Like a modern-day Pompeii, the streets and buildings of Prypyat stand frozen by a disaster. But, unlike the eruption of Mount Vesuvius nearly 2,000 years ago, Prypyat was destroyed by a manmade – and thus preventable – catastrophe.
GENEVA – Like a modern-day Pompeii, the streets and buildings of Prypyat stand frozen by a disaster. But, unlike the eruption of Mount Vesuvius nearly 2,000 years ago, Prypyat was destroyed by a manmade – and thus preventable – catastrophe.
Weeds and grey desolation are all that thrive in this once-bustling community, which housed the workers of Chernobyl’s doomed nuclear power plant, whose devastating meltdown 26 years ago still inflicts physical and socioeconomic harm on many in Ukraine and nearby countries. Back then, the world was, for an instant, shocked by the folly of nuclear technology. But, as with Hiroshima, Three Mile Island, and last year’s Fukushima meltdown in Japan, the spike in global dismay was all too fleeting.
This myopia is a symptom of steady population growth, coupled with consumption-driven economies and ever-increasing demand for cheap energy. But the risks clearly outweigh the alleged benefits. While nuclear energy’s advocates often claim that there have been only two major calamities, a very different picture emerges if we consider other “accidents” that caused loss of human life or significant property damage.
Between 1952 and 2009, at least 99 nuclear accidents met this definition worldwide, at a cost of more than $20.5 billion, or more than one incident and $330 million in damage every year. This recurrence rate demonstrates that many risks are not being properly managed or regulated, which is worrying, to say the least, especially given the harm that even a single serious accident can cause. The meltdown of a 500-megawatt reactor located 50 kilometers (31 miles) from a city would cause the immediate death of an estimated 45,000 people, injure roughly another 70,000, and cause $17 billion in property damage.
During a visit to Chernobyl in April, I learned about a new project to build, by 2015, a “shelter” to lock in the radiation still emanating from the reactor. The price tag is estimated at €1.5 billion ($1.9 billion). But this sarcophagus is no more than a wildly expensive Band-Aid, which will be ripped off a still-festering wound in 100 years, by which point, it is hoped, a permanent solution will have been found.
A 30-kilometer exclusion zone still rings Chernobyl, leaving once-fertile land unable to be tended by local farmers. In Belarus alone, roughly 8,000 square kilometers of farmland, an area almost the same size as all of Switzerland’s agricultural terrain, has been rendered by radiation unusable for ages.
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Then there is the issue of who pays to build such facilities. In principle, private capital does not flow to non-profit activities. In fact, it is flowing to renewable energy sources, not atomic. According to a 2012 Pew Charitable Trusts report, the United States, for example, invested more than $48 billion in renewable energy in 2011, up from $34 billion in 2010, regaining first place in the global clean-energy investment rankings.
It is governments – and thus taxpayers and bondholders – that finance nuclear plants. Moreover, the alleged “cost-savings” of nuclear power never include the price tag for direct and indirect governmental subsidies, decommissioning of aging facilities, and emergency clean-up and remediation of impacted communities when disasters occur – all, again, at taxpayers’ expense.
At Fukushima, for example, the bill will include the costs of the heroic efforts by hundreds of workers to cool down the plant’s reactors; the protracted loss of economic output in the 20-kilometer exclusion zone (estimated at $128.5 billion by Roubini Global Economics); decommissioning and clean-up costs; and the costs of replacing 4.7 gigawatts of generating capacity. On top of that, there is the possibility of health-care costs resulting from exposure to radioactivity.
All of these hidden costs make the price of nuclear energy higher than the price of shifting to renewable energies and improving energy efficiency. Of course, with 15 countries relying on nuclear power for 25% or more of their electricity, we cannot abandon it overnight. On the contrary, nuclear plants will be with us for years to come.
But steps can be taken. For example, it is estimated that adequate measures for insulating buildings or devising new energy-savings systems could reduce our electricity bills by 20-40%. With roughly 15% of global electricity supplies produced by nuclear plants, energy-saving measures could go a long way toward diminishing the need for them.
Countries like Brazil, which has a rapidly growing economy and relies on nuclear generation for 3% of its power, are moving in this direction. Officials there announced in May that the country would not develop its nuclear sector for the next decade, partly because of Fukushima. Brazil has thus sent a clear message to other emerging economies – like Russia, India, and China – that sustainable growth must rely on renewable, safe sources of power.
Brazil’s step is also timely, coming before the June 2012 United Nations Conference on Sustainable Development in Rio de Janeiro, or Rio+20. This meeting – despite some misgivings – is crucial. We have no choice but to embrace change, and rare events like Rio+20 offer an opportunity to get the global community out of harm’s way.
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South Korea's latest political crisis is further evidence that the 1987 constitution has outlived its usefulness. To facilitate better governance and bolster policy stability, the country must establish a new political framework that includes stronger checks on the president and fosters genuine power-sharing.
argues that breaking the cycle of political crises will require some fundamental reforms.
