Endless Fukushima catastrophe: 2020 Olympics under contamination threat.
Dr Helen Caldicott is one of the most articulate and passionate advocates of citizen action to remedy the nuclear and environmental crises. September 15th 2013.
As the escape of radiation at Fukushima seems virtually unstoppable, there are still steps that governments all over the world should take to prevent worst case consequences. One of them would be canceling the 2020 Olympics in Tokyo.
Scientific estimates predict that the radioactive plume travelling east across the Pacific will likely hit the shores of Oregon, Washington State and Canada early next year. California will probably be impacted later that year. Because the ongoing flow of water from the reactor site will be virtually impossible to stop, a radioactive plume will continue to migrate across the Pacific affecting Hawaii, North America, South America and eventually Australia for many decades.
We are only talking about ocean currents, however, fish swim thousands of miles and don’t necessarily follow the currents. As noted in Part I, big fish concentrate radiation most efficiently, and tuna have already been caught off the coast of California containing cesium from Fukushima. Seaweed also efficiently concentrates radioactive elements.
As I contemplate the future at Fukushima, it seems that the escape of radiation is virtually unstoppable. The levels of radiation in buildings 1, 2 and 3 are now so high that no human can enter or get close to the molten cores. It will therefore be impossible to remove these cores for hundreds of years if ever.
Buildings 1, 2 & 3
If one of these buildings collapses, the targeted flow of cooling water to the pools and cores would cease, the cores would become red hot and possibly ignite releasing massive amounts of radiation into the air and water and the fuel in the cooling pools could ignite. It is strange that neither the US government in particular nor the global community seem to be concerned about these imminent possibilities and exhibit no urge to avert catastrophe.
Similarly the global media is strangely disconnected with the ongoing crisis. Most importantly, the Japanese government until very recently has obstinately refused to invite and collaborate with foreign experts from nuclear engineering companies and/or governments.
This structure was severely damaged during the initial quake, its walls are bulging, and it sank 31 inches (79cm) into the ground. On the roof sits a cooling pool containing about 250 tons of hot fuel rods, most of which had just been removed from the reactor core days before the earthquake struck. This particular core did not melt because TEPCO was able maintain a continuous flow of cooling water, so the rods and their holding racks are still intact, but geometrically deformed due to the force of the hydrogen explosion.
The cooling pool contains 8,800 pounds of plutonium plus over 100 other highly radioactive isotopes. Instead of this core melting into a larval mass like the other three cores, it sits exposed to the air atop the shaky building. A large earthquake could disrupt the integrity of the building, causing it to collapse and taking the hot fuel rods with it. The cooling water would evaporate and the intrinsic heat of the radioactive rods would ignite a fire as the zirconium cladding reacted with air, releasing the radioactive equivalent of 14,000 Hiroshima-sized bombs and 10 times more cesium than Chernobyl.
Not only would the Northern Hemisphere become badly contaminated, but the Japanese government is seriously contemplating evacuating 35 million people from Tokyo should this happen. TEPCO has constructed a steel frame to strengthen the shaky building in order to place a massive crane on the roof so they can extract the hot rods by remote control. This operation is always performed by computer and a remote manually-controlled extraction has never been attempted before. If the rods are deformed, a rod could fracture releasing so much radiation that the workers would have to evacuate or, should they touch each other, a chain reaction could release huge amounts of radiation.