C. Wu and J.-S. Tsai


  1. [1] Y.S.H. Najjar, Gas turbine cogeneration systems: A reviewof some novel cycles, Applied Thermal Engineering, 20, 2000,179–197. doi:10.1016/S1359-4311(99)00019-8
  2. [2] S. Fujii, K. Kaneko, K. Otani, & Y. Tsujikawa, Mirror gasturbines: A newly proposed method of exhaust heat recovery,ASME Journal of Engineering for Gas Turbines and Power,123, 2001, 481–486. doi:10.1115/1.1366324
  3. [3] Y. Tsujikawa, K. Kaneko, & S. Fujii, Utilization of cryogenicenergy of LNG by MGT (mirror gas turbine), ASME Paper00-GT-317, 2000.
  4. [4] J. Hodge, Gas-turbine cycles and performance estimation (Lon-don: Butterworths, 1995).
  5. [5] D.G. Wilson, The design of high-efficiency turbomachinery andgas turbines (Cambridge, MA: MIT Press, 1995).
  6. [6] J.B. Woodward, Evaluation of Brayton and Rankine alternativesfor diesel waste heat exploitation, ASME Journal of Engineeringfor Gas Turbines and Power, 116, 1994, 39–45.
  7. [7] M. Bianchi, G. Montenegro, Negri di, & A. Peretto, InvertedBrayton cycle employment for low-temperature cogenerativeapplications, ASME Journal of Engineering for Gas Turbinesand Power, 124, 2002, 561–565. doi:10.1115/1.1447237
  8. [8] Y.S.H. Najjar, The over-expansion gas turbine cycle usinghydrogen, International Journal of Hydrogen Energy, 16, 1991,625–629. doi:10.1016/0360-3199(91)90087-Y
  9. [9] C. Wu, Intelligent computer aided optimization of power andenergy systems, Proc. of Institute of Mechanical Engineers, PartA: Journal of Power and Energy, 213(A1), 1999, 1–6. doi:10.1243/0957650991537383

Important Links:

Go Back