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Post Info TOPIC: pu-238 production is a disaster waiting to happen- opps, it already has!


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pu-238 production is a disaster waiting to happen- opps, it already has!



Hi folks,



   I was googling myself (Dr. Peter Rickards DPM) and saw Lord Flasheart calling me "mindless" because I am opposing the DOE's plutonium-238 production clustering in beautiful Idaho. Little Lord F-heart even pondered pu-238 fallout as anti-nuclear propoganda theorizing "the mountains would contain any fallout." Dang that's dumb for an accident or terrorist strike at the pu-238 facility. 1)If the mountains contain the fallout, well, there goes the Grand Tetons, Yellowstone National Park, and Idaho's Sawtooth Mountain Range. The best damn place in the nation! God's country, as they say... 2) Ummm, the wind does blow ya know, and it will send a radioactive plume across the rest of the country. Atomic fallout from Nevada Test Site went in heavy doses to New York and beyond. 



   So I signed up to set the record straight on this blindly pro-nuclear self congratulating circle jerking group. (Pardon my humor please)



    May I provide some references? The DOE pu-238 facility in Los Alamos continues to have severe worker exposure from pu-238 accidents. Two that I have reports on are from 2000 and 2003. The DOE is getting kicked out of New Mexico, so the DOE is forcing this cluster into beautiful serene Idaho.



   I have DOE documents on HEPA filter flaws, showing they can NOT contain plutonium. The pu-238 fallout data, contaminating 2/3 of the world, comes from the Cassini documents on miscalculating the re-entry sling shot manuever. Lucky they succeeded on that crap shoot, but NASA blew a recent orbit calculation, fortunately on Mars, not Earth. The nuclear geniuses forgot to convert from American to metric, overpowering the vehicle into a crash and burn...opps!



    Both NASA and the European Space Agency can go to deep space without the pu-238 potential disaster. See Deep Space 1 and Rosetta.



    The National Academy of Sciences has backed my statement of HEPA filter flaws, calling for pu clean up plans, that previously choose a nasty leaking incinerator. That pu incinerator is stopped, and the NAS called for "emission free treatments" , just like I do, so how "mindless" is that Mr Flasheart?



Here is an excerpt from the NAS advice, with the webpage below for reference. Note, they are also endorsing my call to reduce airborne inhalation exposure, by solidifying our buried pu waste before removal. This ain't fairy dust kids! DOE, is of course ignoring this advice, and going full speed down this dead end road.



"In the stabilization area, research should address new approaches to
stabilizing buried waste prior to or in the early stages of excavation,
smart materials that react with waste constituents, and very long term
barriers against contaminant migration and methods to prove their longevity.
Public concern about air emissions from incineration has created incentives
for applied research toward large-volume, robust alternatives that are
emission free, as well as to smaller-scale, portable devices that may have
specialized applications."


Here is the NAS recommendation for emission free treatments (page 7 of the
report)
http://books.nap.edu/books/0309084717/html/7.



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RE: pu-238 production is necessary and is done safely


judging by just the few reports cited below, I would say that Lord Flasheart is a lot less ignorant than "stungun".....



In the company where I work, we use nuclear reactors to produce radiopharmaceuticals for hospitals around the world (including the US), which are far more radioactive than Pu-238. And of course we do it safely.



http://www.space.com/spacenews/businessmonday_050117.html



ESA Chief: Europe Needs Space Nuclear Power Options



By Peter de Selding, Space News Staff Writer



Europe will have no choice but to develop nuclear-powered satellites if it wants to continue to explore the outer solar system, European Space Agency (ESA) Science Director David Southwood said.



Several European nations, notably Germany, have strong anti-nuclear feelings and may resist any move to develop radioisotope thermoelectric generators (RTGs), which are currently the preferred method for providing power to satellites traveling too far away from the sun to make solar-electric power feasible.



Europe’s Rosetta comet-chaser satellite, launched in February, carries a huge solar-array system that Southwood agreed is about as far as solar-electric power can go.



"Is this where we want to stop? I refuse to believe that," Southwood said in an interview here as he followed ESA’s Huygens probe as it descended to the surface of Saturn’s largest moon, Titan. Huygens was carried to Saturn orbit by NASA’s Cassini satellite, which is nuclear-powered. "The fact is you cannot imagine going to the outer planets without a power source that doesn’t depend on sunlight."



<SNIP>



Southwood said long-duration rovers on Mars - currently the subject of low-level research at ESA - ultimately would need RTGs and that Europe’s space-exploration program, called Aurora, may be the most logical avenue by which to start an RTG effort.



<SNIP>



=======================



http://news.bbc.co.uk/1/hi/sci/tech/4347571.stm



14 March, 2005



Europe tells US: 'Come to Europa'



By Jonathan Amos, BBC News science reporter





<SNIP>



But a key factor is likely to be power systems. Although solar panels will work on spacecraft at that distance, the desire for sufficient energy to drive many instruments means any mission would really need to go with radioisotope thermal generators (RTGs) - solid state electrical generators powered by the heat of radioactive decay.



Europe has no expertise with RTGs - the Americans have, and Cassini carries three to provide 700 watts to its systems.



"I'd much rather do this with RTGs," said Professor Southwood. "And that makes it almost certainly a joint venture with the Americans and why should we do it separately?



"This was waiting to happen. Someone just had to say it."



<SNIP>



==========================



http://www.aviationnow.com/publication/awst/loggedin/AvnowStoryDisplay .do?pubKey=awst&issueDate=2005-01-24&story=xml/awst_xml/2005/01/24/AW_ 01_24_2005_p24-26-01.xml&headline=Huygens%27+Discovery+of+Earthlike+Te rrain+on+Titan+Seen+as+Boost+for+Exploration



World News & Analysis



Huygens' Discovery of Earthlike Terrain on Titan Seen as Boost for Exploration



Aviation Week & Space Technology  01/24/2005, page 24



Frank Morring, Jr. and Michael A. Taverna, Darmstadt, Germany



Michael A. Dornheim,  Pasadena, Calif.



