Water level in Fukushima reactor basement rises dramatically as rain and groundwater leak in
BY TAKASHI SUGIMOTO, STAFF WRITER
31 May 2011 Water levels in the basement of the No. 1 reactor building at the stricken Fukushima No. 1 nuclear power plant increased dramatically on May 29 and 30, raising fears of radioactive water leaking from the site. The plant’s operator, Tokyo Electric Power Co. (TEPCO), said the water level rose 19.8 centimeters over the 24 hours to 7 a.m. on May 30, 18 times the increase over the previous 24 hours. The rising water level, apparently caused by rain flowing into the basement, is the latest headache for workers trying to contain the crisis at the plant. With the typhoon and rainy seasons already drenching Japan, TEPCO had already expressed concern that a deluge could result in leaks. TEPCO spokesman Junichi Matsumoto said before the latest data was announced: “The roofs of the No. 1, No. 3 and No. 4 reactor buildings have collapsed, so it is unavoidable that rain will get into those facilities.” With huge quantities of radioactive water being stored in various locations at the plant, and workers continuing to pump water to cool down the reactors, the worry is that additional heavy rainfall will inevitably increase the volume of contaminated water. In the basements of the No. 2 and No. 3 reactors’ turbine buildings, in particular, there is evidence that the pools of contaminated water are not isolated from the surrounding groundwater. Water levels in those buildings do not drop when water is removed. … It has not been confirmed that contaminated water has leaked into the groundwater from the basements in large quantities, but the levels of contaminated water in the basements are currently only a few meters lower than that of the groundwater. …
My comment is for all of you interested in following the incident. Focus on information that gives you and understanding of the Iodine-131/Cesium-137 concentration ratio. Iodine-131 as all short lived isotopes are created by fission, and should be decreasing to half in terms of Becquerels/m2^ or Liter or m^3 every 8 days.
Don't care about anything else you hear, just look for sources that allow you to estimate this ratio. If you don't see it go to half every 8 days, then fission is still on-going and the drama is alive, meaning that the worst case scenarios are still possible. Once you see that this ratio keeps on going down, then we are in territory where even talking about controlling the disaster starts to make sense. Before that, we are in a bomb defusing scenario with thousands of tons of nuclear fuel involved. An Engineer has given some examples of the levels of energy involved in just 1 nuclear reactor in lunatic outpost.