A prototype of a biomass Stirling engine was developed and manufactured by an industrial company prior to the numerical investigations described in this paper. Dimensions and performance of the prototype had originally been estimated using the company’s own simplified “first-order” mathematical model of the engine’s working cycle. The manufactured engine was experimentally tested, and the results demonstrated that the power output from the machine was far less than expected. To understand what caused the engine’s low operational characteristics and to predict how to refine the design, more advanced numerical investigations of the working process of the engine were performed. This utilized a “second-order” type 5 control volumes model, together with three-dimensional computational fluid dynamics modeling. As an outcome of this study, several recommendations on to how alter the prototype’s design were forthcoming, which, in practice, allow significant improvements in the engine’s performance.
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September 2006
Research Papers
Design Improvements to a Biomass Stirling Engine Using Mathematical Analysis and 3D CFD Modeling
K. Mahkamov
K. Mahkamov
Khamid Mahkamov is a lecturer in thermofluids in the School of Engineering at the University of Durham. After gaining his M.Eng. and Ph.D. from Bauman Moscow State Technical University (Faculty of Power Engineering) in the field of heat engines, he worked on the research and development of different types of energetic units operating on both fossil fuels and renewable energies. He joined the School of Engineering in 2001, and his research interests at Durham continue to focus on R&D of heat engines for various applications and renewable energy technologies.
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K. Mahkamov
Khamid Mahkamov is a lecturer in thermofluids in the School of Engineering at the University of Durham. After gaining his M.Eng. and Ph.D. from Bauman Moscow State Technical University (Faculty of Power Engineering) in the field of heat engines, he worked on the research and development of different types of energetic units operating on both fossil fuels and renewable energies. He joined the School of Engineering in 2001, and his research interests at Durham continue to focus on R&D of heat engines for various applications and renewable energy technologies.
J. Energy Resour. Technol. Sep 2006, 128(3): 203-215 (13 pages)
Published Online: September 16, 2005
Article history
Received:
April 26, 2005
Revised:
September 16, 2005
Connected Content
A correction has been published:
Closure to “Discussion: ‘Design Improvements to a Biomass Stirling Engine Using Mathematical Analysis and 3D CFD Modeling’ ” (2007, ASME J. Energy Resour. Technol., 129, pp. 278, 279, 280)
A companion article has been published:
Discussion: “Design Improvements to a Biomass Stirling Engine Using Mathematical Analysis and 3D CFD Modeling” (Mahkamov, K., 2006, ASME J. Energy Resour. Technol., 128, pp. 203–215)
A companion article has been published:
Discussion: “Design Improvements to a Biomass Stirling Engine Using Mathematical Analysis and 3D CFD Modeling” [Mahkamov, K., 2006, ASME J. Energy Resour. Technol., 128, pp 203–215]
Citation
Mahkamov, K. (September 16, 2005). "Design Improvements to a Biomass Stirling Engine Using Mathematical Analysis and 3D CFD Modeling." ASME. J. Energy Resour. Technol. September 2006; 128(3): 203–215. https://doi.org/10.1115/1.2213273
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Discussion: “Design Improvements to a Biomass Stirling Engine Using Mathematical Analysis and 3D CFD Modeling” [ Mahkamov, K., 2006, ASME J. Energy Resour. Technol., 128, pp 203–215 ]
J. Energy Resour. Technol (September,2007)
Discussion: “Design Improvements to a Biomass Stirling Engine Using Mathematical Analysis and 3D CFD Modeling” ( Mahkamov, K., 2006, ASME J. Energy Resour. Technol., 128, pp. 203–215 )
J. Energy Resour. Technol (September,2007)
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