Among the major issues that will dominate attention in the next 12 months are the future of multilateralism, the ongoing wars in Ukraine and the Middle East, and the threats to global stability posed by geopolitical rivalries and Donald Trump’s second presidency. Advances in artificial intelligence, if regulated effectively, offer a glimmer of hope.
asked PS contributors to identify the national and global trends to look out for in the coming year.
GENEVA – Like a modern-day Pompeii, the streets and buildings of Prypyat stand frozen by a disaster. But, unlike the eruption of Mount Vesuvius nearly 2,000 years ago, Prypyat was destroyed by a manmade – and thus preventable – catastrophe.
Weeds and grey desolation are all that thrive in this once-bustling community, which housed the workers of Chernobyl’s doomed nuclear power plant, whose devastating meltdown 26 years ago still inflicts physical and socioeconomic harm on many in Ukraine and nearby countries. Back then, the world was, for an instant, shocked by the folly of nuclear technology. But, as with Hiroshima, Three Mile Island, and last year’s Fukushima meltdown in Japan, the spike in global dismay was all too fleeting.
This myopia is a symptom of steady population growth, coupled with consumption-driven economies and ever-increasing demand for cheap energy. But the risks clearly outweigh the alleged benefits. While nuclear energy’s advocates often claim that there have been only two major calamities, a very different picture emerges if we consider other “accidents” that caused loss of human life or significant property damage.
Between 1952 and 2009, at least 99 nuclear accidents met this definition worldwide, at a cost of more than $20.5 billion, or more than one incident and $330 million in damage every year. This recurrence rate demonstrates that many risks are not being properly managed or regulated, which is worrying, to say the least, especially given the harm that even a single serious accident can cause. The meltdown of a 500-megawatt reactor located 50 kilometers (31 miles) from a city would cause the immediate death of an estimated 45,000 people, injure roughly another 70,000, and cause $17 billion in property damage.
During a visit to Chernobyl in April, I learned about a new project to build, by 2015, a “shelter” to lock in the radiation still emanating from the reactor. The price tag is estimated at €1.5 billion ($1.9 billion). But this sarcophagus is no more than a wildly expensive Band-Aid, which will be ripped off a still-festering wound in 100 years, by which point, it is hoped, a permanent solution will have been found.
A 30-kilometer exclusion zone still rings Chernobyl, leaving once-fertile land unable to be tended by local farmers. In Belarus alone, roughly 8,000 square kilometers of farmland, an area almost the same size as all of Switzerland’s agricultural terrain, has been rendered by radiation unusable for ages.
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At a time when democracy is under threat, there is an urgent need for incisive, informed analysis of the issues and questions driving the news – just what PS has always provided. Subscribe now and save $50 on a new subscription.
Subscribe Now
Then there is the issue of who pays to build such facilities. In principle, private capital does not flow to non-profit activities. In fact, it is flowing to renewable energy sources, not atomic. According to a 2012 Pew Charitable Trusts report, the United States, for example, invested more than $48 billion in renewable energy in 2011, up from $34 billion in 2010, regaining first place in the global clean-energy investment rankings.
It is governments – and thus taxpayers and bondholders – that finance nuclear plants. Moreover, the alleged “cost-savings” of nuclear power never include the price tag for direct and indirect governmental subsidies, decommissioning of aging facilities, and emergency clean-up and remediation of impacted communities when disasters occur – all, again, at taxpayers’ expense.
At Fukushima, for example, the bill will include the costs of the heroic efforts by hundreds of workers to cool down the plant’s reactors; the protracted loss of economic output in the 20-kilometer exclusion zone (estimated at $128.5 billion by Roubini Global Economics); decommissioning and clean-up costs; and the costs of replacing 4.7 gigawatts of generating capacity. On top of that, there is the possibility of health-care costs resulting from exposure to radioactivity.
All of these hidden costs make the price of nuclear energy higher than the price of shifting to renewable energies and improving energy efficiency. Of course, with 15 countries relying on nuclear power for 25% or more of their electricity, we cannot abandon it overnight. On the contrary, nuclear plants will be with us for years to come.
But steps can be taken. For example, it is estimated that adequate measures for insulating buildings or devising new energy-savings systems could reduce our electricity bills by 20-40%. With roughly 15% of global electricity supplies produced by nuclear plants, energy-saving measures could go a long way toward diminishing the need for them.
Countries like Brazil, which has a rapidly growing economy and relies on nuclear generation for 3% of its power, are moving in this direction. Officials there announced in May that the country would not develop its nuclear sector for the next decade, partly because of Fukushima. Brazil has thus sent a clear message to other emerging economies – like Russia, India, and China – that sustainable growth must rely on renewable, safe sources of power.
Brazil’s step is also timely, coming before the June 2012 United Nations Conference on Sustainable Development in Rio de Janeiro, or Rio+20. This meeting – despite some misgivings – is crucial. We have no choice but to embrace change, and rare events like Rio+20 offer an opportunity to get the global community out of harm’s way.