Araştırma Makalesi
BibTex RIS Kaynak Göster

Yıl 2018, Cilt: 2 Sayı: 1, 1 - 12, 15.02.2018

Salem Alaraby Ali Shufat Erol Kurt Khaled Mohamed El Hadad Aybaba Hancerliogullari

https://doi.org/10.30521/jes.379164

Öz

Kaynakça

  • Bouzelata, Y, Kurt, E, Chenni, R, Altın. Design and simulation of a unified power quality conditioner fed by solar energy, International Journal of Hydrogen Energy, 2015; 40:15125–15380.
  • Johromi, M, Bioki, M, Fadaeinedjad, R. Simulation of a stirling engine solar power generation system using Simulink, International Review on Modelling and Simulations, February 2012 5(1).
  • Li, Y, Choi, S, Yang, C. Dish-Stirling Solar Power Plants: Modeling, Analysis, and Control of Receiver Temperature. IEEE transactions on sustainable energy, April 2014, 5(2):398-407.
  • Gheith, R, Alouli, F, Ben Nasrallah, S. Study of beta type stirling engine validity of the perfect gas assumption. International Journal of Heat and Technology January 2011, 29(1):157-163.
  • Organ, A.J., Thermodynamics and Gas Dynamics of the Stirling Cycle Machine, Cambridge University Press, UK, 1992
  • Kongtragool, B, Wongwises, S. A review of solar-powered stirling engines and low temperature differential stirling engines, Renewable and Sustainable Energy Reviews, April 2003, 7(2):131-154.
  • Mishra, D, Chaudhary, S. Thermodynamic Modeling and Performance Analysis of Stirling Engine Cycle. International Journal of Innovative Research in Engineering & Science, August 2014, 8.
  • Cheng, C, Yu. Y, Dynamic simulation of a beta-type Stirling engine with cam-drive mechanism via the combination of the thermodynamic and dynamic models. Renewable Energy, February 2011, 36(2):714-725.
  • Cengel, Y A, Boles, M A, Thermodynamics: An Engineering Approach, McGraw-Hill Education, New York, USA, 2011
  • Teruyuki, A, Koichi, H, Takeshi, H, Kazuhito, H. The performance of stirling engine of the free piston type enhanced with ceramics heater, MM Science Journal, December 2014, 4:537-541.
  • Howard, D, Harley, R. Modeling of Dish-Stirling Solar Thermal Power Generation, Power Engineering Society General Meeting, IEEE 2010, July 2010, DOI:10.1109.
  • Abbas, M, Boumeddane, B, Said, N, Chikouche, A. Dish Stirling technology: A 100 MW solar power plant using hydrogen for Algeria, International Journal of Hydrogen Energy April 2011;36:4305-4314.
  • Zainudin, M, Abu Bakar, R, Ming, G, Ali, T, Anak, B. Thermodynamic cycle evaluation of rhombic drive beta-configuration Stirling engine, 2nd International Conference on Sustainable Energy Engineering and Application, ICSEEA 2014, 68:419 – 428
  • Kraitong, Kwanchai. Numerical Modelling and Design Optimization of Stirling Engines for Power Production, Northumbria University (2012), Doctoral thesis.
  • Aksoy, F, Solmaz, H, Çinar, C, Karabulu, H. 1.2kW beta type Stirling engine with rhombic drive mechanism, international journal of energy research, January 2017, 41:1310–1321

A numerical model for a Stirling engine

Yıl 2018, Cilt: 2 Sayı: 1, 1 - 12, 15.02.2018

Salem Alaraby Ali Shufat Erol Kurt Khaled Mohamed El Hadad Aybaba Hancerliogullari

https://doi.org/10.30521/jes.379164

Öz

The concentrated solar systems by using Stirling
engines become more and more important as its renewable, cheap operational and
management aspects. Thus, the usage of power sources related to SEs and their
model and simulations are growing among the scientists for better efficiency
and performance under different operating states. In the present study, a new
SE simulation scheme has been developed by operating under Matlab/Simulink. The
code mainly models and studies the thermos-mechanical performance of a beta
type SE. The model includes the extensions from the solar power side under a
constant temperature together with thermal and mechanical outputs. Since it has
been a nonlinear model, some transient and dynamic phenomena have been taken
into account to complete the system operation from start-up to full power
state. The detailed model and simulation results are promising by comparing the
earlier analyses even for using a semi-empirical formulation for the
electricity conversion.

