Implementing Technology in Electric Power Generation to Limit Climate Change: Part B; CO2-free Power Generation Plants and Next-Generation Power Systems

T.J. Hammons


  1. [1] N. Nakicenovic, Freeing energy from carbon, Daedelus, 125 (3),1996, 95–115.
  2. [2] J.H. Ausubel, Where is energy going? The Industrial Physicist,6 (1), February 2000, 16–19.
  3. [3] J.H. Ausubel, Resources and environment in the 21st century:Seeing past the phantoms, World Energy Council Journal,July 1998, 8–16.
  4. [4] O. Bolland & H. Undrum, Removal of CO2 from gas turbinepower plants: Evaluation of pre- and postcombustion methods,Proc. 4th Int. Conf. of Greenhouse Gas Control Technologies,Interlaken, Switzerland, 1999, 125–130.
  5. [5] IEA Greenhouse Gas R&D Programme, Carbon dioxide capturefrom power stations, Cheltenham, UK,
  6. [6] G. Lozza & P. Chiesa, Natural gas decarbonisation to reduceCO2 emission from combined cycles, Part A: Partial oxidation,paper 2000-GT-163 presented in ASME TURBOEXPO 2000,Munich, Germany, 2000.
  7. [7] G. Lozza & P. Chiesa, Natural gas decarbonisation to reduce CO2emission from combined cycles, Part B: Steam-methane reforming, paper 2000-GT-164 presented in ASME TURBOEXPO 2000, Munich, Germany, 2000.
  8. [8] P. Freund & K.V. Thambinmuthu, Options for decarbonisingfossil energy supplies, Proc. Combustion Canada ’99 (Calgary,Canada: 1999).
  9. [9] Stork Engineering Consultancy B.V., Leading options for thecapture of CO2 emissions at power stations (Cheltenham, UK:IEA Greenhouse Gas R&D Programme, 2000).
  10. [10] A.J.B. Jackson, A.C. Neto, & M.W. Whellens, Gas turbineperformance using carbon dioxide as working fluid in closed cycle operation, paper 2000-GT-0153 presented in ASME TURBOEXPO 2000, Munich, Germany, 2000.
  11. [11] T. Andersen, H.M. Kvamsdal, & O. Bolland, Gas turbinecombined cycle with CO2-capture using auto-thermal reforming of natural gas, paper 2000-GT-162 presented in ASME TURBOEXPO 2000, Munich, Germany, 2000.
  12. [12] H. Audus & P. Freund, Reduction of CO2 emissions bydecarbonisation of natural gas, Proc. Power-Gen 99, MesseFrankfurt, Germany, 1999.
  13. [13] IEA Greenhouse Gas R&D Programme, Greenhouse gas emissions from power station, Cheltenham, UK, http://www.
  14. [14] Air Products Inc., Liquids from gas-air products will develop aceramic membrane technology to turn natural gas into liquids,1997
  15. [15] M. Steinberg, Fossil fuel decarbonisation technology for mitigating global warming, Int. journal for Hydrogen Energy, 24, 1999, 771-777. doi:10.1016/S0360-3199(98)00128-1

Important Links:

Go Back