. I. Alhamid and D. R. B. Syaka, "A Cascade refrigerant sisytem using mixture of carbon dioxide and hydrocanbon fow low temperature aplications," Enggineering of Applied Science, vol. 6, no. 6, pp. 379-386, 2011.
[2] M. I. Alhamid, Nasruddin, D. R. B. Syaka and A. Lubis, "Characteristic anda COP cascade refrigeration system using hydrocarbon refrigerant (Propae, Ethane, CO2) at law temperature circuit (LTC) at low," International Journal od Technology, vol. 2, no. 2, pp. 112-120, 2013.
[3] P. Suparmin, R. Nurhasanah and R. A. Diantari, "The Effect the Effectiveness of the Liquid Suction Heat Exchanger to Performance of Cold Storage with Refrigerant," in International Conference on Engineering, Science and Nanotechnology 2016 (ICESNANO 2016), Solo, 2017.
[4] ASHRAE Handbook, Refrigeration SI Edition, Atlanta, Georgia: American Sosiaty of Heating, Refrigerating, and Air-Conditioning Engineer, 2014.
[5] M. Yulianto, M. I. Alhamid, Nasruddin and E. A. Kosasih, "Potensi Energi pada Sistem Refrigerasi Siklus Tunggal dan Ganda (Cascade) sebagai Pemanas untuk Proses Pengeringan Beku Vakum," in Seminar Nasional PERTATA, Bandung, 2011.
[6] I. K. O. Widiantara, W. N. Septiadi and k. Astawa, "Pengaruh Temperatur Double dan Single Kondensor Cascade Straight Heat Pipe Pendingin CPU," Jurnal METTEK, vol. 5, no. 2, pp. 90-97, 2019.
[7] A. S. Margana and Sumeru, "Peluang Pemanfaatan Campuran Hidrokarbon Pada Cooling Box Temperatur Sangat Rendah Dengan Menggunakan Sistem Refrigerasi Joule-Thomson," in Seminar Nasional Maritim, Sains dan Teknologi Terapan, Surabaya, 2016.
[8] D. R. B. Syaka, Nasruddin and M. I. Alhamid, "Pengaruh perubahan komposisi refrigerant campuran CO2/Ethana dalam system refrigerasi Cascade," in SNTTM IX, Palembang, 2010.
[9] J. Sarkar, S. Bhattacharyya and A. Lal, "Selection of suitable natural refrigerants pairs for carcade refrigeration system," Power and Energy, vol. 227, no. 5, pp. 612-622, 2014.
[10] S. Tripathy, J. Jena, D. K. Padhiary and M. K. Roul, "Thermodinamic Analysis of Cascade refrigeration System Based on Carbon Dioxide and Ammonia," International Journal od Engineering Research and Aplication, vol. 4, no. 7, pp. 24-29, 2014.
[11] D. R. B. Syaka, Nasruddin and L. Saputra, "Campuran Karbondioksida dan Propane sebagai Refrigerant Temperatur Rendah Ramah Lingkungan Pada Sistem refrigeration cascade," Ketenagalistrikan dan Energi Terbarukan, pp. 61-68, 2010.
[12] M. H. Basri, Mustafa and K. Anwar, "Pengaruh Variasi Massa refrigerant R410A pada SIsi Low Stage terhadap Kinerja Mesin Pendingin Cascade," Jurnal Mekanikal, vol. 5, no. 1, pp. 427-433, 2014.
[13] M. M. Ichsan and A. B. K. Putra, "Studi Variasi Beban Pendingin Pada Evaporator Low Stage sistem Refrigerasi Cascade R22-404A," Jurnal Teknik POMITS, vol. 2, no. 1, pp. B 41 - B 46, 2013.
[14] F. Subrida and A. B. K. Putra, "Studi Variasi Laju Pengeluaran Kalor Kondensor High Stage Sistem Refrigerasi Cascade MenggunakanRefrigerant MC 22 dan R404A dengan Heat Exchanger Type Concetris Tube," Jurnal Teknik POMITS, vol. 2, no. 1, pp. B 90-B 94, 2013.
[15] R. I. Pinnata and A. B. K. Putra, "Pengujian Karakteristik Kerja Pada Sisi Low Stage Sisten Refrigerasi Cascade Dengan Fluida Kerja R-407F sebagai Alternatif Ramah Lingkungan dari R-404A dengan Variasi Beban," Jurusan Teknik Mesin FTI ITS , Surabaya, 2019.
[16] D. R. B. Syaka and Nasruddin, "Analisa Thermodinamika Pemilihan Refrigerant Pada Sistem Refrigerasi Cascade," in Seminar Nasional Tahunan Teknik Mesin (SNTTM-VII), Semarang, 2008.
[17] A. C. Lathifah F. and A. B. K. Putra, "Studi Eksperimen Pengaruh Panjang Pipa Kapiler dan variasi beban Pendingin pada Sistem Refrigerasi Cascade," Jurnal Teknik POMITS, vol. 5, no. 2, pp. B-593 - B-598, 2016.
[18] D. R. B. Syaka, I. W. Sugita and M. Bijaksana, "Characteristics Study of Two-Stage Cascade Refrigeration System Design for Household Air Blas Freesing," International Journal of Mechanical Engineering and Technology (IJMET), vol. 10, no. 01, pp. 1804-1813, 2019.
[19] a. Lui, L. Lun, X. Zang and Y. Xie, "Use of R290/R170 in Lieu of R22/R23 in cascade Refrigeration cycle," in International Refrigeration and Air Conditional Conference, Purdue India, 2008.
[20] A. Messineo, "R747-R717 cascade refrigeration system, performance evaluation compared with a HFC two-stage system," in The-2 ed International conference on advance in energy enggineering (ICAEE), USA, 2011.