<SNIP>



ANOTHER STUMBLING block to future international exploration initiatives, according to ESA science chief Southwood, would be the use of radioisotope thermoelectric generators (RTGs) or future nuclear propulsion hardware sources, which is opposed by several European nations. This has forced ESA to rely exclusively on solar arrays; but the Rosetta comet rendezvous mission launched in January 2003 has shown the limits of solar technology, and major missions to the outer planets are inconceivable without RTGs or other nuclear power sources.



To get around this problem, ESA planners envision proposing an RTG development project through agency exploration or technology programs, which don't require unanimous consent of ESA members. ASI's Vetrella says Italy would support use of RTGs, but not through a European development effort.



<SNIP>



=================================



http://www.aviationnow.com/awin/awin_awst/awin_awst_story.jsp?issueDat e=2004-12-13&story=xml/awst_xml/2004/12/13/AW_12_13_2004_p56-62-01.xml



Space Exploration



Outer Solar System Beckons, but Moon/Mars Focus Could Slow Exploration There



Aviation Week & Space Technology  12/13/2004, page 56



Frank Morring, Jr., Washington



<SNIP>



The European Space Agency has its own "Aurora" robotic planetary exploration program aimed at Mars. ESA may find a logical niche in NASA's new exploration program if Project Prometheus manages to deliver the space-rated nuclear power infrastructure for outer-planet exploration that Europe lacks."When we started with the initial call for ideas for Aurora for exploration, Europa was one of the key targets of interest from the scientific community," says Bruno Gardini, ESA's Aurora project manager. "But the problem is that we are limited in what we are doing by the availability of electrical power. You go far away from the Sun, and you get around Jupiter, that's the limit. Rosetta is at the limit of what you can do with the solar array. To have the Rosetta spacecraft working under these conditions at that far distance was a tremendous struggle."



Gardini managed development of ESA's Rosetta comet-exploration mission, which will use solar power to explore and send a lander to the comet 67P/Churyumov-Gerasimenko. ESA also has studied missions to Europa and Pluto, only to reject them over the power issue. The agency has enjoyed close cooperation with NASA on the Cassini/Huygens mission to Saturn, in which the piggyback Huygens probe runs on batteries that draw their power from the U.S.-built radioisotope thermoelectric generator (RTG) in Cassini.



"IF WE WOULD HAVE the chance to contribute instruments to these distant missions, certainly we would be very happy to do so," says Gardini, who attended NASA's first international workshop. "I can only imagine that we would have a positive response to that. The availability of power is really the key."



<SNIP>



==================================



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RE: pu-238 production is a disaster waiting to happen- opps, it already has!


Hi,


   That was an informative reply on the ESA's Southwood's insistence on pu-238. Yes, it would be nice to explore beyond Saturn, and the definition of deep space will be ever changing.


   I have 2 objections, if you care to address them...


1) The Cassini is cited in these articles. As I have already stated, the Cassini, deep in their own documents, risked contaminating 2/3's of the world with a pu-238 burnup if they missed the sling shot acceleration manuever. How much pu-238 do doctors recommend for pregnant women? The answer is zero because of the radiosensitivity in the womb.


   So basically these rocket scientists are willing to risk most of the world's environment and developing children for their project. That is unacceptable to me and most of the people on earth, who's health you appear willing to gamble with. We have plenty of science we can do, and new energy breakthroughs can be achieved that do NOT risk this assinine gamble.


2) Why not do the science of HEPA filters, after 50 years of polluting the planet? Why allow the DOE to ignore the NAS advice for "emissions free treatments" for pu projects? And YES, there will be "spinoff technology" benefits for mankind by doing this science of pu containment, from vacumn cleaners to clean air.


    I do not oppose science and space exploration, but the DOE is presently lying about safety. pu-238 is SO radioactive that "any inhalation" for workers is assumed to exceed the workers 5,000 mrem annual dose limit. The recent pu-238 accidents at Los Alamos put the workers on immediate chelation therapy, to attempt to withdraw the pu-238 from their bodies, but they were over the 5,000 mrem dose regardless. Limit of exposure to the public is 10 mrem, or about one chest x-ray, which, ummm, you would not give to a pregnant women, unless her life depended on the x-ray. A space burn up will not have citizens undergoing chelation therapy, and it will be a disaster we do not need to gamble on.


   Please don't confuse inhalation of pu-239 for weapons with pu-238. The pu-238 is 275 times more radioactive, and that much more tissue and genetic destruction occurs with pu-238 exposure. Getting Bush's "man on Mars" may sound fun to unaware scientists who love science like I do, but when you are aware of the Big Picture, it is cruel and unusual punishment to the downwind citizens of the production facility, and the citizens of the world.
   



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stungun wrote:




Please don't confuse inhalation of pu-239 for weapons with pu-238. The pu-238 is 275 times more radioactive, and that much more tissue and genetic destruction occurs with pu-238 exposure.


Thanks for reminding me that  Pu-238 is 275 times more radioactive than Pu-239 -- I didn't realise that I was confusing it with Pu-239.


It would have been nice if you had added why that is so :  because the radioactive half-life of Pu-238 is 275 times shorter than that of Pu-239 (24,400 years versus 86 years).


Well guess what -- the half-life of typical radiopharmaceuticals is about 36 million times shorter than Pu-239, making them that much more radioactive (there is a biological effectiveness factor that also enters into the calculation, due to the different kinds of radiation, but this is generally not more than a factor of ten).


