The eleventh hilarious title in the award-winning, laugh-out-loud series, The World of Norm. Perfect for fans of Tom Gates and Diary of a Wimpy Kid. Norm knew it was going to be one of those days when he woke up and nothing happened ... Home alone and the fridge to himself? What could possibly go wrong? Well, apart from the snails. And having to hang his mum's pants out to dry. And the dreaded perfect cousins paying a visit. And worst of all, the entire family going vege-flipping-tarian! But apart from that, what could possibly go wrong? You'd think Norm would know better by now, wouldn't you? ABSO-FLIPPING-LUTELY! With brilliantly funny illustrations throughout from Donough O'Malley. Praise for Jonathan Meres: 'Hilarious stuff from one of my comic heroes!' - Harry Hill 'Jonathan Meres is flipping funny!' - Eddie Izzard About This Edition ISBN: Over 95% of the market for zirconium requires it in the form of zircon (zirconium silicate). This mineral occurs naturally and is mined, requiring little processing. It is used chiefly in foundries, refractories manufacture and the ceramics industry. Zircons typically have activities of up to 10,000 Bg/kg of U-238 and Th-232. No attempt is usually made to remove radionuclides from the zircon as this is not economical. Because zircon is used directly in the manufacture of refractory materials and glazes, the products will contain similar amounts of radioactivity. Higher concentrations may be found in zirconia (zirconium oxide), which is produced by high temperature fusion of zircon to separate the silica. Zirconium metal manufacture involves a chlorination process to convert the oxide to zirconium chloride, which is then reduced to the metal. In Australia the NSW Aboriginal Lands Council has applied for a uranium exploration licence over four large coal ash dams adjacent to power stations. Coal mining NORM results from activities such as burning coal, making and using fertilisers, oil and gas production. It is evident that even at 1 part per million (ppm) U in coal, there is more energy in the contained uranium (if it were to be used in a fast neutron reactor) than in the coal itself. If coal had 25 ppm uranium and that uranium was used simply in a conventional reactor, it would yield half as much thermal energy as the coal.

The main radionuclide in scrap from the oil and gas industry is radium-226, with a half-life of 1600 years as it decays to radon. Those in nuclear industry scrap are cobalt-60 and caesium-137, with much shorter half-lives. Application of a 0.3 mSv/yr dose limit results in a clearance level for Ra-226 of 500 Bq/kg for oil/gas scrap, compared with 10 Bq/kg for nuclear material. International Atomic Energy Agency, 2014, Radiation Protection and Safety of Radiation Sources: International Basic Safety Standards, STI/PUB/1578 (July 2014) The amounts of radionuclides involved are noteworthy. US, Australian, Indian and UK coals contain up to about 4 ppm uranium, those in Germany up to 13 ppm, and those from Brazil and China range up to 20 ppm uranium. Thorium concentrations are often about three times those of uranium. Tantalum usually occurs with the chemically-similar niobium, often in tantalite and columbite, coltan (columbite + tanatalite), or polychlore (niobium). Tantalum ores, often derived from pegmatites, comprise a wide variety of more than a hundred minerals, some of which contain uranium and/or thorium. Hence the mined ore and concentrate contain both these and their decay products in their crystal lattice. Concentration of the tantalum minerals is generally by gravity methods (as with mineral sands), so the lattice-bound radioisotope impurities if present will report with the concentrate. The list of isotopes that contribute to natural radiation can be divided into those materials which come from the ground (terrestrial sources – the vast majority) and those which are produced as a result of the interaction of atmospheric gases with cosmic rays (cosmogenic).

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Language - this is for primary school-children, and they can wait to use mild profanity like 'Gordon-Flipping-Bennet.' That's very annoying. Phosphoric acid is an intermediate step in almost all phosphate applications. Production requires first the beneficiation of the ore, followed by acid leaching and separation. In general the beneficiation stage does not result in a reduction of NORM in the ore.

