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Combustion Science and Technology Volume 179, 2007 - Issue 9
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Original Articles

LIQUID FUELS-FIRED POROUS BURNER

S. JUGJAI Combustion and Engine Research Laboratory (CERL), Department of Mechanical Engineering, Faculty of Engineering, King Mongkut's University of Technology Thonburi, Bangkok, ThailandCorrespondence[email protected]
&
C. PONGSAI Combustion and Engine Research Laboratory (CERL), Department of Mechanical Engineering, Faculty of Engineering, King Mongkut's University of Technology Thonburi, Bangkok, Thailand
Pages 1823-1840 | Received 03 Nov 2005, Accepted 30 Jan 2007, Published online: 30 Jul 2007

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Premananda Pradhan, Purna Chandra Mishra & Bibhuti Bhusan Samantaray. (2018) Performance and Emission Analysis of a Novel Porous Radiant Burner for Domestic Cooking Application. Heat Transfer Engineering 39:9, pages 784-793.
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Vijay K. Mishra, Subhash C. Mishra & Dipankar N. Basu. (2017) Simultaneous estimation of four parameters in a combined-mode heat transfer in a 2D porous matrix with heat generation. Numerical Heat Transfer, Part A: Applications 71:6, pages 677-692.
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Kanokkarn Wongwatcharaphon, Peerayut Tongtem & Sumrerng Jugjai. (2014) A Numerical and Experimental Investigation of Performance of a Nonsprayed Porous Burner. Heat Transfer Engineering 35:10, pages 942-952.
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K Wongwatcharaphon, P Tongtem & S Jugjai. (2013) Numerical and experimental study of late mixing porous burner. Journal of the Energy Institute 86:1, pages 15-23.
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Articles from other publishers (30)