Similarly for some of the naturally occurring radioactive materials (NORMs), like for example Polonium-210, which is 64,500 times more radioactive than Pu-239, and 227 times more radioactive than Pu-238 (and same kind of radiation too - alphas - in this case).


If you want to talk about the "Big Picture," consider the following.



Typically, the first top meter of a 15 by 25-metre house lot contains, on average, three kilograms of uranium and ten kilograms of thorium.  One of the elements borne from the decay of uranium is a gas called radon. Radon escapes continuously to the air from the surface of the earth. On average, every square meter of land releases about 10 thousand atoms of radon every second, that is, a source of 10,000 Becquerels. Radon, which is also radioactive, decays into a series of radioactive atoms, one of them being Polonium 210. Rain, fog, snow, and dust bring polonium 210 back to the ground, where it accumulates. Since the source of radon never stops, the quantity, and the activity (quantity) of polonium on the ground remains constant at about 10,000 Becquerels per square meter. The International Commission on Radiological Protection calculates that polonium-210 is five to ten times more harmful than plutonium 239, on a per-radioactive quantity basis (i.e. on top of the 64,500 factor for half-life applied on the per-unit-mass basis) . Therefore, in terms of theoretical risk of cancer due to radioactivity, 10,000 Becquerels of polonium 210 are equivalent 50,000 to 100,000 Becquerels of plutonium 239. If one converts the quantity of polonium 210 on the ground into a mass of plutonium that presents the same theoretical danger to health, there is the equivalent of 0.044 mg of plutonium per square meter of land. This does not look like much, but for the Province of Quebec alone – an area of 1.5 million square kilometers - this is equivalent to some 60 tons of plutonium 239 -- or 220 kg (480 pounds) of Pu-238. This is the normal natural radioactive "fallout" -- way more than a remote chance of a spacecraft like Cassini crashing its load of 70 pounds of Pu-239 somewhere into the deep ocean.


 
So puh-leeeze.... go hawk your scare stories on some other message board. You may have better luck finding sufficiently ignorant (read 'gullible') victims for your propaganda there.
 
Oh, and BTW, that's 10kBq - as in kilo Becquerels, the typical amount of natural radioactivity in a human body.

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Hi 10 kBq Jaro,


    Did you forget to answer my 2 points again? Surprise surprise!


    Well, regarding your diversion arguement, your calculations disagree with commonly accepted science on radon gas. On the average, radon and byproducts account for about 200 mrem per year , of the 360 some mrems the average person receives from nature.


    And, ummm, that danger is why we test our houses, to attempt to limit radon exposure, the second leading cause of lung cancer. The polonium-210 you mention is thought to be the most dangerous part of tobacco, by the way. the uranium based fertilizer deposits the polonium, which is unwashable, and this alpha emiter gives the one pack a day smoker the radiation damage of 100 chest x-rays a year.


     The difference between inhaling radon, a gas and single atom, is that pu-238 particles have thousands of atoms, and our a point of perpetual radiation in your lung, if embedded. Our natural DNA repair mechanism may heal it all, but it is an unnecasary risk, way beyond the natural radiation threat.


   Some medical use of radioactive products is greatly appreciated by me. If someone is hyperthyroid, I-131 can help destroy the excess thyroid tissue. It's not given to pregnant women, of course.


    Let's try to answer the HEPA flaws and the question, "how much pu-238 do you recommned for pregnant women?" Most of us were a fetus once...


   



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Pu-238 production is necessary and is done safely !!!


Published papers, properly peer-reviewed, are certainly a good resource.
One such paper is "Fifty Years of Plutonium Exposure to the Manhattan Project Plutonium Workers: an Update" by George L. Voelz, James N. P. Lawrence and Emily R. Johnson, in the October 1997 issue of Heath Physics :
 
<quote>
INTRODUCTION
Plutonium is arguably the most feared substance on earth. Some people are convinced that any uptake of plutonium, sometimes referred to as a "speck," by an individual guarantees the induction of cancer and subsequent death. The health experience of workers exposed to plutonium provides important data to study the validity of such fears. The 50-y anniversary of plutonium exposures to a group of plutonium workers is a worthy time to take note of their experience.
Significant internal plutonium depositions occurred in a group of 26 young males who worked on the Manhattan Engineer District's Project "Y" at Los Alamos in 1944 and 1945. [....]
Hempelman et al. (1973) described the working conditions for these young men as "extraordinarily crude." Some procedures, such as centrifuging and weighing of plutonium, were done in open rooms. Ordinary open-faced chemical hoods offered the principal protection during chemical and metallurgical procedures. Half-faced, filter paper respirators used during most of this period were what was available in the 1940's and were not up to today's respiratory protection equipment standards. The plutonium recovery was perhaps the most hazardous operation and resulted in exposures to 14 of these individuals. [....] Inhalation of plutonium particles was the main exposure pathway for all these workers.
[....] This group of exposed workers has been examined medically about every five years since 1952.
This report includes the results of the last medical examinations done in 1991 and 1992 at Los Alamos.
[...]
The data on these 26 plutonium exposed workers have consistently indicated over the 50-y follow-up period that the mortality rates for all causes of death and for all cancers are not elevated compared with that of U.S. white males and unexposed Los Alamos workers with comparable hire dates. This finding differs from some popular misconceptions that large health risks occur with any exposure to plutonium.[....] As of the end of 1994, 7 individuals have died compared to an expected 16 deaths based on mortality rates of U.S. white males in the general population. The standardized mortality ratio (SMR) is 0.43. When compared with 876 unexposed Los Alamos workers of the same period, the plutonium worker's mortality rate was also not elevated (SMR = 0.77). The 19 living persons have diseases and physical changes characteristic of a male population with a median age of 72 y (range = 69 to 86 y).
<end quote>
 

