Unjuk Kerja Kotak Pendingin Peltier dengan Unit Pembuang Panas Heat Sink Fin-Fan dan Single Fan Heat Pipe


  • M. Mirmanto Universitas Mataram
  • Ida Bagus Alit Universitas Mataram
  • Yudi Anggani Universitas Mataram




Cooler Box, Thermoelectric, Heat Removal Unit, Heat Pipe, COP


Nowadays, technology is growing rapidly. A refrigerator is one of the technology applications by using heat transfer phenomena. However, the existing refrigerators in big size, need large power, and able to damage the ozone because most of the refrigerators utilize CFC. It is necessary to create a compact refrigerator with low energy needed and environmental friendly. In this study, a small cooler box of 24.5 cm x 20 cm x 28.5 cm with 2 modules Peltier SP 1848-27145 type arranged in cascade was used as a refrigerator. The data were logged by using the data logger DAQ MX 9714 NI that was connected to the PC by using LabView. In this experiment, 22 Watt of the electric power was used and 350 ml water was placed on the cooler box room. The results show that the temperature of the cooler box room with a single fan heat pipe is lower than the heat sink fin-fan. Furthermore, the temperature of the cooler box room with the single fan heat pipe where 350ml water was placed is lower than the cooler box room without the single fan. Moreover, the COP of the cooler box is significantly affected by the heat dissipation unit.


BOYES E., STANISSTREET M., "The ideas of secondary school children concerning ozone layer damage", Global Environmental Change, v. 4, n. 4, pp. 311-324, 1994.

ABDUL-WAHAB S.A., ELKAMEL A., AL-DAMKHI A.M., AL-HABSI I.A., AL-RUBAI'EY' H.S., AL-BATTASHI A.K., AL-TAMIMI A.R., AL-MAMARI K.H., CHUTANI M.U., "Design and experimental investigation of the portable solar thermoelectric refrigerator", Renewable Energy, v. 34, pp. 30-34, 2009.

ANANTA H., PADANG A.L., MIRMANTO, "Unjuk kerja kulkas termoelektrik dengan rangkaian seri dan paralel pada beban air 1500 ml", Dinamika Teknik Mesin, v. 7, n. 2, pp. 80-86, 2017.

ISKANDAR F.N., Penerapan sistem pendinginan bertingkat pada kotak pendingin darah berbasis termoelektrik dan heat pipe, Skripsi, Fakultas Teknik Universitas Indonesia, 2009.

WAHYU D., ANDRIYANTO, HANIF, SUKMA R., ROSA, Y., "Kajian eksperimental alat multifungsi bercatu daya termoelektrik untuk pendinginan dan pemanasan", Jurnal Rotor, Edisi Khusus, n. 2, pp. 47-51, 2016.

GUPTA N.K., TIWARI A.K., GHOSH S.K., "heat transfer mechanisms in heat pipes using nanofluids – a review", Experimental Thermal and Fluid Science, v. 90, pp. 84-100, 2018.

RAWAT M.K., CHATTOPADHYAY H., NEOGI S., "A review on developments of thermoelectric refrigeration and air conditioning systems: a novel potential green refrigeration and air conditioning technology", Int. J. Engineering Technology and Advanced Engineering, v. 3, n. 3, pp. 362-367, 2013.

REDDY N.J.M., "A low power, eco-friendly multipurpose thermoelectric refrigerator", Front Energy, v. 10, n. 1, pp. 79-87, 2016.

PUTRA D.K., Unjuk kerja kotak pendingin menggunakan termoelektrik dengan variasi laju aliran massa air pendingin, Skripsi, Jurusan Teknik Mesin, Fakultas Teknik, Universitas Mataram, 2017.

ANGGANI Y., Perbandingan performa kotak pendingin termoelektrik dengan menggunakan heat pipe dan heat sink dengan kipas sebagai unit pembuang panas, Skripsi, Jurusan Teknik Mesin, Fakultas Teknik, Universitas Mataram, 2017.

HOLMAN J.P., Perpindahan kalor, Edisi ke VI, Erlangga Jakarta, 1995.

RAMDHAN G., Sistem pendingin pada kulkas termoelektrik dengan variasi pembebanan, Skripsi Teknik Mesin, Universitas Mataram, 2016.

MUSA Z., Pengaruh daya terhadap unjuk kerja kulkas termoelektrik, Skripsi, Jurusan Teknik Mesin, Universitas Mataram, 2017.

JUGSUJINDA S., VORA-UD A., SEEAWAN T., "Analyzing of thermoelectric refrigerator performance", Procedia Engineering, v. 8, pp. 154-159, 2011.




How to Cite

Mirmanto, M., Alit, I. B., & Anggani, Y. (2019). Unjuk Kerja Kotak Pendingin Peltier dengan Unit Pembuang Panas Heat Sink Fin-Fan dan Single Fan Heat Pipe. Jurnal Rekayasa Mesin, 10(1), pp. 1–8. https://doi.org/10.21776/ub.jrm.2019.010.01.1