Open Access
E3S Web Conf.
Volume 313, 2021
19th International Stirling Engine Conference (ISEC 2021)
Article Number 13001
Number of page(s) 13
Section Waste Heat Recovery Systems
Published online 22 October 2021
  1. AT. Hoang, Waste heat recovery from diesel engines based on Organic Rankine Cycle, Appl. En. 231, 138-66 (2018). [Google Scholar]
  2. L. Kuban, J. Stempka, A. Tyliszczak, A 3D-CFD study of a γ-type Stirling engine, Energy 169, 142-59 (2019). [Google Scholar]
  3. G. Walker, Stirling engines, Oxford: Clarendon Press; New York: Oxford University Press, (1980) [Google Scholar]
  4. H. Hachem, R. Gheith, F. Aloui, SB. Nasrallah, Technological challenges and optimization efforts of the Stirling machine: A review, En. Conv. Man. 171, 1365-87 (2018). [Google Scholar]
  5. B. Cullen, J. Mc Govern, Energy system feasibility study of an Otto cycle/Stirling cycle hybrid automotive engine, Energy 35 1017-23 (2010). [Google Scholar]
  6. WE. Yutuc, A Study on the Use of a Stirling Engine generator to reduce fuel oil consumption onboard a tanker ship, Jour. Engin. Appl. Scien. 11(9) 2044-49 (2016). [Google Scholar]
  7. S. Alfarawi, M. Webb-Martin, S. Mahmoud, RK. AL-Dadah, Thermal analysis of stirling engine to power automotive alternator using heat from exhaust gases, En. Proc. 61, 2395-98, 6th International Conference on Applied Energy – ICAE2014 (2014). [Google Scholar]
  8. S. Alfarawi, R. AL-Dadah, S. Mahmoud, Enhanced thermodynamic modelling of a gamma-type Stirling engine, Appl. Therm. Eng. 106, 1380-90 (2016). [Google Scholar]
  9. M. Torres García, E. Carvajal Trujillo, JA. Vélez Godiño, D. Sánchez Martínez, Thermodynamic model for performance analysis of a stirling engine prototype, Energies 11, 2655 (2018). [Google Scholar]
  10. R. Li, L. Grosu, W. Li. New polytropic model to predict the performance of beta and gamma type Stirling engine, Energy 128, 62-76 (2017). [Google Scholar]
  11. A. Sowale, AJ. Kolios, B. Fidalgo, T. Somorin, A Parker, L. Williams, M. Collins, E. McAdam, S. Tyrrel. Thermodynamic analysis of a gamma type Stirling engine in an energy recovery system, En. Conv. Man. 165, 528-40 (2018). [Google Scholar]
  12. C. Perozziello, Experimental and numerical study of a stirling engine for waste heat recovery from internal combustion engine, (PhD Thesis, University Parthenope, Naples-Italy 2020). [Google Scholar]
  13. A. Magno, E. Mancaruso, BM. Vaglieco, Effect of both blended and pure biodiesel on waste heat recovery potentiality and exhaust emissions of a small CI (compression) engine, Energy 86, 661-71 (2015). [Google Scholar]
  14. İA. Reşitoğlu, K. Altinişik, A. Keskin, The pollutant emissions from diesel engine vehicles and exhaust aftertreatment systems, Clean Techn. En. Pol. 17, 15-27 (2015). [Google Scholar]
  15. [accessed 30 April 2020]. [Google Scholar]
  16. I. Urieli, DM. Berchowitz, Stirling cycle engine analysis, (Bristol, NY; Adam Hilger LTD; Taylor & Francis; Abingdon, UK, (1984). [Google Scholar]
  17. T. Finkelstein, Insights into the thermodynamics of Stirling cycle machines, IAA-943951-CP, 1829-34 (1994). [Google Scholar]
  18. J. Egas, DM. Clucas, Stirling engine configuration selection. Energies, 11, 584 (2018). [Google Scholar]
  19. S. Alfarawi, Modelling and optimization of high temperature difference (htd) gammatype stirling engine prototype, (PhD thesis, University of Birmingham, 2017). [Google Scholar]
  20. A. Wagner, Calculations and experiments on gamma-type stirling engines, (Cardiff University, 2008). [Google Scholar]
  21. CP. Speer, DA. Miller, CJA. Stumpf, JP. Michaud, DS. Nobes, Modification of an ST05G-CNC Stirling engine to use a low temperature heat source, (15° International Energy Conversion Engineering Conference, 10-12 July 2017, Atlanta). [Google Scholar]
  22. CP. Speer, Modifications to reduce the minimum thermal source temperature of the ST05G-CNC Stirling engine, (Department of Mechanical Engineering, University of Alberta, 2018). [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.