As regards Radon, a very good paper is "Test of the linear-no threshold theory" by Bernard L. Cohen, in the February 1995 issue of Heath Physics.posted at http://www.phyast.pitt.edu/~blc/LNT-1995.PDF (8.8 MB PDF)


<quote>
A compilation has recently been completed of average indoor levels in 1,729 U.S. counties, over half of all U.S. counties and representing nearly 90% of the total U.S. population. [....] there is a strong tendency for lung cancer rates to decrease with increasing radon exposure....
<end quote>
 
 
More interesting reading :

http://lifestyle.scotsman.com/families/columnist_specific.cfm?articleid=2823&columnist=FC1


Radio head


Kath Gourlay, The Scotsman Tuesday, 6th March 2001


Eric Voice shows not the slightest emotion as he describes himself as "the most radioactive man on the planet". He speaks as precisely as he dresses; the pronouncement is not meant to shock or scare. Said by someone else, it could perhaps be taken for some kind of joke.


But Voice is not the sort of man for lighthearted distractions. For over a decade the retired nuclear scientist has voluntarily taken part in human experiments on the effect of plutonium to prove his belief that it has no harmful effect whatsoever on his health.


He has willingly allowed his body to be filled with plutonium - often described as the most dangerous substance known to man - first by injection and then through direct inhalation. Going to such lengths publicly to re-affirm his faith in its safety may horrify some but Voice stands by his convictions, believing that what he does is for the good of mankind.


"This fuss about plutonium is largely media hype," he says. "The truth of the matter is that it’s a well-known chemical element and there is nothing sinister about it."


Voice, 75, is a wiry man with steely blue eyes. He looks years younger than his age. It is hard to believe that half a century ago, he was one of the founder members of the CND movement with Bertrand Russell . He says he realised from an early age that making protests from outside achieved very little and felt more influence could be brought to bear working from within the industry.


His convictions go back 56 years to when he heard the news that an atomic bomb had been dropped on Hiroshima. "I was so appalled. The most momentous discovery and what had man done? He’d used it for aggressive purposes and sealed its fate for generations. I swore that from then on I’d work towards utilising this wonderful source of energy for the benefit of mankind."


Voice spent 15 years in biochemical research and 28 years in the nuclear industry, many as a chemist at Dounreay. One of the first scientists on the Dounreay site, he worked out of a Nissen hut while the complex was constructed, and still lives in the coastal town of Thurso.


Two years ago, Voice caused a stir by stating: "People still do not understand plutonium and there is such a lot of nonsense talked about it.


"There is no evidence that any human on Earth has suffered in health from plutonium and I have no adverse effects."


He remains convinced that nuclear power is our only hope for the future in the fight against global warming. The lengths to which he has gone to justify these beliefs are extraordinary.


His neighbours are used to the regular visits of an armoured van to pick up his bodily waste, for example. "The practicalities can be a bit irksome but I’m used to it. When I arrive at people’s houses with a carrier bag of bottles, people assume I’ve brought them a gift," he smiles. "When I explain I can’t use their facilities their expressions are extremely comical." Quite. Which invites the next question. He’s not in his first flush of youth, so what will happen to his body when he dies? His reply - "It has all been responsibly taken care of" - politely prohibits further discussion.


So what does he hope to prove by doing the experiments? "It is the duty of those involved in the industry to ensure strict safety limits for workers worldwide," he says. "That was always one of my aims and I feel I’ve done something useful and practical towards that end."


Voice, who is married, is fiercely protective of his family and refuses to discuss his wife or her reaction to what he is doing. "I have dedicated my life to improving standards in the nuclear industry," he says, "and I have no intention of letting myself or my family be a subject of tabloid interest." A more measured, precise and emotionally continent individual would be hard to find. He presents calmly reasoned arguments for everything he does or believes in.


In the mid 1990s Voice and other volunteers at AEA Technology’s biomedical research laboratories in Harwell, Oxfordshire, took part in a series of trials lasting several years. The experiments tracked the movement of plutonium in blood, bone and internal organs. The main trials involved injecting six men and six women with radioactive isotopes of plutonium 237.


"Plutonium 237 is a short-lived isotope with a half-life of only 45 days," says Voice. "And because it emits X-rays its journey can be tracked from outside the body and scientists could follow what it was doing. This was the first time this had been done on live humans."


The results of the trials, published in the National Radiological Protection Board’s internal newsletter, showed that, in males, plutonium injected into the bloodstream accumulated in the liver, but didn’t lodge in either bone or reproductive organs.


Voice is one of two volunteers who have recently taken the experiments a stage further. Several times a year, he would travel to Harwell. There, in a sealed room, he would breathe in plutonium through an inhaler-type device straight into his lungs. "We have learned a lot about what plutonium does in the bloodstream," he says. "The vital link being made now is how it gets into the bloodstream in the first place."


Voice inhaled a mixture of two isotopes, plutonium 244 and plutonium 239, the type found in nuclear reactors. They are both alpha-emitters, the most dangerous type of plutonium for causing biological damage. Voice says he is not afraid of causing fatal damage to his body. Even if he has, he says he will be dead before he feels the effects. "Plutonium 244 has an enormous half-life - something like 80 million years - so it’s a very slow emitter. I don’t think I need worry too much about what could happen in the rest of my lifetime." The results of the latest trials, which are still being analysed, will provide information on absorption levels in the lungs, and the speed at which plutonium travels to the gut.


What it’s doing in there is not something Eric Voice dwells on. He doesn’t have time. He is now acting as a consultant in a UK project on the use of what he describes as "safe reactors" (which are gas-cooled) for future production of electricity. He also gives lectures and acts a climate expert for the Highland Council.


"We’ve been given this amazing resource for the good of mankind, not for destruction," he says.


