RBS
Information on the "Radioactive Boy Scout" incident
Main article: http://harpers.org/archive/1998/11/the-radioactive-boy-scout/1/
No one "...knows the real reason that the Environmental Protection Agency briefly invaded their neighborhood. When asked, most mumble something about a chemical spill. The truth is far more bizarre: the Golf Manor Superfund cleanup was provoked by the boy next door, David Hahn, who attempted to build a nuclear breeder reactor in his mother’s potting shed as part of a Boy Scout merit-badge project."
"He told me how he used coffee filters and pickle jars to handle deadly substances such as radium and nitric acid, and he sheepishly divulged the various cover stories and aliases he employed to obtain the radioactive materials."
"David’s parents admired his interest in science but were alarmed by the chemical spills and blasts that became a regular event at the Hahn household. After David destroyed his bedroom—the walls were badly pocked, and the carpet was so stained that it had to be ripped out—Ken and Kathy banished his experiments to the basement."
"David was expelled from camp when—while most of his friends were sneaking into the nearby Girl Scouts’ camp—he stole a number of smoke detectors to disassemble for parts he required for his experiments"
"the house was rocked by an explosion in the basement. There they found David lying semiconscious on the floor, his eyebrows smoking. Unaware that red phosphorus is pyrophoric, David had been pounding it with a screwdriver and ignited it"
"David was awarded his Atomic Energy merit badge on May 10, 1991....he made a drawing showing how nuclear fission occurs, visited a hospital radiology unit to learn about the medical uses of radioisotopes "
"All reactors, conventional and breeder, rely on a critical pile of a naturally radioactive element—typically uranium-235 or plutonium-239—as the “fuel” for a sustained chain of reactions known as fission. Fission occurs when a neutron combines with the nucleus of a radioisotope, say uranium-235, transforming it into uranium-236. This new isotope is highly unstable and immediately splits in half, forming two smaller nuclei, and releasing a great deal of radiant energy (some of which is heat) and several neutrons. These neutrons are absorbed by other uranium-235 atoms to begin the process again."
"A breeder reactor is configured so that a core of plutonium-239 is surrounded by a “blanket” of uranium-238. When the plutonium gives off neutrons, they are absorbed by the uranium-238 to become uranium-239, which in turn decays by emitting beta rays and is transformed into neptunium-239. Following another stage of “radioactive decay,” neptunium becomes plutonium-239, which can replenish the fuel core."
"Geiger-counter kit he ordered from a mail-order house in Scottsdale, Arizona, which he assembled and mounted to the dashboard of his burgundy Pontiac 6000."
"David typed up a list of sources for fourteen radioactive isotopes..Americium-241, he learned from the Boy Scout atomic-energy booklet, could be found in smoke detectors; radium-226, in antique luminous dial clocks; uranium-238 and minute quantities of uranium-235, in a black ore called pitchblende; and thorium-232, in Coleman-style gas lanterns."
"To obtain americium-241, David contacted smoke-detector companies and claimed that he needed a large number of the devices for a school project. One company agreed to sell him about a hundred broken detectors for a dollar apiece."
"each detector contains only a tiny amount of americium-241, which is sealed in a gold matrix “to make sure that corrosion does not break it down and release it.” Thanks to Weber’s tip, David extracted the americium components and then welded them together with a blowtorch."
"David put the lump of americium inside a hollow block of lead with a tiny hole pricked in one side so that alpha rays would stream out. In front of the lead block he placed a sheet of aluminum. Aluminum atoms absorb alpha rays and in the process kick out neutrons...paraffin throws off protons when hit by neutrons. David aimed the apparatus at some paraffin, and his Geiger counter registered..."
"he obtained a few samples of a black ore—either pitchblende or uranium dioxide, both of which contain small amounts of uranium-235 and uranium-238."
"David pulverized the ores with a hammer, thinking that he could then use nitric acid to isolate uranium...He then mixed the acid with the powdered ore and boiled it, ending up with something that “looked like a dirty milk shake.” Next he poured the “milk shake” through a coffee filter, hoping that the uranium would pass through the filter. But David miscalculated uranium’s solubility, and whatever amount was present was trapped in the filter, making it difficult to purify further."
