3Simon Harvey. Analysis of a reheat gas turbine cycle with chemi- calrecuperation using Aspen [ J ]. Laboratoired' uergrtique des Syst~mes de Nantes ISITEM, BP 90604, 44306 Nantes Codex 03, France, 2013.
4B. Sheikhbeigi. Thermodynamic and environmental consideration of advanced gas turbine cycles with reheat and reeuperator [ J ]. De- partment of energy engineering, graduate school of the environment and energy, science and research campus, Islamic Azad University, Tehran, Iran,2012.
5A Khaliq. Thermodynamic performance evaluation of combustions turbine cogeneration system with reheat [ J ]. Department of me- chanical engineering, Faculty of engineering and technology, Jamia- Millialslamia, New Delhi 110 025, India,2012.
6A. Khaliq. Second-law based thermodynamic analysis of Brayton/ Rankine combined power cycle with reheat[ J]. Department of me-chanical engineering, Faculty of engineering and technology, Jamia- Millialslamia, New Delhi 110025, India,2011.
7Adnan Eroglu. Etc. Alstom Technology Ltd. Reheat Combustor for a Gas Turbine Engine : US,2012/0260665 A1.
8S. K. Tyagi. Thermodynamic analysis and parametric study of an ir- revemible regenerative-intercooled-reheat Brayton cycle. [ J ] Insti- tute of Refrigeration and Cryogenics, Zhejiang UnivemityHangzhou 310027, People' s Republic of ChibCentre for Energy Studies, Indi- an Institute of Technology,Delhi,New Delhi 110016 India,2013.
9Y. Sanjay. Energy and exergy analysis of steam cooled reheat gas- steam combined cycle. [ J ] Department of Mechanical Engineer- ing, National Institute of Technology, Jamshedpur, Pin 831 014, Jharkhand, India. Department of Mechanical Engineering, H. B. T. I, Kanpur, India ,2008.