As he flies between venues, it is doubtful he will be able to resist informing fellow passengers of their close proximity to 20 kilos of depleted uranium. "Why don’t people think about why it’s referred to as ‘depleted’? Because they prefer to listen to media hype, that’s why." The radioactive element has been removed, he says. Less than 0.7 per cent remains - less than in naturally occurring uranium.


"It’s really useful because its mass-to-volume ratio means it provides weight without taking up space. It’s used for rudder balance in aircraft. It’s used in the keel of yachts too and nobody bats an eyelid."



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RE: pu-238 production is a disaster waiting to happen- opps, it already has!


Hi 10kBq Jaro,



   Yes, I am familiar with this well touted study of 26 workers exposed to pu-239. I was on the Idaho CDC citizen advisory panel years ago, when introduced to the study. The CDC stated the small number of people in the study, 26, was NOT appropriate to draw conclusions upon. That is also why it would be unfair for me to state that the one worker who died from a rare osteogenic sarcoma malignant bone cancer means that one in 26 DOE workers exposed to plutonium die from osteogenic sarcoma.



   Source: http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&l ist_uids=1856080&dopt=Abstract



 







1: Health Phys. 1991 Aug;61(2):181-90.
Related Articles,







Links



A 42-y medical follow-up of Manhattan Project plutonium workers.

Voelz GL, Lawrence JN.

Los Alamos National Laboratory, NM 87545.

Twenty-six white male subjects, who worked with plutonium (239Pu) during World War II at Los Alamos, have been given medical examinations periodically over a period of 42 y to identify potential health effects. Inhalation was the primary mode of Pu exposures. The latest examinations, including urine bioassay and in-vivo measurements for radioactivity, were performed in late 1986 and 1987. The average age of the 22 living subjects in 1986 was 66 y. The diseases and physical changes noted in these persons are characteristic of a male population in their 60s. Estimates of individual Pu depositions, including lung burdens, as of 1987 or at time of death range from 52 to 3180 Bq (1.4 to 86 nCi) with a median value of 500 Bq (13.5 nCi). Four persons from the original group had died as of 1987. The causes of death were lung cancer, myocardial infarction, accidental injury, and respiratory failure due to pneumonia/congestive heart failure. Expected deaths based on U.S. death rates of white males, adjusted for age and calendar year, are 9.2 based on U.S. rates (standardized mortality ratio = 0.41). Subsequent to 1987, three additional deaths occurred from atherosclerotic heart disease, lung cancer, and osteogenic sarcoma. The bone sarcoma case is discussed in terms of Pu exposure, the natural incidence of this disease, anatomical location of the tumor, and bone tumors observed in Pu-exposed dogs. Plutonium deposition in this man is estimated to have been below current radiation protection guidelines.
_______________________________________________

That brings us to the focus on the death rate. Yes, we can cure many cancers, so let's only examine death, not the "other" health effects.



    Most important to remember here are 2 things



1) This was pu-239 exposure, not the 275 times more alpha destructing emissions upon exposure, of the space batteries pu-238.



2) These were ALL exposures to ADULT working male immune systems. Even in non-nuclear work, epidemiology must compensate for "the healthy worker effect." My main point is this is NOT appropriate to compare with the scientifically documented radiation vulnerable fetal immune systen with rapid cell growth. This is no joke about fetal sensitivity. Leukemia was linked to fetal x-ray exposure before Dr's understood this key point.



   So, will you ever answer my original question, "How much pu-238 do you recommend for pregnant women?" 



    Perhaps all this documentation of your incorrectness has left you in the fetal position, where you can ponder the answer...



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"Blah blah blah" never anything new


stungun wrote


The Cassini is cited in these articles. As I have already stated, the Cassini, deep in their own documents, risked contaminating 2/3's of the world with a pu-238 burnup if they missed the sling shot acceleration manuever.


Note that true to form, after going around the solar system a few times and moving almost faste than anything else man-made before, they hit within 4  miles of their mark over the south Pacific. Please don't bring in that tired discredited anti-nuke hysteria from the past. I never heard any response from any of the protestors about whether a launch accident or even missing the mark on the interplanetary trajectory could possibly cause the complete vaporization of all the Pu in the RTG (especially the irrational hysteria over a possible launch accident). It seems to be taken for granted that it's packaged in the space probes in the perfectly ideal way to make a "Dirty Bomb".


> So basically these rocket scientists are willing to risk most of the world's environment and developing children for their project. That is unacceptable to me and most of the people on earth, who's health you appear willing to gamble with. We have plenty of science we can do, and new energy breakthroughs can be achieved that do NOT risk this assinine gamble.


Yes, can't trust those "Rocket Scientists". Evil geniuses all, who never had any motherly love and grew up to be misanthropic recluses who sit in their labs dreaming up horrendous things to threaten the world's good and decent people with.


 


BTW, give it a rest.


> How much pu-238 do doctors recommend for pregnant women? The answer is zero because of the radiosensitivity in the womb.


 


How about something truly refreshing: some constructive criticism and useful ideas about specifically how things could be made safer and cleaner. I stand second to none in my distaste and revulsion for making every great discovery in human history into a weapon first. Nobody outspeaks me in my mistrust for the military/industrial complex and it's distortion of science and politics and society throughout history -for oil!-, but I refuse to accept that all such technology is inherently evil and without any redeeming features whatsoever. I recall the late Dr. Theodore Taylor as reported by George Dyson: "When we first open the pandora's box which is nuclear energy, all these horrible things immediately evident on the surface pop out, and we turn away and must say 'no, no, we cannot do these things.' But if we dig a little deeper, we find the really important content of the box, down near the bottom, which is hope."


