8
$\begingroup$

The Wikipedia page for deuterium oxide (heavy water) says that its boiling point is 374.5 K and the one for ordinary water is 373.13 K.

Is there a way of distillation which we can use to enrich deuterium oxide?

$\endgroup$
17
$\begingroup$

Fractional distillation can work, but the separation per round of distillation is very low so you would need a very large multi stage process to achieve significant separation.

Nobody uses direct distillation to produce heavy water as there are better chemical processes that achieve higher enrichment per stage, for example the Girdler sulphide process.

$\endgroup$
  • 8
    $\begingroup$ @SantoshKumar You can express thanks better by accepting the answer and up voting it. $\endgroup$ – Zhe Feb 13 '18 at 14:47
  • $\begingroup$ The wikipedia page on the GS process actually mentions distillation as a common process to get from 15–20% D2O (the product from the GS process) to > 99% D2O. $\endgroup$ – Mick Mnemonic Feb 13 '18 at 23:48
7
$\begingroup$

For a comparison of different methods, including distillation and the Girdler processes, have a look at Heavy Water: A Manufacturers’ Guide for the Hydrogen Century

In this 14 pages document a survey of the different available processes is given. The distillation of water, as suggested by the OP is included. That process is the easiest but requieres huge energy input to perform. The distillation must be done under vacuum because the separation factor is higher than at normal pressure.

The processes that are used are based on exchange reactions. Among these the most used is the Girdler process based on $\ce{H2S}$ but other possibilities exist. However, this is the only one that does not require a catalyst.

Other processes are also considered briefly. An interesting point is that the estimated cost of production is given as 300 \$/kg $\ce{D2O}$.

A table with the characteristics of the different processes is included.

enter image description here

$\endgroup$

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.