Open Access
Issue
Int. J. Simul. Multisci. Des. Optim.
Volume 5, 2014
Article Number A07
Number of page(s) 11
DOI https://doi.org/10.1051/smdo/2013019
Published online 06 February 2014
  1. Andersen S. March 2006. Numerical Simulation of Cyclic Thermodynamic Processes, PhD thesis, Department of Mechanical Engineering, Technical University of Denmark.
  2. Bonnet S. 2005. Moteurs Thermiques À Apport de Chaleur Externe : Étude d’un Moteur Stirling et d’un Moteur Ericsson. PhD thesis, Université de Pau et des Pays de l’Adour.
  3. Der Minassians A. December 2007. A. Stirling Engines for Low-Temperature Solar-Thermal-Electric Power Generation. PhD thesis, University of California at Berkeley.
  4. Grosu L, Rochelle P. 2009. Application de la méthode de Schmidt avec régénération imparfaite aux 3 types de moteur Stirling. Nouvelles solutions analytiques, congrès SFT, Vol. 2, Vannes, 26–29 mai. p. 895–901.
  5. Homutescu VM, Dumitraşcu G, Horbaniuc B. 2008. Evaluation of the work lost due to leaks through cylinder-displacer GAP, COFRET’08. Nantes, Juin.
  6. Martaj N. Décembre 2008. Modélisation Energétique et exergétique, simulation et optimisation des moteurs Stirling à faible différence des températures – Confrontation avec l’expérience, Thèse de l’Université Paris 10, Nanterre.
  7. Stouffs P, Bonnet S, Alaphilippe M. 2002. Etude expérimentale des transferts thermiques et des transformations thermodynamiques dans un petit moteur Stirling, in Elsevier, Actes du Congrès SFT’02, Paris. p. 763–768.
  8. Reader Y. 1983. Stirling Engines. E et F.N. Spon, London and New York.
  9. Urieli I, Berchowitz DM. 1984. Stirling Cycle Engine Analysis. Bristol, UK: Adam Hilger.
  10. Tlili I, Timoumi Y, Ben Nasrallah S. 2007. Thermodynamic analysis of Stirling heat engine with regenerative losses and internal irreversibilities. International Journal of Engine Research, 9, 45–56. [CrossRef]
  11. Andersen SK, Carlsen H, Per Grove Thomsen. 2005. Preliminary results from simulations of temperature oscillations in Stirling engine regenerator matrices. Energy, 1–13.
  12. Kongtragool B, Wongwises S. 2005. Investigation on power output of the gamma configuration low temperature differential Stirling engines. Renewable Energy, 30(3), 465–476. [CrossRef]
  13. Robson A. 2005. Development of a computer model to simulate a low temperature differential Ringbom Stirling engine, in Thermo- and GFD Modelling of Stirling Machines, Proceedings 12th International Stirling Engine Conference, Durham, p. 350–357.
  14. Ercan Ataera Ö, Karabulut H. 2005. Thermodynamic analysis of the V-type Stirling-cycle refrigerator. International Journal of Refrigeration, 28, 183–189. [CrossRef]
  15. Feidt M, Lesaos K, Costea M, Petrescu S. 2002. Optimal allocation of HEX inventory associated with fixed power output or fixed heat transfer rate input. International Journal of Applied Thermodynamics, 5(1), 25–36.
  16. Ibrahim MB, Zhiguo Z, Rong W, Simon TW, Gedeon D. 2002. A 2-D CFD Model of Oscillatory Flow With Jets Impinging on a Random Wire Regenerator Matrix. Piscataway NJ, Etats-Unis: IEEE.
  17. Wang JT, Chen J. 2002. Influence of several irreversible losses on the performance of a ferroelectric Stirling refrigeration-cycle. Applied Energy, 72, 495–511. [CrossRef]
  18. Senft JR. 1998. Theoretical limits on the performance of Stirling engines. International Journal of Engine Research, 22, 991–1000. [CrossRef]
  19. Wu F, Chen L, Wu C, Sun F. 1998. Optimum performance of irreversible Stirling engine with imperfect regeneration. Energy Conversion Management, 39(8), 727–732. [CrossRef]
  20. Organ AJ. 1997. The Regenerator and the Stirling Engine. Wiley, ISBN: 1-860658010-6.

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.