 I'll debate at great length and in detail about the imperative as I see it to consider Nuclear Pulse rockets, even including good old-fashioned dirty inefficient Atom-Bomb powered "Bang-Bang" Orion.


 You mentioned DS 1 & Rosetta as examples of how we can go into deep space without nuclear power. Anything about how we can go out into deep space in a direction away from the Sun? Important distinction there. I don't doubt that we could innovate ways to use solar energy in space probes built and launched with today's boosters out past a couple of AU, but why never any recommendations of departments or projects that deserve a lot more money to R&D these things for use within the timeline of today's engineer's lifetimes. Always gripes about Nukes, mentions of a few 1 AU or so probes, and urgings to cut the space program either partially or in toto.


Please continue here and give us more reasonable arguments about our contention of the basic need for nuclear power in space. As Freeman Dyson said about Orion, there's just nothing in our human toolbox which is adequate to the true scale of the solar system.



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RE: pu-238 production is a disaster waiting to happen- opps, it already has!


Hi John,


   You seem to think inhalation of pu-238 is an acceptable inconsequecial event. I have pasted Dr Scott's DOE worker dosimetry paper before, but you are a newbie. Please check my posts via the icons to see the full argument, or I could just repeat myself agin, and correct you as you rant...


  Please look for the other posts on the ongoing pu-238 accidents at LANL, in modern time. Workers exceeded their 5,000 mrem annual limit with brief inhalation. How much would you recommend for pregnant women downwind of the pu-238 production plants?


     Your attempt to pooh-pooh solar deep space exploration emphasizes that pu-238 can go deeper, away from the sun. That doesn't mean a lot to the local peasants in Idaho, who are being forced to produce more pu-238 for your deep space wet dreams...


  From da Nat'l Academy of Science guy, Dr Scott...


"Consideration of the SE paradigm is important because intake of only a few highly radioactive PuO2 particles such as 238PuO2, could greatly exceed the annual limit on intake (ALI) used to control worker exposure." ...


"Thus, rather than addressing questions such as 'Did the calculated worker's intake of 238PuO2 exceed the ALI?', it is better to address questions such as 'What is the probability that 238PuO2 intake by a given worker occurred and exceeded the ALI?' "


   


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Radiation Protection Dosimetry



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Articles by Fencl, A.F. Radiation Protection Dosimetry 83:221-232 (1999)
© 1999 Oxford University Press


Variability in PuO2 Intake by Inhalation: Implications for Worker Protection at the US Department of Energy B.R. Scott and A.F. Fencl


This paper describes the stochastic exposure (SE) paradigm where, at most, small numbers of airborne toxic particles are presented for inhalation. The focus is on alpha-emitting plutonium dioxide (PuO2) particles that may be inhaled by Department of Energy (DOE) workers. Consideration of the SE paradigm is important because intake of only a few highly radioactive PuO2 particles such as 238PuO2, could greatly exceed the annual limit on intake (ALI) used to control worker exposure. For the SE paradigm, credible intake distributions evaluated over the population at risk are needed, rather than unreliable point estimates of intake. Credible distributions of radiation doses and health risks are also needed. Because there are limited data on humans who inhaled PuO2, these distributions must be calculated. Calculated distributions are presented that relate to the intake of radioactivity via inhaling polydisperse PuO2 particles. The results indicate that a large variability in radioactivity intake is expected when relatively small numbers of PuO2 particles are inhaled. For the SE paradigm, one cannot know how many PuO2 particles were inhaled by an individual involved in a given inhalation exposure scenario. Thus, rather than addressing questions such as 'Did the calculated worker's intake of 238PuO2 exceed the ALI?', it is better to address questions such as 'What is the probability that 238PuO2 intake by a given worker occurred and exceeded the ALI?' Mathematical tools for addressing the latter question are presented, and examples of their applications are provided, with emphasis on possible DOE worker exposures at the Rocky Flats facility near Denver, Colorado. The alpha-emitting isotopes 238Pu, 239Pu, 240Pu and 242Pu are found at Rocky Flats. Although 238Pu is thought to be present in relatively small amounts there, intake via inhalation of only a few 238PuO2 particles could greatly exceed the ALI.



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Dr. Peter Rickards DPM


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I'll work out a longer & better reply later.
For now...

> You seem to think inhalation of pu-238 is an acceptable
inconsequecial event. I have pasted Dr Scott's DOE worker
dosimetry paper before, but you are a newbie. Please check
my posts via the icons to see the full argument, or I could just
repeat myself agin, and correct you as you rant..


First, I'm not a newbie. Others might remember me for years at various nuclear space exploration lists/boards/servers (always with my own name and true profile info, BTW), and I've never gone for character assassinations (unless the opponent has gone overboard to make themselves into an idiot with no concerns for good debate or 'netiquette).
"Attack ideas, not people" is the way it goes. This board and this topic as much as any other.

I was careful to not ascribe hysterical anti-nuke/anti-space exploration ideas to you, though you're skating a fine line, and getting closer.

Don't bother repeating yourself. (Especially the emotionally laden rant about forcing pregnant women to inhale Pu. It's getting tiring.) I will repeat myself a bit:

How about something truly refreshing: some constructive criticism and useful ideas about specifically how things could be made safer and cleaner.
...
Please continue here and give us more reasonable arguments about our contention of the basic need for nuclear power in space. As Freeman Dyson said about Orion, there's just nothing in our human toolbox which is adequate to the true scale of the solar system.


I hope I've established that I approve of it being clean and safe. I for one couldn't be enthusiastic about a nuclear-powered space program is it weren't run any better than the Cold-War era Soviet's maintenance of the Kola Peninsula or deactivated & dilapidated SSNs, or what the DOD/DOE has done and allowed.

I've gone a ways towards being conciliatory towards safety and responsibility. Can you unbend to discussing the prospects for what we're talking hopefully about here, or just ever more irrational accusations and repeated rantings?

