The addition of embers is an effort to improve the efficiency of LPG stoves. Fire-embossed element of woven pattern is made of wire nikelin. The device when is burned with LPG cooker fire will incite to form a high-temperature fire, so as to burn the unperfectly burned fuel vapor around the wire. Previous research has shown that the element of fire can improve the efficiency of 8.32%. The efficiency test is done by boiling water test. The diameter of the embers element is varied, 20 mm, 30 mm, and 40 mm. The performance of the appliance is compared to the LPG stove without the use of embers. Temperature distribution at each treatment was also examined. It was found that the use of fire element with diameter of 0.20 mm resulted in the highest efficiency of 61.71%, with an increase of 8.32%. Temperature distribution test results show that the use of fire diameter element 0.20 mm produce the most optimal adult fire areas.

LPG stoves, element embers, efficiency

Dongbin, Z., Jinsheng, l., Guangchuan, L., Gang, D.Y.X., Lihua, L. 2007. Effects On Combustion Of Liquefied Petroleum Gas Of Porous Ceramic Doped With Rare Earth Elements. Journal of rare Earths. Vol. 25. Suppl., Jun. 2007.p. 212.

ESDM. 2009. Hingga 2030, Permintaan Energi Dunia Meningkat 45%. http://anitanazar.blogspot.co.id/2009/04/hingga-2030-permintaan-energi-dunia.html. (diakses 26 Oktober 2016).

ESDM. 2013. Konversi Mitan ke LPG Hemat Rp 70 Triliun. http://www.esdm.go.id/berita/migas/40migas/6513-konversi-mitan-ke-lpg-hemat-rp-70-triliun.html. (diakses 10 Oktober 2016).

Geoservices. 2016. Sumber Energi Listrik Indonesia Untuk Kini Dan Masa Depan Adalah Batu Bara Kalori Rendah Dan Lignite. http://www.geoservices.co.id/sumber-energi-listrik-indonesia-untuk-kini-dan-masa-depan-adalah-batu-bara-kalori-rendah-dan-lignite/. (diakses 3 Januari 2017).

Gohil P., Salim A. Channiwala. 2011. Experimental Investigation Of Performance Of Conventional Lpg Cooking Stove. Fundamental J. Thermal Science and Engineering, Vol. 1, Issue 1, 2011, Pages 25-34. Published online at http://www.frdint.com/

Hidayatullah.com. 2015. Jumlah Penduduk Indonesia Sudah 254,9 Juta, Laki-laki Lebih Banyak Dari Perempuan. https://www.hidayatullah.com/berita/nasional/read/2015/11/20/83632/jumlah-pendududari-perempuan.html. (diakses 3 April 2017).

Khan, M.Y., and Saxena, A. 2013. Performance Of LPG Cooking Stove Using Different Design Of Burner Heads. International Journal of Engineering Research & Technology (IJERT), ISSN: 2278-0181, Vol. 2 Issue 7, July – 2013.

Mishra, N.K.,Mishra, S.C.,Muthukumar,P. 2015. Performance Characterization of A Medium-Scale Liquefied PetroleumGas Cooking Stove With A Two-Layer Porous Radiant Burner. Department of Mechanical Engineering Indian Institute of Technology Guwahati, Guwahati 781039, India.journal homepage: www.elsevier.com/locate/apthermeng © 2015 Elsevier Ltd. All rights reserved.

Muthukumar, P., Shyamkumar, P.I. 2012. Development Of Novel Porous Radiant Burners For LPG Cooking Applications. Department of Mechanical Engineering, Indian Institute of Technology Guwahati, Guwahati 781039, India.journal homepage: www.elsevier.com/locate/fuel

Sudarno, Fadelan. 2015. Peningkatan Efisiensi Kompor LPG Dengan Menggunakan Reflektor Radiasi Panas Bersirip. Jurnal Semesta Teknika. Vol.18, No.1 Tahun 2015: 94-105 ISSN 1411-061X.

Sudarno, Fadelan. 2016. Peningkatan Efisiensi Kompor LPG Dengan Menggunakan Elemen Bara Api. Jurnal Semesta Teknika. Vol.19, No.2 Tahun 2016: ISSN 2502-5481 (online).

Sugeng, W.A. 2014. Selubung Radiasi untuk Efisiensi Penggunaan Energi pada Kompor Gas. Jurnal Rekayasa Mesin. Vol.5, No.3 Tahun 2014: 291-295 ISSN 0216-468X.

Sumadijono, P.A. 2003. Pengaruh Sudut Reflektor Panas Terhdap Efisiensi Kompor Sumbu Standart. Thesis, Teknik Mesin ITS Surabaya.

Syarial, M. 2012. Unjuk Kerja Kompor Berbahan Bakar Biogas Efisiensi Tinggi Dengan Penambahan Reflektor. Skripsi Unpublihed 2012. Institut Teknologi Sepuluh November. Surabaya.

VITA. 1985. Testing the Efficiency of Wood-burning Cookstove International Standards. Revised May.

Wardani, D. 2007. Alat Penghemat Bahan Bakar Gas Pada Kompor Gas Rumah Tangga. Thesis. Institut Teknologi Bandung. Bandung.

World Bank, Energy Department. 1985. Test Results on Kerosene and Others Stoves for Developping Countries. Washington