Small Modular Reactors, the Next Big Renewable Energy Source
Policy Exchange’s Energy and Environment Unit conducts innovative and independent policy research into a wide range of environmental, infrastructure, and regulatory challenges. Our objectives are to influence policy making and to shape debate. We produce publications, organize events, and use the media to promote our findings and policy proposals. A key focus of our work is to identify ways to tackle environmental challenges effectively while minimizing adverse impact on living standards. We promote well-designed regulation to exploit the power of markets to achieve environmental outcomes innovatively and cost-effectively.
- 2.Rooney Matt, “Small Modular Reactors, The next big thing in energy?”, Policy Exchange 2017, www.policyechange.org.uk
- 3.“Annual Report 2014,” Gen IV International Forum, Nuclear Energy Agency, 2014.
- 4.“A Technology Roadmap for Generation IV Nuclear Energy Systems,” U.S. Department of Energy, GIF-002-00, December 2002
- 5.B. Kallman, “The Very High Temperature Reactor,” Physics 241, Stanford University, Winter 2013.
- 6.G. Roberts, “Nuclear Reactor Basics and Designs for the Future,” Physics 241, Winter 2013.
- 8.Cooper, Mark, “Small modular reactors and the future of nuclear power in the United States”, published in Elsevier at www.elsevier.com/locate/erss
- 9.Cooper M. Public risk, private profit, ratepayer cost, utility imprudence: advanced cost recovery for reactor construction creates another nuclear fiasco, not a renaissance; 2013. March.Google Scholar
- 10.Downey J. Westinghouse slows small reactor development. Charlotte Bus J2014. February.Google Scholar
- 11.Electric Energy Online. B&W announces restructuring of small modular reac-tor program 2014. April 14Google Scholar
- 12.Akikur RK, et al. Comparative study of stand-alone and hybrid solar energy systems suitable for off-grid rural electrification: a review. Renew Sustain Energy Rev. 2013:27Google Scholar
- 13.Litvak A. Westinghouse backs off small nuclear plants. Pittsburgh Post-Gazette 2014. February 1.Google Scholar
- 18.Eg (CH)n tar sands or (CH1.5)n heavy crude to (CH2)n transport fuel. Upgrading heavy crude oil and tar sands requires 3 to 4 kilograms of hydrogen per barrel (159 liters) of product.Google Scholar
- 19.In thermal terms @ 121 MJ/kg: 8470 PJ, equivalent to all of US nuclear electricityGoogle Scholar