References
  1. A National Vision of America’s Transition to a Hydrogen Economy — to 2030 and Beyond, National Hydrogen Vision Meeting document, US Dept. of Energy, February 2002.


  2. C. W. Forsberg and K. L. Peddicord: Hydrogen Production as a Major Nuclear Energy Application, Nuclear News, September 2001.

    3.
  3. L. C. Brown, et al, High Efficiency Generation of Hydrogen Fuels Using Thermochemical Cycles And Nuclear Power, AIChE 2002 Spring National Meeting, New Orleans, LA, March 11-15, 2002, and L. C. Brown, et al, Alternative flowsheets for the sulfur-iodine thermochemical hydrogen cycle, Proc. AIChE 2003 Spring Meeting, March 31 – April 4, 2003, New Orleans, LA and L. C. Brown, et al, High Efficiency Generation of Hydrogen Fuels using Nuclear Power, Final report to DOE, General Atomics report GA-A24285, June 2003.

    4. http://web.gat.com/pubs-ext/AnnSemiannETC/A24285.pdf

  4. G.E. Besenbruch: General Atomic Sulfur-Iodine Thermochemical Water-Splitting Process, Am. Chem. Soc., Div. Pet. Chem., 271, 48 (1982).

    5.
  5. A. C. Marshal: An Assessment of Reactor Types for Thermochemical Hydrogen Production, Sandia National Laboratories report, SAND2002-0513, February 2002.
  6. H. Nakajima, et al.: A study on a closed-cycle hydrogen production by thermochemical water-splitting IS process, Proc. Seventh Intl. Conf. on Nuclear Engineering (ICONE-7), Tokyo, April 1999. ICONE-7104.

  7. M.P. LaBar: The Gas-Turbine-Modular Helium Reactor: A Promising Option for Near-Term Deployment, Intl. Cong. on Advanced Nuclear Power Plants, June 2002, Hollywood, Florida, also M. P. LaBar, Status of GT-MHR for Electricity Production, World Nuclear Association meeting, London, UK, 3-5 September 2003.
Use of the Modular Helium Reactor for Hydrogen Production

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