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Small scale porous medium combustion system for heat production in households

Author

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  • Avdic, F.
  • Adzic, M.
  • Durst, F.

Abstract

For heating purposes in modern households, gas burners are normally applied due to their simplicity, low cost and easy handling. On the other hand, practical experience showed that conventional, open flame gas burners compared to porous medium systems have low dynamic range, i.e. low power modulation capability and, additionally, higher production of pollutants such as carbon monoxide (CO) and nitrogen oxides (NOx). This is especially notable when the burner operates at low thermal power regimes. In order to avoid the above-mentioned difficulties and disadvantages of conventional burners, new porous medium gas burner system with maximum thermal output of 8Â kW has been developed. The objective of the presented work is focussed on better understanding and enabling further developing of porous medium burners (PMB) for household heating systems. The aim of the work is also to develop a compact and highly efficient combined heating system based on the 8Â kW gas PM burner coupled with a new heat exchanger incorporated into an electro-fossil fuel system considering space and domestic water heating in one-family house. The final result was the heating system with modulation of the thermal power up to approximately 1:8 and low emissions of CO and NOx.

Suggested Citation

  • Avdic, F. & Adzic, M. & Durst, F., 2010. "Small scale porous medium combustion system for heat production in households," Applied Energy, Elsevier, vol. 87(7), pages 2148-2155, July.
    • Handle: RePEc:eee:appene:v:87:y:2010:i:7:p:2148-2155
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    Citations

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    Cited by:

    1. Terracciano, Anthony Carmine & Vasu, Subith S. & Orlovskaya, Nina, 2016. "Design and development of a porous heterogeneous combustor for efficient heat production by combustion of liquid and gaseous fuels," Applied Energy, Elsevier, vol. 179(C), pages 228-236.
    2. Peng, Qingguo & Xie, Bo & Yang, Wenming & Tang, Shihao & Li, Zhenwei & Zhou, Peng & Luo, Ningkang, 2021. "Effects of porosity and multilayers of porous medium on the hydrogen-fueled combustion and micro-thermophotovoltaic," Renewable Energy, Elsevier, vol. 174(C), pages 391-402.
    3. Mujeebu, M. Abdul & Abdullah, M.Z. & Mohamad, A.A., 2011. "Development of energy efficient porous medium burners on surface and submerged combustion modes," Energy, Elsevier, vol. 36(8), pages 5132-5139.
    4. Pan, J.F. & Wu, D. & Liu, Y.X. & Zhang, H.F. & Tang, A.K. & Xue, H., 2015. "Hydrogen/oxygen premixed combustion characteristics in micro porous media combustor," Applied Energy, Elsevier, vol. 160(C), pages 802-807.
    5. Mueller, Kyle T. & Waters, Oliver & Bubnovich, Valeri & Orlovskaya, Nina & Chen, Ruey-Hung, 2013. "Super-adiabatic combustion in Al2O3 and SiC coated porous media for thermoelectric power conversion," Energy, Elsevier, vol. 56(C), pages 108-116.
    6. Bakry, Ayman I. & Rabea, Karim & El-Fakharany, Magda, 2020. "Starting up implication of the two-region porous inert medium (PIM) burners," Energy, Elsevier, vol. 201(C).
    7. Robayo, Manuel D. & Beaman, Ben & Hughes, Billy & Delose, Brittany & Orlovskaya, Nina & Chen, Ruey-Hung, 2014. "Perovskite catalysts enhanced combustion on porous media," Energy, Elsevier, vol. 76(C), pages 477-486.

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