TY - JOUR T1 - Climate Change, Nuclear Power, and Nuclear Proliferation: Magnitude Matters AU - Robert J. Goldston PY - 2011 T2 - Science & Global Security SP - 130 EP - 165 VL - 19 IS - 2 N2 - Integrated energy, environment, and economics modeling suggests that worldwide electrical energy use will increase to ~12 TWe in 2100. Due to limitations of other low-carbon energy sources, nuclear power may be required to provide ~30% of world electrical energy by 2100. Calculations of the associated stocks and flows of uranium, plutonium, and minor actinides indicate that the proliferation risks at mid-century, using current light-water reactor technology, are daunting. There are institutional arrangements that may be able to provide an acceptable level of risk mitigation, but they will be difficult to implement. If a transition is begun to fast-spectrum reactors at mid-century, the global nuclear proliferation risks become much greater by 2100, and more resistant to mitigation. Fusion energy, if successfully demonstrated to be economically competitive, would provide a source of nuclear power with much lower proliferation risks than fission. UR - http://scienceandglobalsecurity.org/archive/sgs19goldston.pdf 0