Geiger Counter Readings in Seattle, WA on June 23, 2013

Ambient office = .080 microsieverts per hour

Ambient outside = .077 microsieverts per hour

Soil exposed to rain water = .067 microsieverts per hour

Iceberg lettuce from local grocery store =  .100 microsieverts per hour

Tap water = .073 microsieverts per hour

Filtered water = .065 microsieverts per hour

              I have mentioned Duke Energy in several past posts. The headquarters of Duke Energy is located in Charlotte, North Carolina. It is the biggest electric power holding company in the United States and it also has assets in Canada and Latin America. The fifty eight thousand megawatts that it generates is distributed to seven million customers in a territory of over one hundred thousand square miles. Duke generates electricity from hydro, oil, natural gas, coal and nuclear energy. Duke Energy owns and operates four nuclear power plants in North Carolina, two plants in South Carolina and one plant in Florida. A total of twelve nuclear reactors are located at the seven power plants. Duke has applied for constructions permits and licenses for four additional reactors.

              In 1999, Duke was the target of an enforcement action by the EPA because they were trying to get out of having to get permits under the Clean Air Act for modifications to old coal burning power plants. The case went all the way to the Supreme Court and Duke was ordered to comply with the Clean Air Act. In 2002, Duke Energy was forced to restate their financial reports due to false or incorrect accounting. As of 2005, Duke Energy was rated as 13^th in list of polluting energy producing companies. Environmental activists have opposed and are opposing new energy plant projects of Duke Energy. Duke has been criticized for spending seventeen million on lobbying, not paying any taxes and receiving over two hundred million dollars in tax rebates while making five billion four hundred million dollars in profits in the period for 2008 to 2010.

              Duke has decided to shut down the Florida reactor at the Crystal River plant because the required repairs would cost too much. Florida has a law which allows utility companies such as Duke to charge customers for construction of new nuclear reactors and repairs of existing nuclear reactors before the work even begins. As the law is currently written, the utility can keep the additional money collected even if the work is never done. Florida is trying to revoke that part of the law. With the decision to close the Crystal River reactor, Duke is going to refund some of the extra money that it had collected. There is a battle between Duke and a nuclear insurance company over how much money the insurance company will have to pay customers for the extra cost of electricity after the Crystal River reactor was shut down.

             Duke’s Shearon Harris nuclear reactor has been the center of controversy. Between 1999 and 2003 the reactor had to be shut down twelve times. The national average for U.S. nuclear plants would be two or three shutdowns in a four year period. Studies suggested that the spent fuel pool was the greatest danger at Shearon Harris and that there was a possibility that it could over-heat and burn. Some critics claim that Shearon Harris is the most dangerous nuclear reactor in the United States. This year, a small crack forced the shutdown of the reactor. The crack should have been detected when the reactor was shut down for refueling last year and the NRC is investigating. Duke has halted work on the construction of two new reactors at Shearon Harris because of the current soft electricity market.

            A watchdog group is demanding that North Carolina utility regulators levy at least five million dollars in penalties against Duke Energy for over-charging its customers millions of dollars and spending money on campaign contributions and sponsoring a professional basketball team. Duke Energy has a track record of over-charging customers, neglecting nuclear power plant maintenance, polluting the environment, trying to skirt environmental regulations, avoiding taxes, and other types of corporate bad behavior. This is not a company that I trust when it comes to the safe operation of nuclear power plants.