"Frustrated at his inability to isolate sufficient supplies of uranium, David turned his attention to thorium-232, which when bombarded with neutrons produces uranium-233, a man-made fissionable element (and, although he might not have known it then, one that can be substituted for plutonium in breeder reactors). "
"the “mantle” used in commercial gas lanterns—the part that looks like a doll’s stocking and conducts the flame—is coated with a compound containing thorium-232"
"lithium is prone to binding with oxygen—meaning, in this context, that it would rob thorium dioxide of its oxygen content and leave a cleaner form of thorium. David purchased $1,000 worth of lithium batteries and extracted the element by cutting the batteries in half with a pair of wire cutters. He placed the lithium and thorium dioxide together in a ball of aluminum foil and heated the ball with a Bunsen burner. Eureka! David’s method purified thorium to at least 9,000 times the level found in nature and 170 times the level that requires NRC licensing."
"could have used his americium neutron gun to transform thorium-232 into fissionable uranium-233. But the americium he had was not capable of producing enough neutrons, so he began preparing radium for an improved irradiating gun."
"one day, driving through Clinton Township to visit his girlfriend, Heather, he noticed that his Geiger counter went wild as he passed Gloria’s Resale Boutique/Antique...David bought the clock for $10. Inside he discovered a vial of radium paint left behind by a worker"
"To concentrate the radium, David secured a sample of barium sulfate from the X-ray ward at a local hospital (staff there handed over the substance because they remembered him from his merit-badge project) and heated it until it liquefied. After mixing the barium sulfate with the radium paint chips, he strained the brew through a coffee filter into a beaker that began to glow. This time, David had judged the solubility of the two substances correctly; the radium solution passed through to the beaker. He then dehydrated the solution into crystalline salts, which he could pack into the cavity of another lead block to build a new gun."
"he secured a strip of beryllium (which is a much richer source of neutrons than aluminum)...was now a more powerful radium gun. David began to bombard his thorium and uranium powders in the hopes of producing at least some fissionable atoms. He measured the results with his Geiger counter, but while the thorium seemed to grow more radioactive, the uranium remained a disappointment."
"David’s neutrons were too “fast” for the uranium). "
"He would have to slow them down using a filter of water, deuterium, or tritium. Water would have sufficed, but David likes a challenge."
"He removed the tritium contained in a waxy substance inside the sights, and then, using a variety of pseudonyms, returned the sights to the store or manufacturer for repair—each time collecting another tiny quantity of tritium. When he had enough, David smeared the waxy substance over the beryllium strip and targeted the gun at uranium powder. He carefully monitored the results with his Geiger counter over several weeks, and it appeared that the powder was growing more radioactive by the day."
"Now seventeen, David hit on the idea of building a model breeder reactor. He knew that without a critical pile of at least thirty pounds of enriched uranium he had no chance of initiating a sustained chain reaction, but he was determined to get as far as he could...David took the highly radioactive radium and americium out of their respective lead casings and, after another round of filing and pulverizing, mixed those isotopes with beryllium and aluminum shavings, all of which he wrapped in aluminum foil. What were once the neutron sources for his guns became a makeshift “core” for his reactor. He surrounded this radioactive ball with a “blanket” composed of tiny foil-wrapped cubes of thorium ash and uranium powder, which were stacked in an alternating pattern with carbon cubes and tenuously held together with duct tape."
"“It was radioactive as heck,” he says. “The level of radiation after a few weeks was far greater than it was at the time of assembly. I know I transformed some radioactive materials. Even though there was no critical pile, I know that some of the reactions that go on in a breeder reactor went on to a minute extent.”"
"warned him that real reactors use control rods to regulate nuclear reactions. Miller recommended cobalt, which absorbs neutrons but does not itself become fissionable...David purchased a set of cobalt drill bits at a local hardware store and inserted them between the thorium and uranium cubes. But the cobalt wasn’t sufficient. When his Geiger counter began picking up radiation five doors down from his mom’s house, David decided that he had “too much radioactive stuff in one place” and began to disassemble the reactor. He placed the thorium pellets in a shoebox that he hid in his mother’s house, left the radium and americium in the shed, and packed most of the rest of his equipment into the trunk of the Pontiac 6000."
