Immediate Danger

   The following was written before the March 18, 2011 global media blackout on radiation related information.  If you read nothing else, Read this!

INTO ETERNITY A FILM FOR THE FUTURE

Posvia corporate promo animation describing the project of building Onkalo

Into Eternity (with French Subtitles) is viewable on YouTube in 6 segments:

• Part 1 (12:43)
• Part 2 (12:32)
• Part 3 (12:35)
• Part 4 (12:43)
• Part 5 (12:27)
• Part 6 (12:34)

Into Eternity   © Magic Hour Films

Japan - after the BIG earthquake

Here is a link you need to check out. Japan - after the BIG earthquake

http://japan-afterthebigearthquake.blogspot.com/2011/07/radiation-problems-info.html

Many thanks to Dr. Greve. 
Reporting since March 11, 2011 . . .

Dr. Gabi Greve, Japan
Daruma Museum, World Kigo Database

Here are some highlights of that blog:

Wednesday, March 28, 2012

quoteUnderstanding the Ongoing Nuclear Disaster in Fukushima:
A “Two-Headed Dragon” Descends into the Earth’s Biosphere
...
From Meltdown to Melt-Through
The Tōhoku earthquake made a direct hit on the Fukushima No. 1 Nuclear Power Plant. At 3:00 p.m. on the following day, March 12, a hydrogen explosion took place in the No. 1 reactor, followed by similar explosions in the No. 3 reactor on March 14 and in the No. 2 and No. 4 reactors on March 15. On March 21, there was another mysterious explosion in the No. 3 reactor.

... March 15: The Largest Release of Radiation
March 21: A Second Massive Release of Radiation
From evening to nighttime of the same day, an “evil wind” struck the village of Iitate and Fukushima City, located northwest of the nuclear plant.
...
March 21: A Second Massive Release of Radiation
On the morning of March 21 the wind was blowing from the north.
On March 23, a new plume formed, moving southwest from the coastal areas of Ibaraki through Chiba prefecture.
...
The Formation of Contaminated “Hot Spots”
Hot spots were discovered in many parts of the capital city, too, with its population of thirty million.
...
The Amount of Radiation Released from Fukushima Daiichi
MORE
source : Fujioka Atsushi

Lethal radiation detected inside Fukushima reactor
Tokyo Electric Power Company has detected extremely high levels of radiation inside one of the crippled reactors of the Fukushima Daiichi nuclear power plant.
TEPCO was able to place monitoring equipment directly inside the reactor for the first time since last year's accident.
A dosimeter lowered into the containment vessel of the No.2 reactor registered 72.9 sieverts, or 72,900 millisieverts per hour at maximum -- a level where a human is certain to die within about 7 minutes of exposure.
The utility hopes to determine the state of the vessels as it moves to decommission the reactors.
It says radiation levels increased as the dosimeter was lowered inside the reactor. This suggests the nuclear fuel melted down and collected at the bottom of the vessel.
The utility also learned the water level inside the vessel was only 60 centimeters, compared to the original estimate of about 3 meters.
TEPCO suspects the suppression chamber at the bottom of the vessel may have been destroyed.
Thursday, March 29, 2012

Reactor 2 radiation too high for access
Radiation inside the reactor 2 containment vessel at the Fukushima No. 1 nuclear plant has reached a lethal 73 sieverts per hour and any attempt to send robots in to accurately gauge the situation will require them to have greater resistance than currently available, experts say.
http://www.japantimes.co.jp/text/nn20120329a1.html

Thursday, April 05, 2012

Strontium at Fukushima plant flows into sea
Tokyo Electric Power Company says more radioactive wastewater has leaked from its Fukushima Daiichi nuclear plant and flowed into the sea. The water contained high levels of strontium.
Workers at the plant discovered water leaking from a pipe connected to a wastewater tank, at around 1:00 AM on Thursday.
Workers shut valves, and the flow stopped about an hour later.
TEPCO says about 12 tons of wastewater leaked from a disconnected joint in the pipe. The company also says it believes that a large portion of the water has flowed into the ocean through a nearby drainage ditch.
The utility is trying to determine how the joint became disconnected, and how much water poured into the sea.
Radioactive wastewater also leaked on March 26th from a different section of the same piping.
Last December, water leaked from another device within the plant compound.

Tuesday, April 24, 2012

quoteFukushima air to stay radioactive in 2022

FUKUSHIMA —
A decade from now, airborne radiation levels in some parts of Fukushima Prefecture are still expected to be dangerous at above 50 millisieverts a year, a government report says.
The report, which contains projections through March 2032, was presented by trade minister Yukio Edano Sunday to leaders of Futaba, one of the towns that host the crippled Fukushima No. 1 power plant.
The report includes radiation forecasts for 2012 to 2014, and for 2017, 2022 and 2032, based on the results of monitoring in November last year. It was compiled to help municipalities draw up recovery and repopulation programs for the nuclear disaster.