The worst Hanford tank may be leaking into the soil. king5.com

Washington State is on alert after nuclear waste leak at Hanford. Enenews.com

Emergency declared at Grand Gulf nuclear plant in Mississippi for “release of toxic and flammable gases”. Enenews.com

Officials at the Beaver Valley nuclear power plant near Shippingport, Pennsylvania found dozens of minor problems officially called “potentially adverse seismic conditions” last year when they conducted an assessment of how well the plant could withstand an earthquake. triblive.com

Geiger Counter Readings in Seattle, WA on June 22, 2013

Ambient office = .095 microsieverts per hour

Ambient outside = .094 microsieverts per hour

Soil exposed to rain water = .094 microsieverts per hour

Iceberg lettuce from local grocery store =  .089 microsieverts per hour

Tap water = .118 microsieverts per hour

Filtered water = .084 microsieverts per hour

              I have posted a number of articles about the situation at the Hanford Nuclear Reservation in Eastern Washington. For decades, the U.S. government has been trying to clean up the mess left over from processing nuclear materials for our nuclear weapons arsenal. A variety of nuclear materials were placed in single wall tanks and buried for disposal. Unfortunately, the tanks started leaking into the ground, threatening the surrounding communities and agriculture as well as the Columbia River which supplies a lot of water to the Northwestern United States. Double walled tanks were developed and some of the waste in the worst single walled tanks was pumped into the new tanks. We were assured that the double walled tanks would not leak.

             Last year, a double walled tank with the designation of AV-102 set off some alarms. The tank was investigated and water and sludge were observed between the inner wall and the outer wall of the tank. After denying that there was a leak and turning off the alarms, the company in charge of the tanks eventually admitted that there was a possible leak of radioactive materials from the inner tank to the space between the inner wall and the outer wall. Once again we were assured that there was no danger and that the leak would be contained by the outer wall of the tank. Recently, higher radiation levels were found in the soil surrounding tank AY-102. Apparently, despite all the assurances, the material in the tank, which is highly radioactive, is leaking into the soil. The double walled tank is not able to contain the waste and protect the environment.

            The hope was that moving the worst waste from the most deteriorated single wall tanks into the double walled tanks would give the company time to complete the vitrification plant which would allow the waste to be mixed with liquid glass and solidified into glass logs for permanent disposal. The Department of Energy authorized work to begin on the vitrification plant before the details of the vitrification process were well understood. As might be expected, this turned out to be a disaster. The material in the different tanks consists of a mix of different toxic and radioactive chemicals. The exact types and amounts of chemicals vary between tanks and their chemical interaction is not well understood. It is possible that explosive gasses may be generated as work proceeds and there is a risk of explosions when the tanks are opened. In addition, the constituents of the tanks consist of a variety of physical forms including solids, thick sludges, thin liquids, gases and particulates of different sizes. These different particulates have proven to be especially hard to deal with in the vitrification process. They can lead to corrosion of the pipes in the plant and result in leaks and even explosions. When it was clear that the plant would not function as desired, work was suspended last year.

            The clock is running out at Hanford. The single wall tanks are leaking, the double walled tanks are beginning to leak, work is halted on the vitrification plant and there is no permanent storage facility for any glass logs created by the plant even if it is completed and works correctly. At the very least, radioactive materials will continue to leak into the ground water and the Columbia River posing a threat to the health of the people in the Pacific Northwest. At worst, there will be explosions that will inject radioactive materials into the atmosphere to rain down over a wider area of the Northwest United States.

Hanford Nuclear Reservation Map:

TEPCO has found that cesium-134/137 levels in seawater off Fukushima is higher than groundwater. fukushima-diary.com

An estimated 360 liters of radioactive water has leaked from a desalination unit at the crippled Fukushima Daiichi nuclear power plant. enenews.com

New Iranian President Hassan Rohani showed flexibility and a willingness to compromise when he was the country’s top nuclear negotiator years ago. csmonitor.com

The NRC appears to be upset about the reception it received at an open meeting in Plymouth. wickedlocal.com

Geiger Counter Readings in Seattle, WA on June 21, 2013

Ambient office = .110 microsieverts per hour

Ambient outside = .078 microsieverts per hour

Soil exposed to rain water = .119 microsieverts per hour

Hass avacado from local grocery store =  .121 microsieverts per hour

Tap water = .115 microsieverts per hour

Filtered water = .087 microsieverts per hour

          I have discussed various nuclear projects in different parts of the world but usually focused on a particular country. In today’s blog, I am going to talk about the Middle East and their ambitious plans for nuclear power. There are plans for investing two hundred billion dollars to building thirty seven new reactors across the region in the next fifteen years. This would represent an almost ten percent increase in the number of operational reactors in the world today.

