Some reflections on nuclear costs

Thoughts inspired by the news near the anniversaries of the atomic bombings of Hirishoma and Nagasaki

Britain’s estimated nuclear stockpile is estimated to be 225 warheads, of which no more than 160 are available to be operational at any time, according to the Bulletin of Atomic Scientists (http://bos.sagepub.com/content/67/5/89.full.pdf+html). The costs of “cleanup” of Sellafield, the site that produced the plutonium for these bombs is now estimated at 67.5 billion pounds, or about 100 billion dollars (http://www.independent.co.uk/news/uk/politics/sellafield-failed-by-private-cleanup-firms-series-of-expensive-mistakes-has-led-to-review-at-nuclear-plant-8735040.html). A modest amount of electricity was produced there, but far short of the cleanup cost, which may yet rise. More than 100 metric tons of plutonium for civilian purposes were produced but have less than zero value. In simple economic terms, the civilian plutonium is a liability not an asset.

Aerial view Sellafield, Cumbria - geograph.org.uk - 50827
(Aerial view Sellafield, Cumbria. Photo credit Simon Ledingham)

So, as a practical matter, most of the $100 billion must be chalked up as the cost of Britain’s nuclear bombs, since that was the only (arguably) “useful” output. That is roughly $600 million dollars per operational bomb in Sellafield clean up costs alone. Then add remediation of all the other bomb-related sites and the costs of setting up and running the nuclear bomb complex.

In the United States cumulative costs to the year 1996 were about $5.5 trillion (1995 dollars), including not only the bombs, but the delivery systems, personnel, etc. incurred until then. It has been increasing by tens of billions each year since. Cleanup will total hundreds of billions of dollars. And, according to current plans, many sites will be left with significant amounts of contamination. (For an accounting of the U.S. program, See Atomic Audit, Brookings Institute, 1998, ed. Stephen Schwartz. I was one of the authors. It’s available from IEER’s website (http://ieer.org/resource/books/atomic-audit/)

In the meantime, Fuksuhima continues to be an emergency without end – vast amounts of radioactivity, including strontium-90 in the groundwater, evidence of leaks into the sea, the prospect of contaminated seafood. Strontium-90, being a calcium analog, bioaccumulates in the food chain. It is likely to be a seaside nightmare for decades. (Listen to Arjun discuss the ongoing radioactivity leaks in an interview with Living on Earth radio: http://www.loe.org/shows/segments.html?programID=13-P13-00030&segmentID=4)

According to the New York Times (http://www.nytimes.com/2013/07/27/world/asia/operator-of-fukushima-plant-criticized-for-delaying-disclosures-on-leaks.html), Shunichi Tanaka, chairman of Japan’s new Nuclear Regulation Authority chairman, recently said:

“The difficulties we face at Fukushima Daiichi are on par with the difficulties we faced in the wake of World War II. Tepco [the Tokyo Electric Power Company] needs more assistance from others in Japan, me included. We cannot force everything on Tepco; that’s probably not going to solve the problem.”

So nuclear power has gone from a promise of “too cheap to meter” to a disaster like the horrific post-war rubble in Japan. And the biggest bang for the buck that was supposed to be the bomb has become endless bucks for the bang. A sad reminder as we approach the anniversaries of the bombings of Hiroshima and Nagasaki.

Fukushima reflections on the second anniversary of the accident

Statement of Arjun Makhijani for the March 2013 conference commemorating the Fukushima accident
To be read by Helen Caldicott

I appreciate that my friend, Helen Caldicott, one of the two people who inspired my book Carbon-Free and Nuclear-Free (the other was S. David Freeman) has agreed to read a brief statement from me on this second anniversary of the Fukushima disaster. I wanted to share two of the new things I have learned as I have followed the consequences of Fukushima unfold.

First, the Japanese government proposed to allow doses as high as 2 rem (20 millisieverts) per year to school children, claiming that the risk was low or at least tolerable. An exposure at this level over five years – 10 rem in all — to a girl, starting at age five, would create a cancer incidence risk of about 3 percent, using the [age- and gender-specific] risk estimates in the National Academies BEIR VII report.

Now imagine that you are a parent in Japan trying to decide whether to send your daughter to such a school. Roughly thirty of every hundred girls would eventually develop cancer at some point in their lives; just one of those would be attributable to Fukushima school exposure, according to the risk numbers. But no one would know if their daughter’s cancer was attributable to the exposure at school and neither would the Japanese government’s radiation bureaucrats. Why is it difficult to understand that while the risk attributable to school contamination would be one in thirty, the proportion of parents stricken with guilt and doubt would be closer to one in three? Would you ever forgive yourself if you made the decision to send your daughter to that school? Or your son, though the risk attributable to Fukushima exposure would be less than that experienced by girls?

Indeed, due to the long latency period of most cancers, you would be fearful even if no cancer had as yet appeared. The Pentagon understood this when a Joint Chiefs of Staff Task Force evaluated the extensive contamination produced by the July 1946 underwater nuclear bomb test (Test Baker) at Bikini for its usefulness in war. Here is a quote from their 1947 report:

“Of the survivors in the contaminated areas , some would be doomed by radiation sickness in hours some in days, some in years. But, these areas, irregular in size and shape, as wind and topography might form them, would have no visible boundaries. No survivor could be certain he was not among the doomed, and so added to every terror of the moment, thousands would be stricken with a fear of death and the uncertainty of the time of its arrival.”

Compare this for yourself with the aftermath of Fukushima and the plight of the parents.

Second, nuclear power’s conceit was that nuclear power is 24/7 electricity supply. Since Fukushima, over sixty of the world’s light water power reactors have been prematurely shut for a variety of reasons, though just four reactors were stricken by the accident: 52 in Japan, eight in Germany, several in the U.S. Even if some are eventually restarted, nuclear power has shown a unique ability to go from 24/7 power supply to 0/365 essentially overnight for long periods– hardly a convincing claim of reliability.

We can do better than making plutonium just to boil water or polluting the Earth with fossil fuel use. When I finished Carbon-Free Nuclear-Free in 2007, I estimated it would take about forty years to get to an affordable, fully renewable energy system in the United States. Today, I think in can be done in twenty-five to thirty years. Are we up to the challenge? Finally, I truly regret I cannot be there to publicly thank and honor my friend Helen for inspiring Carbon-Free, Nuclear-Free, which you can download free from ieer.org, also thanks to her. I wish you a very productive conference.

(Also see IEER’s publication Plutonium: Deadly Gold of the Nuclear Age, June 1992.)

6935 Laurel Ave., Suite 201 · Takoma Park, Maryland, 20912 USA · Tel. 1-301-270-5500 · Fax 1-301-270-3029; E-mail: