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mfeneley
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Hello everyone. I am trying to isolate heavy water from regular tap water. It turns out to be much more difficult than I expected. Anyone have some advice or a relatively inexpensive method of doing this?
http://en.wikipedia.org/wiki/Heavy_water#ProductionThe HDO may be separated from regular water by distillation or electrolysis and also by various chemical exchange processes, all of which exploit a kinetic isotope effect. (For more information about the isotopic distribution of deuterium in water, see Vienna Standard Mean Ocean Water.)
The difference in mass between the two hydrogen isotopes translates into a difference in the zero-point energy and thus into a slight difference in the speed at which the reaction proceeds. Once HDO becomes a significant fraction of the water, heavy water will become more prevalent as water molecules trade hydrogen atoms very frequently. To produce pure heavy water by distillation or electrolysis requires a large cascade of stills or electrolysis chambers, and consumes large amounts of power, so the chemical methods are generally preferred. The most important chemical method is the Girdler sulfide process.
An alternative process[15], patented by Graham M. Keyser, uses lasers to selectively dissociate deuterated hydrofluorocarbons to form deuterium fluoride, which can then be separated by physical means. Although the energy consumption for this process is much less than for the Girdler sulfide process, this method is currently uneconomical due to the expense of procuring the necessary hydrofluorocarbons.
toughsteel said:Problem is there is no meaningful amount heavy water in tap water.
Heavy water, also known as deuterium oxide, is a form of water that has a higher concentration of the isotope deuterium (a hydrogen atom with an extra neutron) compared to regular water. This makes it slightly heavier and has different chemical and physical properties.
The main difference between heavy water and regular water is the presence of deuterium, which makes up about 0.02% of natural water. Heavy water has a slightly higher boiling point, melting point, and viscosity compared to regular water.
Heavy water is used in various scientific and industrial applications, such as in nuclear reactors and as a solvent in chemical reactions. Isolating heavy water from tap water allows for its specific use in these applications without the presence of other impurities found in tap water.
The most common method of isolating heavy water from tap water is through a process called electrolysis. This involves passing an electric current through tap water, which separates the deuterium and oxygen atoms, allowing for the collection of heavy water.
Heavy water is generally safe for consumption and has been used in various medical treatments. However, consuming large amounts of heavy water can interfere with the body's natural processes and should only be done under medical supervision.