         I have already mentioned the new nuclear project in Turkey at Sinop on the Black Sea in prior posts. The French company Areva and the Japanese company Mitsubishi Heavy Industries are collaborating on the twenty two billion dollar project to build Turkey’s second nuclear power plant. I have reservations about the technical competence of Mitsubishi Heavy Industries following the rapid failure of two steam turbines they built for the San Onofre power plant in California.

          Jordan will decide soon whether a Russian consortium or a French-Japanese consortium will build two gigawatt reactors in Amman at a cost of about sixteen billion dollars.  Jordan is also in the process of building a reactor for research and training. Jordan is a very dry country and some critics of nuclear power have raised the question of how Jordan is going to find the water to cool nuclear reactors.

           Egypt has decided that nuclear energy is critical to its future supply of electricity. It is working with the Russians on studies at the Dabaa nuclear station. Lacking oil, natural gas and coal, Egypt plans to exploit deposits of uranium to supply fuel for new reactors. Egypt has requested bids to build its first nuclear power plant which will utilize a Generation Three type reactor employing the latest proven nuclear technology for efficiency and safety.

            ENEC, the company that owns and operates Abu Dhabi’s nuclear power plants plans to spend twenty billion for four new nuclear reactors to be operational by 2020. The United Arab Emirates government has worked hard to sell the idea of nuclear power to its people and a recent poll found that eighty two percent of the people supported nuclear power. Their need for new sources of energy is not as acute as Jordan and Egypt because of their huge oil and natural gas reserves.

             Although Saudi Arabia has committed to expanding renewable energy sources, they are also committed to building nuclear reactors for electricity generation. They are going with the Generation Three design type and expect to have their first reactors online by 2020.

             Just looking at the numbers in this article, it would seem to me that the countries of the Middle East may be a little optimistic about the cost of thirty seven nuclear reactors. The three projects for which I have quoted actual dollars amount to about sixty billion dollars. That estimate accounts for six or seven reactors. Figuring an average of about ten billion dollars per reactor, the cost for thirty seven reactors should be more like four hundred billion dollars. While the oil rich countries such as Saudi Arabia and the UAE can absorb significant cost overruns, countries like Egypt and Jordan will have a more difficult time. Availability of cooling water will also be a problem in countries other than Jordan.

             There is also the issue of corruption in Middle Eastern countries. The countries mentioned above are not any more corrupt than global averages except for Egypt which is among the third most corrupt nations. Even an average level of corruption is very dangerous when it come to constructing, operating and regulating a nuclear power plant. The countries of the Middle East would be much better off working on renewable energy sources such as solar and wind power than spending money on dangerous and expensive nuclear power.

Fukushima Diary reported that the multiple nuclide removing system at Fukushima possibly leaked contaminated water. Fukushima-diary.com

On June 13, 2013, TEPCO invited foreign correspondents to Fukushima I Nuclear Power Plant to show them the progress that’s been made at the plant. ex-skf.blogspot.jp

Thyroid data means much more radiation must have come out of Fukushima reactors than anyone reported. Enenews.com

Obama urges ‘bold’ nuclear cuts in Berlin speech. News.yahoo.com

Geiger Counter Readings in Seattle, WA on June 20, 2013

Ambient office = .095 microsieverts per hour

Ambient outside = .085 microsieverts per hour

Soil exposed to rain water = .091 microsieverts per hour

Banana from local grocery store =  .099 microsieverts per hour

Tap water = .076 microsieverts per hour

Filtered water = .070 microsieverts per hour