Thursday, April 26, 2012

Cesium contaminated fish found in Tone river
Radioactive cesium exceeding the new legal limit has been found in fish in the Tone River, which passes north of Tokyo. Authorities have taken measures to stop the shipment of fish caught in the river.
Chiba prefectural officials say a silver crucian carp caught in the river contained 110 becquerels of radioactive cesium per kilogram. The new limit is 100 becquerels per kilogram.
The Tone River is the river with the largest drainage area in Japan. The town where the contaminated fish was caught is located about 180 kilometers from the disabled Fukushima Daiichi nuclear plant.
The prefecture has asked 10 municipalities along the river and 6 fishery cooperatives not to ship fish from the river to market.
Last month, fish and shellfish pulled from a pond near the river were removed from circulation because of radiation levels above the legal limit.
Prefectural officials say they will check other types of freshwater fish for radioactivity.

Also check out :

Fukushima Power Plant - Meltdown

. Daily Radiation Levels . 　
Since March 18, 2011, from the Japan Times

. Fukushima, radiation . . . 　

. Daily Radiation Levels . 　
Since March 18, 2011, from the Japan Times

. My Daily Report, NHK news and more 　
. . . . .


Again Many thanks to Dr. Greve. 
Reporting since March 11, 2011 . . .

Dr. Gabi Greve, Japan
Daruma Museum, World Kigo Database

Here we are, May 10th, 2012,and Cal fire news is still showing the test results from march 18 2011.  Does anybody else think that is kind of odd?  It turns out that there was a book written 13 years ago
entitled No Immediate Danger? Prognosis for a Radioactive Earth: 1990 . 
Summary: describing the breadth of what radiation does--not just fatal cancers
Keywords: ionizing (penetrating) radiation, mild mutation undermining genepool
Date: 25 Jun 1995 20:28:34 GMT

No Immediate Danger
Prognosis for a Radioactive Earth

by Dr Rosalie Bertell
1985

ISBN 0-913990-25-2

---

---

Part One of this book is available for free download here: http://www.ratical.org/radiation/NRBE/
  You will have to copy and paste this to your browser.

Both iodine-129 and iodine-131 are produced by the fission of uranium atoms during operation of nuclear reactors and by plutonium (or uranium) in the detonation of nuclear weapons. Radioactive iodines have the same physical properties as stable iodine. However, radioactive iodines decay with time. Iodine reacts easily with other chemicals, and isotopes of iodine are found as compounds rather than as a pure elemental nuclide. Thus, iodine-129 and -131 found in nuclear facilities and waste treatment plants quickly form compounds with the mixture of chemicals present. However, iodine released to the environment from nuclear power plants is usually a gas. Iodine-129 has a half-life of 15.7 million years; iodine-131 has a half-life of about 8 days. Both emit beta particles upon radioactive decay. Iodine-129 and iodine-131 are gaseous fission products that form within fuel rods as they fission. Unless reactor chemistry is carefully controlled, they can build up too fast, increasing pressure and causing corrosion in the rods. As the rods age, cracks or wholes may breach the rods.

The detonation of nuclear weapons also releases iodine-129 into the environment. Atmospheric testing in the 1950's and 60's released radioactive iodine to the atmosphere which has disseminated around the world. Radioactive iodine can disperse rapidly in air and water, under the right conditions. However, it combines easily with organic materials in soil. This is known as ‘organic fixation' and slows iodine's movement in the environment. Some soil minerals also attach to, or adsorb, iodine, which also slows its movement. The long half-life of iodine-129, 15.7 million years, means that it remains in the environment. However, iodine-131's short half-life of 8 days means that it will decay away completely in the environment in a matter of months. Both decay with the emission of a beta particle, accompanied by weak gamma radiation.

Cracked rods can release radioactive iodine into the water that surrounds and cools the fuel rods. There, it circulates with the cooling water throughout the system, ending up in the airborne, liquid, and solid wastes from the reactor. From time to time, reactor gas capture systems release gases, including iodine, to the environment under applicable regulations. Anywhere spent nuclear fuel is handled, there is a chance that iodine-129 and iodine-131 will escape into the environment. Nuclear fuel reprocessing plants dissolve the spent fuel rods in strong acids to recover plutonium and other valuable materials. In the process, they also release iodine-129 and -131 into the airborne, liquid, and solid waste processing systems. In the U.S., spent nuclear fuel is no longer reprocessed, because of concerns about nuclear weapons proliferation. Currently, spent nuclear fuel remains in temporary storage at nuclear power plants around the country. Wherever spent nuclear fuel is stored, the short-lived iodine-131 it contains will decay away quickly and completely. However, the long-lived iodine-129 will remain for millions of years.