Gabbard, A. 1993, Coal Combustion: Nuclear Resource or Danger?, Oak Ridge National Laboratory Review, Vol. 26, Nos. 3&4 NORM potentially includes all radioactive elements found in the environment. However, the term is used more specifically for all naturally occurring radioactive materials where human activities have increased the potential for exposure compared with the unaltered situation. Concentrations of actual radionuclides may or may not have been increased; if they have, the term technologically-enhanced NORM (TENORM) may be used. The first four columns represent four of the 14 nuclides in the uranium decay series, the next two represent two of 10 in the thorium series. (For total activity in any coal, assume these are in serial equilibrium, hence multiply U-238 by 14 and Th-232 by 10, then add K-40.) Over the years there have been many occasions when it was asserted that coal-fired power stations emitted more radioactivity into the environment (from NORM) than was released anywhere in the nuclear fuel cycle. While having some basis in fact, the claim is generally not correct now where deployment of emission reduction technology– scrubbers, filters and flue gas desulphurization– acts to capture solids from this material.More volatile Po-210 and Pb-210 still escape. In China, coal-fired power plants are a major source of radioactivity released to the environment and thus contribute significantly to enhanced NORM there. (Wu et al in NORM VII) NORM in the oil and gas industry poses a problem to workers particularly during maintenance, waste transport and processing, and decommissioning. In particular Pb-210 deposits and films, as a beta emitter, is only a concern when pipe internals become exposed. External exposure due to NORM in the oil and gas industry are generally low enough not to require protective measures to ensure that workers stay beneath their annual dose limits (such as set out by the IAEA basic safety standards). Internal exposures can be minimized by hygiene practices. Metals and smeltingA survey of 44 Chinese coal mines (40 of which were underground operations) indicated that radon concentrations in 15% of them were above 1000 Bq/m 3. (NORM VII proceedings, IAEA 2015) Oil and gas production Another NORM issue relates to radon exposure in homes, particularly those built on granitic ground. Occupational health issues include the exposure of flight crew to higher levels of cosmic radiation, the exposure of tour guides to radon in caves, exposure of miners to radon underground, and exposure of workers in the oil & gas and mineral sands industries to elevated radiation levels in the materials they handle. NORM sources Gonzalez, A, J., 2011, Radiation Protection, presentation given at the World Nuclear University Event –‘Key Issues in the World Nuclear Industry Today’, Ulaanbaatar, Mongolia. Mineral sands contain zircon, ilmenite, and rutile, with xenotime and monazite. These minerals are mined in many countries and production amounts to millions of tonnes per year of zirconium and titanium (from rutile and ilmenite), though thorium, tin and the rare earth elements are associated. The NORM aspect is due to monazite – a rare earth phosphate containing a variety of rare earth minerals (particularly cerium and lanthanum) and 5-12% (typically about 7%) thorium, and xenotime – yttrium phosphate with traces of uranium and thorium.

One afternoon, the boys are riding their bikes outside Norm's house. By accident, Mikey crashes into Norm's garage and smashes a valuable china tea set. Unfortunately, Norm's teenage neighbour, Chelsea, films the whole thing and posts the video on YouTube! This means war and Norm's determined to get his revenge... Treatment with sulfuric acid leads to the production of gypsum (phosphogypsum) which retains about 80% of Ra-226 and 30% of Th-232 and 14% of U-238. This means that uranium and thorium are enhanced to about 150% of the value of the beneficiated ore, making it a significant NORM. This gypsum can either be sold or disposed of. In the USA, the use of phosphogypsum with a radioactivity greater than 370 Bq/kg is banned by the Environmental Protection Authority. Gypsum can either be disposed of in piles or discharged to rivers and the sea. Some leaching from the material is possible. Gypsum wastes can have radioactivity levels up to 1700 Bq/kg. Scales from the sulfuric acid process are formed in the pipes and filtration systems of plants and need to be cleaned or replaced periodically. While much smaller in volume than gypsum, these wastes can be much more radioactive – even over 1MBq/kg. Radon also occurs in natural gas at up to 37,000 Bq/m 3, but by the time it gets to consumers the radon has largely decayed. However, the solid decay products then contaminate gas processing plants, and this manifestation of NORM is an occupational health issue, as discussed above.

Radon in homes is one occurrence of NORM which may give rise to concern and action to control it, by ventilation. Radon exposure is often an issue in metal mines, and a survey of 25 underground mines in China showed six having radon concentrations of over the control limit of 1000 Bq/m 3. In all the metal mines the annual average effective dose from radon and radon progeny was 7.75 mSv. Mineral sands The first hilarious title in the award-winning, laugh-out-loud series, The World of Norm. Perfect for fans of Tom Gates and Diary of a Wimpy Kid.