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Numerical model and investigations of the externally heated valve Joule engine

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  • Wojewoda, Jerzy
  • Kazimierski, Zbyszko

Abstract

The mineral fuels used recently, i.e., oil and gas, will be soon exploited out. This paper presents an idea of the engine where any fuel or solar heat can be used as a source of energy. The proposed model is an externally heated, 2-stroke, valve engine (EHVE). This is a piston-type engine, entirely different from the well-known Stirling one, which is the best known example of such a solution. It works in a closed Joule cycle and is designed to produce a moderate amount of energy. The engine is composed of typical parts met in piston designs: an expander, a compressor, a heater, a cooler and, additionally, two recirculation blowers, which consume a small amount of produced power. An additional advantage is its working medium, which may be simply atmospheric air and the engine has a conventional crankshaft and an oil lubrication system. It has already been proven that operation of the EHVE is possible with satisfactory power and efficiency at the output. Comparisons of the EHVE action with and without recirculation blowers are performed.

Suggested Citation

  • Wojewoda, Jerzy & Kazimierski, Zbyszko, 2010. "Numerical model and investigations of the externally heated valve Joule engine," Energy, Elsevier, vol. 35(5), pages 2099-2108.
    • Handle: RePEc:eee:energy:v:35:y:2010:i:5:p:2099-2108
    DOI: 10.1016/j.energy.2010.01.028
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    Citations

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    Cited by:

    1. Qian, Jin-yuan & Wei, Lin & Zhang, Ming & Chen, Fu-qiang & Chen, Li-long & Jiang, Wei-kang & Jin, Zhi-jiang, 2017. "Flow rate analysis of compressible superheated steam through pressure reducing valves," Energy, Elsevier, vol. 135(C), pages 650-658.
    2. Rui F. Costa & Brendan D. MacDonald, 2018. "Comparison of the Net Work Output between Stirling and Ericsson Cycles," Energies, MDPI, vol. 11(3), pages 1-16, March.
    3. Creyx, M. & Delacourt, E. & Morin, C. & Desmet, B., 2016. "Dynamic modelling of the expansion cylinder of an open Joule cycle Ericsson engine: A bond graph approach," Energy, Elsevier, vol. 102(C), pages 31-43.
    4. Ngangué, Max Ndamé & Stouffs, Pascal, 2020. "Dynamic simulation of an original Joule cycle liquid pistons hot air Ericsson engine," Energy, Elsevier, vol. 190(C).
    5. Touré, Abdou & Stouffs, Pascal, 2014. "Modeling of the Ericsson engine," Energy, Elsevier, vol. 76(C), pages 445-452.
    6. Creyx, M. & Delacourt, E. & Morin, C. & Desmet, B. & Peultier, P., 2013. "Energetic optimization of the performances of a hot air engine for micro-CHP systems working with a Joule or an Ericsson cycle," Energy, Elsevier, vol. 49(C), pages 229-239.
    7. Kazimierski, Zbyszko & Wojewoda, Jerzy, 2014. "Heat exchanger operation in the externally heated air valve engine with separated settling chambers," Energy, Elsevier, vol. 74(C), pages 675-681.
    8. Komninos, N.P. & Rogdakis, E.D., 2018. "Numerical investigation into the effect of compressor and expander valve timings on the performance of an Ericsson engine equipped with a gas-to-gas heat exchanger," Energy, Elsevier, vol. 163(C), pages 1077-1092.
    9. Lontsi, Frederic & Hamandjoda, Oumarou & Fozao, Kennedy & Stouffs, Pascal & Nganhou, Jean, 2013. "Dynamic simulation of a small modified Joule cycle reciprocating Ericsson engine for micro-cogeneration systems," Energy, Elsevier, vol. 63(C), pages 309-316.

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