Anahtar Kelimeler

CSP Stirling engine Modeling Simulation

Kaynakça

  • Bouzelata, Y, Kurt, E, Chenni, R, Altın. Design and simulation of a unified power quality conditioner fed by solar energy, International Journal of Hydrogen Energy, 2015; 40:15125–15380.
  • Johromi, M, Bioki, M, Fadaeinedjad, R. Simulation of a stirling engine solar power generation system using Simulink, International Review on Modelling and Simulations, February 2012 5(1).
  • Li, Y, Choi, S, Yang, C. Dish-Stirling Solar Power Plants: Modeling, Analysis, and Control of Receiver Temperature. IEEE transactions on sustainable energy, April 2014, 5(2):398-407.
  • Gheith, R, Alouli, F, Ben Nasrallah, S. Study of beta type stirling engine validity of the perfect gas assumption. International Journal of Heat and Technology January 2011, 29(1):157-163.
  • Organ, A.J., Thermodynamics and Gas Dynamics of the Stirling Cycle Machine, Cambridge University Press, UK, 1992
  • Kongtragool, B, Wongwises, S. A review of solar-powered stirling engines and low temperature differential stirling engines, Renewable and Sustainable Energy Reviews, April 2003, 7(2):131-154.
  • Mishra, D, Chaudhary, S. Thermodynamic Modeling and Performance Analysis of Stirling Engine Cycle. International Journal of Innovative Research in Engineering & Science, August 2014, 8.
  • Cheng, C, Yu. Y, Dynamic simulation of a beta-type Stirling engine with cam-drive mechanism via the combination of the thermodynamic and dynamic models. Renewable Energy, February 2011, 36(2):714-725.
  • Cengel, Y A, Boles, M A, Thermodynamics: An Engineering Approach, McGraw-Hill Education, New York, USA, 2011
  • Teruyuki, A, Koichi, H, Takeshi, H, Kazuhito, H. The performance of stirling engine of the free piston type enhanced with ceramics heater, MM Science Journal, December 2014, 4:537-541.
  • Howard, D, Harley, R. Modeling of Dish-Stirling Solar Thermal Power Generation, Power Engineering Society General Meeting, IEEE 2010, July 2010, DOI:10.1109.
  • Abbas, M, Boumeddane, B, Said, N, Chikouche, A. Dish Stirling technology: A 100 MW solar power plant using hydrogen for Algeria, International Journal of Hydrogen Energy April 2011;36:4305-4314.
  • Zainudin, M, Abu Bakar, R, Ming, G, Ali, T, Anak, B. Thermodynamic cycle evaluation of rhombic drive beta-configuration Stirling engine, 2nd International Conference on Sustainable Energy Engineering and Application, ICSEEA 2014, 68:419 – 428
  • Kraitong, Kwanchai. Numerical Modelling and Design Optimization of Stirling Engines for Power Production, Northumbria University (2012), Doctoral thesis.
  • Aksoy, F, Solmaz, H, Çinar, C, Karabulu, H. 1.2kW beta type Stirling engine with rhombic drive mechanism, international journal of energy research, January 2017, 41:1310–1321
Toplam 15 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Makine Mühendisliği
Bölüm Araştırma Makaleleri
Yazarlar

Salem Alaraby Ali Shufat

Erol Kurt

Khaled Mohamed El Hadad Bu kişi benim

Aybaba Hancerliogullari

Yayımlanma Tarihi 15 Şubat 2018
Kabul Tarihi 13 Şubat 2018
Yayımlandığı Sayı Yıl 2018 Cilt: 2 Sayı: 1

Kaynak Göster

Vancouver Alaraby Ali Shufat S, Kurt E, Mohamed El Hadad K, Hancerliogullari A. A numerical model for a Stirling engine. JES. 2018;2(1):1-12.
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