Increased concern over energy security and global climate change has led many people to take a fresh look at the benefits and risks of nuclear power.The rapid rate of nuclear reactor expansion required to make even a modest reduction in global warming would drive up construction costs and create shortages in building materials, trained personnel, and safety controls. There are also lingering questions over nuclear waste, as well as continued political opposition to siting new plants.
According to a prevailing belief, humanity confronts two stark risks: catastrophes caused by climate change and annihilation by nuclear war. The conventional wisdom also believes that the former danger appears far more certain than the latter. This assessment has recently led an increasing number of policymakers, pundits, businesspeople, and environmentalists to advocate a major expansion of nuclear energy, which emits very few greenhouse gases into the atmosphere.1 While acknowledging the connection between nuclear fuel making and nuclear bomb building, nuclear power proponents suggest that nuclear proliferation and terrorism risks are readily manageable. Consequently, some of these advocates favor the use of subsidies to stimulate substantial growth of nuclear power.
This conventional wisdom possesses some truth, but it oversells the contribution nuclear energy can make to reduce global warming and strengthen energy security while downplaying the dangers associated with this energy source. To realistically address global warming, the nuclear industry would have to expand at such a rapid rate as to pose serious concerns for how the industry would ensure an adequate supply of reasonably inexpensive reactor-grade construction materials, well-trained technicians, and rigorous safety and security measures.
Furthermore, some argue that a significant growth of nuclear reactors and fuel making in politically unstable regions would substantially increase the risks of nuclear terrorism and proliferation. Conversely, others decry the hypocrisy of this double standard in which only certain countries are allowed access to the full suite of nuclear technologies. Thus, the United States faces a fundamental policy dilemma: Is it possible to encourage growth of nu promote far greater use of energy efficiencies. Nuclear will undoubtedly be part of this mix, but the policy question is: How much can and should it contribute to energy needs?
This benefit needs to be weighed against the entire costs and risks of nuclear power production. In addition to substantial capital costs for construction of power plants, nuclear energy includes significant external costs: applying safeguards to sensitive activities such as fuel making, securing nuclear facilities against terrorist attacks, decommissioning reactors, storing highly radioactive waste, and paying for insurance to cover the costs of an accident. Another important policy question is: How much of these external costs should be paid for by the industry versus governments? A related question is: If all energy sectors identified and paid for most, if not all, of their external costs, including greenhouse gas emissions, how would the nuclear sector fare on this level playing field that refrained from further government subsidies?clear energy and fuel making in some regions and countries while denying or significantly limiting it in other places?
To reduce the deleterious effects of climate change, the world will need to dramatically increase the use of low- and no-carbon emission energy sources as well as promote far greater use of energy efficiencies. Nuclear will undoubtedly be part of this mix, but the policy question is: How much can and should it contribute to energy needs?
This benefit needs to be weighed against the entire costs and risks of nuclear power production.
In addition to substantial capital costs for construction of power plants, nuclear energy includes significant external costs: applying safeguards to sensitive activities such as fuel making, securing nuclear facilities against terrorist attacks, decommissioning reactors, storing highly radioactive waste, and paying for insurance to cover the costs of an accident. Another important policy question is: How much of these external costs should be paid for by the industry versus governments? A related question is: If all energy sectors identified and paid for most, if not all, of their external costs, including greenhouse gas emissions, how would the nuclear sector fare on this level playing field that refrained from further government subsidies?
In addition to substantial capital costs for construction of power plants, nuclear energy includes significant external costs: applying safeguards to sensitive activities such as fuel making, securing nuclear facilities against terrorist attacks, decommissioning reactors, storing highly radioactive waste, and paying for insurance to cover the costs of an accident. Another important policy question is: How much of these external costs should be paid for by the industry versus governments? A related question is: If all energy sectors identified and paid for most, if not all, of their external costs, including greenhouse gas emissions, how would the nuclear sector fare on this level playing field that refrained from further government subsidies?
As is often the case, your discussion of nuclear energy doesn't compare it to alternatives, as though the question were only to have nuclear energy or not, rather than nuclear energy or something else.
ReplyDeleteAs near as can be determined, the externalities for nuclear energy approximately equal those for wind power and are lower than those for photovoltaic.
As a practical matter, the only real alternative to nuclear is continuing to use fossil fuels, especially coal, owing to the unpredictable nature of wind and sunlight. The external costs of fossil fuels are many times those of nuclear energy.
RobC
Global Warming: A Guide for the Perplexed