Design of Green Energy Stove: Characteristics of Combustion and Performance

Stephanus Danny Kurniawan, Beni Tri Sasongko


So far, the rural population of fuel users make firewood stoves from ground or cement. Often waiting is made less efficient and produces a lot of smoke pollution, especially if the level of dryness of the wood is low. From this background, then came the idea for the manufacture of stoves that save fuel wood and minimal smoke pollution. Furthermore, to be able to achieve this goal, in this study a biomass furnace will be developed that has a combustion air regulation system and a firewood drying system before use. Research implementation is divided into furnace design (design and fabrication) and testing (combustion characteristics and performance). Research begins with the design of the dimensions and shape of the furnace to be made. Furthermore, fabrication of stoves from Stainless Steel plate materials will be carried out at the Mechanical Technology Laboratory, IST AKPRIND. The stove produced by the construction will be tested with fuel wood in terms of combustion characteristics and performance. The results show that biomass stoves can be used and produced for household and small-scale industries.


biomass, stove, combustion, water boiling test, green energy.

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ESDM. 2006. Blueprint Pengelolaan Energi Nasional 2005-2025. Kementerian Energi dan Sumber Daya Mineral Indonesia.

L'orange, C., Volckens, J., & DeFoort, M. (2012). Influence of stove type and cooking pot temperature on particulate matter emissions from biomass cook stoves. Energy for Sustainable Development, 16(4), 448-455.

Lertsatitthanakorn, C. (2007). Electrical performance analysis and economic evaluation of combined biomass cook stove thermoelectric (BITE) generator. Bioresource technology, 98(8), 1670-1674.

Champier, D., Bedecarrats, J. P., Rivaletto, M., & Strub, F. (2010). Thermoelectric power generation from biomass cook stoves. Energy, 35(2), 935-942.

Ma, H. K., Lin, C. P., Wu, H. P., Peng, C. H., & Hsu, C. C. (2015). Waste heat recovery using a thermoelectric power generation system in a biomass gasifier. Applied Thermal Engineering, 88, 274-279.


Tama A.S, Sarwono, dan Noriyati R.D., Perancangan Kompor Briket Biomass Untuk Limbah Kopi, Jurnal Teknik Pomits Vol. 1, No. 1, (2012) 1-6

Yunianto, B., Sinaga, N., & Ramanda, S. A. K. (2014). Pengembangan disain tungku bahan bakar kayu rendah polusi dengan menggunakan dinding beton semen. ROTASI, 16(1), 28-33.

Roy, M. M., & Corscadden, K. W. (2012). An experimental study of combustion and emissions of biomass briquettes in a domestic wood stove. Applied Energy, 99, 206-212.

Limousy, L., Jeguirim, M., Labbe, S., Balay, F., & Fossard, E. (2015). Performance and emissions characteristics of compressed spent coffee ground/wood chip logs in a residential stove. Energy for Sustainable Development, 28, 52-59.

Dixit, C. B., Paul, P. J., & Mukunda, H. S. (2006). Part I: Experimental studies on a pulverised fuel stove. Biomass and Bioenergy, 30(7), 673-683.

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