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Hi John,


   Your last post claims you only argue facts, and do not attack people saying,"I've never gone for character assassinations.."


   You warn me, "I was careful to not ascribe hysterical anti-nuke/anti-space exploration ideas to you, though you're skating a fine line, and getting closer."


    That sounds swell, John, but your first email contradicts this high road you now stake out for yourself. Let's see...your first email was titled, "Blah blah blah Never anything new." You then take my accurate quote of the Cassini EIS and say,"Please don't bring in that tired discredited anti-nuke hysteria from the past."


   Now you claim you never do that...MMM'KAY! Your quote is on this web thread, but denial is fun...


   You finish your factless attack by admonishing, "BTW, give it a rest." Ummm, I thought you "attack ideaes, not people," so where is your scientific rebuttal to the Dr Scott paper, or the ONGOING pu-238 accidents at LANL, or the Nat'l Academy of Sciences advice spawned by my HEPA filter testimony. That NAS advice, that I have posted here, calls for TRU projects to have "emission free treatments."


     The fact that pu-238 is uncontainable, and extremely high dose with single particle inhalation, is very important to pregnant women downwind of these factories. You say that is tired and old, but where is your technical response?


 



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   Hi there,


     I wanted to ask, just how serious is Plutonium to humans, and pregnant women in particular? My understanding was that it was an alpha emitter (as stated a couple of times), and that alpha emitters are locally dangerous to tissue, as alpha radiation is comprised of basically a stripped down hydrogen atom sans electron. But it does not effectively penetrate tissue very far.


     So if it were a health concern to pregnant women, it would presumably have to be small enough to move through the blood stream and into the placenta in order to be detrimental to a fetus. This would require a certain partial size to be (I hate to use the word in this case) "efficient" at moving from the lungs (as that would be the presumed point of entry) and into the bloodstream. Obviously, if it were too large, it would be unable to effectively move into the bloodstream and be either lodged in the lungs (a plutonium version of silicosis) or passed out with the help of a cough and a lot of mucus.


    I understand that Pu-238 is used in RTG's (the whole purpose in making the stuff in the first place) and that large quantities produce heat, so naturally production would have to be in small unit sizes. But I was wondering what size chunks are produced? is there a real risk of this stuff naturally producing "dust" sized particles, and what are the inherent risks in refining and transporting refined Pu-238? Is the risks that stungun is stating about the concern of HEPA filters valid in the respect that producing Pu-238 lends itself to a serious health concern? Are the physical characteristics of Pu-238 metal such that it would pose a hazard in it's physical properties as it relates to production and refinement? Are industry standards for Pu-238 geared to addressing the health concerns in it's manufacture?


   I think ultimately, if I were in Stunguns position (that is, if someone decided to open a Pu-238 factory in my backyard) I would be justifiably concerned. But I was struck by one observation made in one of the posts on this thread about Radon. While Radon could (and probably does) produce a significant portion of the ambient radiation in our environment. Living in New England (where Radon is a serious issue) most people would not associate Radon with radiation at all. So while people may be concerned or annoyed if there was radon buildup in there basement. They may have a far greater reaction to a discussion of a Plutonium factory that could pose a potential for exposure to radiation that they are already getting when they go to check the oil levels to there furnace.



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Hi Roland,

One of the concerns regarding Pu-238 is the activity level. Typically Pu-239 (the fissile isotope used in nuclear weapons) has a half-life of about 24,900 years, while Pu-238 has a half-life of about 87 years. What this means is that Pu-238 has just about 24900/87=286 times the activity level of an equivalent mass of Pu-239. Because of the high decay rate, Pu-238 dust mitigation is a concer.

What is in dispute is the relative efficiency of filters (HEPA) in removing particulates; wether imbedded particles can migrate through the pores of the filters by alpha-recoil transport; and to what degree will sub-micron particles pass completely through the pores. For me, I think that most of the potential problems, safety and security concerns have been answered. Others are not conviced--and I suspect will never be. And that's O.K.

Pu-238 is a useful material for powering RTG's, but it is by no means the only way to generate and utilize nuclear power. Compact fast-fission nuclear reactors will be needed to power the more capable missions of the future anyways. Still, RTG's will be needed for the upcoming Mars Science Laboratory, or MSL, which will be the bigger cousin of the Mars Exploration Rovers: Spirit and Opportunity. The MSL will be bigger and more capable, and the RTG will be able to keep the batteries and electrons toasty warm for a long duration mission (perhaps as long as 2 Martian years, about 4.5 Earth years.)


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Hi Roland and Googlenaut,


    The questions are good Roland. While radon is an alpha emitter, and considered the second leading cause of lung cancer, the main difference is that radon is a gas, and the pu-238 escapes in dust size, sub-micron particulate. Even the tiniest particles , when inhaled, provide on ongoing point of perpetual radiation, because they have thousands of atoms, vs radon gas, which is one atom. The problem in radon houses is the trapping of the radon, providing multiple random alpha strikes.


     Internally, the pu-238 can be absorbed, and usually shows up in nearly all organs. It can even be mistaken for iron, and used for hemoglobin in blood cells.


   In the CDC historical dose at LANL, the pu showed up in elevated levels, in autopsies of citizens who never worked there. Opps, DOE likes to emphasize, that yes, you might exhale the pu-238 you inhale, or cough it out. Seems like plenty stuck around for an ongoing body burden...


    In the ongoing modern LANL pu-238 accidents, workers were exposed to greater than their 5,000 mrem annual limit. The legal public safety limit is 10 mrem, or about a chest x-ray's worth. But doctors in the ER don't give pregnant women x-rays, to protect the fetus, unless the mother's life is in danger.


