The Attribute of the Energy of Fuel Briquette from Mangosteen Peel and Rubberwood
Abstract
This research aims to study the attribute of the energy and an economic evaluation of fuel briquette from mangosteen peel and rubberwood which is the ratio 100:0 90:10 80:20 70:30 60:40 50:50 and 0:100 (% by weight)by giving the highest average heat equal to 7,361.55 cal/g, which is the ratio 80:20 by weight. The average carbon content of almost 96.67 %, the ratio of 100: 0 by weight. The average volatile substances 95.73 %, the ratio 60:40 by weight. The smallest average ash content Representing 10.68 %, which ratio 60:40 by weight and Average moisture content is minimal 50:50 ratio was 5.32 % by weight. An economic value analysis of briquette fuel production is analysis the cost per unit of production Which the least cost per 1 Kg of briquette fuel production is equal to 9.22 baht/Kg, which is the ratio 80:20 by weight. Keyword : fuel briquettes ; mangosteen peel charcoal and rubberwood charcoal ; fuel propertiesReferences
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Tangmankongworakoon, N., & Preedasuriyachai, P. (2015). A Study on How to Utilize Coffee Residue and Tea Residue for the Production of Briquettes. Journal of Srinakharinwirot university, 7 (13), 15-26. (in Thai)
Tantisattayakul, T., Phongkasem, S., Phooyar, P., & Taibangury, P. (2015). Community-Based Renewable Energy from Biomass Briquettes Fuel from Coconut Leaf. Journal of Science and Technology, 23(3), 418-431. (in Thai)
Thongem, P. (2004). Future Energy and Sustainable Development. Bangkok, The Secretariat of The House of Representatives. (in Thai)
Wattanachira, L., Laapan, N., Chatchavarn, V., & Thanyacharoen, A. (2016). Development of Biobriquettes from Mixed Rice-straw and Longan Waste Residues. KMUTT Research and Development Journal, 39(2), 239-255. (in Thai)
Youmune, P. (2016). Development of a Cold Production Biomass Charcoal Briquette Machine to use Waste from Coffee Bean Processing. Industrial Technology Lampang Rajabhat University Journal, 9(1), 34-48. (in Thai)
Bazargan, A., Rough, S. L., & McKay, G. (2014). Compaction of palm kernel shell biochars for application as solid fuel. Biomass and bioenergy, 70, 489-497.
Kitipattaworn, A., Reubroycharoen, P., & Uttamaprakorm, W. (2013). Briquette Fuel from co-production of Ethanal Industrial Wet Cake and Biomass. Journal of Energy Research, 10 (3), 43-56. (in Thai)
Konchalat, P., Chutimun, N., & Goompol, B. (2014). The total energy consumption forecasting in Thailand by Box-Jenkins method and artificial neural network. Research and Development Journal, Loei Rajabhat University, 28, 31-38. (in Thai)
Pollution Control Department. (2018). Thailand State of Pollution Report 2018. Pollution Control Department, Bangkok. (in Thai)
Sawekwiharee, S. (2012). Potential Energy of The Fuel Briquettes From Mangosteen Shell. Bangkok, Rajamangala University of Technology Phra Nakhon. (in Thai)
Tangmankongworakoon, N., & Preedasuriyachai, P. (2015). A Study on How to Utilize Coffee Residue and Tea Residue for the Production of Briquettes. Journal of Srinakharinwirot university, 7 (13), 15-26. (in Thai)
Tantisattayakul, T., Phongkasem, S., Phooyar, P., & Taibangury, P. (2015). Community-Based Renewable Energy from Biomass Briquettes Fuel from Coconut Leaf. Journal of Science and Technology, 23(3), 418-431. (in Thai)
Thongem, P. (2004). Future Energy and Sustainable Development. Bangkok, The Secretariat of The House of Representatives. (in Thai)
Wattanachira, L., Laapan, N., Chatchavarn, V., & Thanyacharoen, A. (2016). Development of Biobriquettes from Mixed Rice-straw and Longan Waste Residues. KMUTT Research and Development Journal, 39(2), 239-255. (in Thai)
Youmune, P. (2016). Development of a Cold Production Biomass Charcoal Briquette Machine to use Waste from Coffee Bean Processing. Industrial Technology Lampang Rajabhat University Journal, 9(1), 34-48. (in Thai)
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Published
2021-09-06
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Research Article