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In theory, deuterium for heavy water could be created in a nuclear reactor, but separation from ordinary water is the cheapest bulk production process. The world's leading supplier of deuterium was Atomic Energy of Canada Limited until 1997, when the last heavy water plant was shut down.
Since one in about every 6,400 hydrogen atoms is deuterium, a 50-kilogram (110 lb) human containing 32 kilograms (71 lb) of body water would normally contain enough deuterium (about 1.1 grams or 0.039 ounces) to make 5.5 grams (0.19 oz) of pure heavy water, so roughly this dose is required to double the amount of deuterium in the body.
The Girdler sulfide (GS) process, also known as the Geib–Spevack (GS) process, [1] is an industrial production method for extracting heavy water (deuterium oxide, D 2 O) from natural water. Heavy water is used in particle research, in deuterium NMR spectroscopy, deuterated solvents for proton NMR spectroscopy, heavy water nuclear reactors (as ...
Deuterium thus has about twice the atomic mass as 1 H. Heavy water molecules contain two deuteriums instead of two 1 H atoms. The hydrogen in normal water is about 99.97% 1 H (by weight). [2] Production of heavy water involves isolating and removing deuterium-containing isotopologues within natural water. The by-product of this process is DDW. [3]
In physical cosmology, Big Bang nucleosynthesis (also known as primordial nucleosynthesis, and abbreviated as BBN) [1] is a model for the production of light nuclei, deuterium, 3 He, 4 He, 7 Li, between 0.01s and 200s in the lifetime of the universe. [2]
The CANDU (CANada Deuterium Uranium) is a Canadian pressurized heavy-water reactor design used to generate electric power. [1] The acronym refers to its deuterium oxide ( heavy water ) moderator and its use of (originally, natural ) uranium fuel.
In addition, the use of heavy water as a moderator results in the production of small amounts of tritium when the deuterium nuclei in the heavy water absorb neutrons, a very inefficient reaction. Tritium is essential for the production of boosted fission weapons , which in turn enable the easier production of thermonuclear weapons , including ...
Nuclear fusion is the process that powers all active stars, via many reaction pathways. Fusion processes require an extremely large triple product of temperature, density, and confinement time. These conditions occur only in stellar cores , advanced nuclear weapons , and are approached in fusion power experiments .