Hang Zhou, Guanqing Wang, Huaxin Tu, Dan Luo & Jiangrong Xu. (2023) Combustion temperature in a three-dimensional porous stove with a high-fidelity structure. Applied Thermal Engineering 233, pages 121108.
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Xiaoyu Zhu, Weijuan Yang, Yanyi Yao, Yuanze Geng & Junhu Zhou. (2023) Spray and vaporization enhancement of liquid fuel with the assist of porous media and heating. Applied Thermal Engineering 226, pages 120329.
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Theera Huabkhuntod, Suradech Sinjapo, Ratinun Luampon & Bundit Krittacom. (2022) Study on heat transfer in two-layer porous media with heat generation in porous media. Energy Reports 8, pages 1565-1576.
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Saurabh Chhabra & Satbir Singh Sehgal. (2022) Execution of investigation on permeable radiant stoves for domestic cooking utilizations. Materials Today: Proceedings 48, pages 1171-1177.
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Ayat Gharehghani, Kasra Ghasemi, Majid Siavashi & Sadegh Mehranfar. (2021) Applications of porous materials in combustion systems: A comprehensive and state-of-the-art review. Fuel 304, pages 121411.
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Pornsawan Tongbai, Kitti Keawchart & Bundit Krittacom. (2021) Spherical packed-bed porous burner using diesel oil as fuel. Energy Reports 7, pages 1-11.
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Sonia Chalia, Manish Kumar Bharti, Preeti Thakur, Atul Thakur & S.N. Sridhara. (2021) An overview of ceramic materials and their composites in porous media burner applications. Ceramics International 47:8, pages 10426-10441.
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Loveneesh Sharma, Satbir Singh Sehgal, Ravinder Tonk & Saurabh Chhabra. (2021) Combustion analysis of porous radiant burner for commercial cooking applications. IOP Conference Series: Materials Science and Engineering 1017:1, pages 012023.
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Niwat Ketchat & Bundit Krittacom. (2020) Combustion behavior of rotary solid porous burners (RSPB). E3S Web of Conferences 187, pages 03012.
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Lin Liu, Hongsheng Liu, Maozhao Xie & Xiaohua Liu. (2019) Experimental Characterization of Diesel Combustion in an Electrically Preheated Porous Media Burner. Energy & Fuels 33:12, pages 12749-12757.
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A.Yu. Zaichenko, M.V. Tsvetkov, D.N. Podlesniy, M.V. Salganskaya & E.A. Salgansky. (2019) Conversion of liquid combustible wastes in the filtration regime to syngas by partial oxidation. Journal of Physics: Conference Series 1276:1, pages 012083.
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Hongsheng Liu, Dan Wu, Maozhao Xie, Songxiang Wang & Lin Liu. (2019) Experimental study on the pre-evaporation pulse combustion of liquid fuel within a porous medium burner. Experimental Thermal and Fluid Science 103, pages 286-294.
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Aekkaphon Chaelek, Usa Makmool Grare & Sumrerng Jugjai. (2019) Self-aspirating/air-preheating porous medium gas burner. Applied Thermal Engineering 153, pages 181-189.
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A. Yu. Zaichenko, D. N. Podlesniy, M. V. Tsvetkov, M. V. Salganskaya & A. V. Chub. (2019) Filtration Combustion of Hydrocarbon Fluids in a Moving Bed of Inert Heat-Carrying Agent. Russian Journal of Applied Chemistry 92:2, pages 276-281.
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A. K. Ismail, N.H. Ibrahim, K. A. Shamsuddin, M.Z. Abdullah & M. Zubair. (2018) A practical approach in porous medium combustion for domestic application: A review. IOP Conference Series: Materials Science and Engineering 370, pages 012004.
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Usa Makmool, Kumnuan Pontree & Sumrerng Jugjai. (2017) Design and development of a novel self aspirating liquid fuel annular porous medium burner (SLAPMB). Fuel 192, pages 83-92.
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M.A. Endo Kokubun, F.F. Fachini & M. Matalon. (2017) Stabilization and extinction of diffusion flames in an inert porous medium. Proceedings of the Combustion Institute 36:1, pages 1485-1493.
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Monikankana Sharma, Subhash C. Mishra & P. Mahanta. (2016) Effect of burner configuration and operating parameters on the performance of kerosene pressure stove with submerged porous medium combustion. Applied Thermal Engineering 107, pages 516-523.
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N.K. Mishra, Subhash C. Mishra & P. Muthukumar. (2015) Performance characterization of a medium-scale liquefied petroleum gas cooking stove with a two-layer porous radiant burner. Applied Thermal Engineering 89, pages 44-50.
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K.F. Mustafa, S. Abdullah, M.Z. Abdullah & K. Sopian. (2015) Experimental analysis of a porous burner operating on kerosene–vegetable cooking oil blends for thermophotovoltaic power generation. Energy Conversion and Management 96, pages 544-560.
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K.F. Mustafa, S. Abdullah, M.Z. Abdullah, K. Sopian & A.K. Ismail. (2015) Experimental investigation of the performance of a liquid fuel-fired porous burner operating on kerosene-vegetable cooking oil (VCO) blends for micro-cogeneration of thermoelectric power. Renewable Energy 74, pages 505-516.
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Bibhuti Bhusan Samantaray, P. Pradhan, Dillip K. Sahoo & P.C. Mishra. (2015) Comparative Thermal Performance and Emission Analysis of Flat, Semi-swirl and Full-swirl Cooking Burners-Experimental Results. Procedia Engineering 127, pages 932-939.
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Max Akira E. Kokubun & Fernando F. Fachini. (2013) Flame sheet model for the burning of a low-volatility liquid fuel in a low-permeability medium under low rates of strain. Combustion and Flame 160:12, pages 2783-2799.
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P. Muthukumar & P.I. Shyamkumar. (2013) Development of novel porous radiant burners for LPG cooking applications. Fuel 112, pages 562-566.
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Kanokkarn WongwatcharaphonKampanart Theinnoi. (2013) Effect of Physical Properties of Porous Combustor on Radiant Output and Fuel-Preheated Efficiency of a Non-Sprayed Porous Burner. Applied Mechanics and Materials 421, pages 819-825.
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Ramkumar N. Parthasarathy, Subramanyam Gollahalli & Chodchanok Attaphong. (2013) Combustion Properties of Jet A/Ethanol Blends in a Porous Media Burner. Combustion Properties of Jet A/Ethanol Blends in a Porous Media Burner.
Chendhil Periasamy & Subramanyam R. Gollahalli. (2011) Experimental Investigation of Kerosene Spray Flames in Inert Porous Media near Lean Extinction. Energy & Fuels 25:8, pages 3428-3436.
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M. Abdul Mujeebu, M.Z. Abdullah, M.Z. Abu Bakar, A.A. Mohamad & M.K. Abdullah. (2009) Applications of porous media combustion technology – A review. Applied Energy 86:9, pages 1365-1375.
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M. Abdul Mujeebu, M.Z. Abdullah, M.Z. Abu Bakar, A.A. Mohamad & M.K. Abdullah. (2009) A review of investigations on liquid fuel combustion in porous inert media. Progress in Energy and Combustion Science 35:2, pages 216-230.
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Susie Wood & Andrew T. Harris. (2008) Porous burners for lean-burn applications. Progress in Energy and Combustion Science 34:5, pages 667-684.
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