   Googlenaut, you summized the HEPA issue well, but is there any documentation behind your conclusion that all is well, and the classic "some people will never be convinced" comment? I have consulted Dr Liu, as written, and have suggested the testing method to finally quantify how much pu-238 dust whispers through. DOE has refused to do these studies. I have shown the scant DOE documents proving the filters leak, so where is the science in your rebuking the concerns?



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Dr. Peter Rickards DPM


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Hello Stungun,

Everybody certainly agree that industrial activities that involve hazardous material (like Pu-238) must be carried out with much care and safety measures. I believe that accident mitigation should not be too difficult in this case; it is regretable if the production of Pu-238 has been carried out in an unacceptably sloppy way.

But I would like to ask you: are you against uses of plutonium for space applications, or are you for an improvement of the way it is managed? With your way of agrumenting, one gets the impression that plutonium is so dangerous a thing that it should never be produced or manipulated ever. This is bad publicy for the space industry and for nuclear industry, which are not the ones to blame.

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Hi Philipum,


You asked : are you against uses of plutonium for space applications, or are you for an improvement of the way it is managed?


    That's a fair question. I would say "Yes and yes!" 


     Specifically, I am pointing out the present, documented, flaws of pu-238 containment. I do this at official scoping hearings, calling for official acknowledgement of the problems, and scientific approaches to revealing how much pu-238 really escapes the filters.


    This has NOT been done by DOE. My impression is that it is presently physically impossible to contain the pu-238. So that would make me oppose pu-238 production, because "improvement of the way it is managed" is fruitless, if it is technically impossible. If the basics of containment are worked out, I am open to it's use, but I doubt that will happen.


    From reading the DOE worker accident reports, it seems that despite "triple safety measures", and plenty of brain power, the phrase "unforeseen circumstances" still keeps popping up in the next accident report.


    So knowing that, and having read the crash vulnerabilities of the final "contained" RTG, I presently oppose it for space exploration, and the "national security" applications. It is too large a risk, when we can do solar space exploration. We need to  work on cleaner energy forms, instead of going full speed down the present deadend road, wearing blinders...



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Pu-238 production is necessary and is done safely !!!


 


http://lists.radlab.nl/pipermail/radsafe/2005-October/001063.html


 



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RE: pu-238 production is a disaster waiting to happen- opps, it already has!


Hi Jaro,


   You have articulated better than usual! It is nice you have a pro-nuke email discussion reference for your debate on a minor point of what I said. My reference would be the actual CDC study I referred to.  


     I noticed the guy downplayed the higher than background pu in autopsies of citizens who never worked there, and I didn't see your reference for how much plutonium you were recommending for pregnant women though


    If you  are wanting the exact CDC statement on excess pu in citizen autopsies around LANL. PLEASE see p 111 of 397 from this LANL CDC report from CDC website. Third paragraph...


  It is their Interim report, but officially posted on CDC web http://www.shonka.com/ReConstructionZone/pubs/Version%203B%20July%2027%20ws.pdf





puzzle

The Los Alamos Historical Document Retrieval and Assessment (LAHDRA) Project is assembling pieces of Los Alamos National Laboratory's history to evaluate releases of materials that had the potential



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The Cassini is cited in these articles. As I have already stated, the Cassini, deep in their own documents, risked contaminating 2/3's of the world with a pu-238 burnup if they missed the sling shot acceleration manuever. How much pu-238 do doctors recommend for pregnant women? The answer is zero because of the radiosensitivity in the womb.

38 kilograms of plutonium will be scattered in 5100000000000000 tons of air, and much more earth and water. A terrible accident, as it increases the 0,000000000000000001th of the natural radioisotopes already found in both air and sea.

And where did you get the idea of 2/3th of the world? Let me guess the TV, right?

[sarcasm/]

Also, allot of launches have been done those familiar to what Cassini-Huygens has done. And guess what? It worked fine. Cassini-Huygens probe has done its mission as it should have, and it discovered various interesting things of our solar system. It was a success.

Oh, and I recommend this little homework here: http://saturn.jpl.nasa.gov/spacecraft/safety-eis.cfm

Googlenaut, you summized the HEPA issue well, but is there any documentation behind your conclusion that all is well, and the classic "some people will never be convinced" comment?

My guess, is that some people never let the facts get into the way of their argument.

We need to work on cleaner energy forms, instead of going full speed down the present deadend road, wearing blinders...

Great, just answer one little, tinny question: WHAT alternatives?

Because last I checked, making super-technologies isn't the a question of motivation, because we can't just pull them out of our anus like we do with our feces. Technology is a bit more complicated then that. Talk on the other hand, just needs to come on the other way out.

Do you have an alternative? You certainly don't suggest one, and until you do, you only invalidate your opinion further.

I noticed the guy downplayed the higher than background pu in autopsies of citizens who never worked there, and I didn't see your reference for how much plutonium you were recommending for pregnant women though

Oh, of course, because we will let pregnant women in the facility to handle materials that requires a hazmat suit to work. We will crush the hardly-made plutonium so they can sniff it in as much as possible.

[sarcasm/]

This is always your point "what about the pregnant women"? Well, do you think they will let pregnant women to work with such materials? Last I checked, Pu-238 is a heavy and expensive material, unlikely to get out of containment let alone the building where it is produced.

If you want to protect pregnant women so much, how about getting some of them off of smoking? More babies are deformed by smoking women then by those inhaling plutonium. Oh, and lets not forget genetic diseases, unfavoured mutations, various chemicals the women eats, drinks and breaths (all non-radioactive!) daily.

So tell me, do you have anything other to say then "OMG THE PREGANNT WOMEN! THINK OF THE PREGNANT WOMEN, YOU MONSTER!"? Because you're point always ends with them.

You claim to be a doctor, but a doctor of what? Law?

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