Isotopic purification of the protium and deuterium is an important requirement of many physics experiments. A cryogenic facility for high-efficiency separation of hydrogen isotopes with a cryogenic distillation column as the main element is described. The instrument is portable, so that it can be used at the experimental site. It was designed and built at the Petersburg Nuclear Physics Institute, Gatchina, Russia. Fundamental operating parameters have been measured including a liquid holdup in the column packing, the pressure drops across the column and the purity of the product at different operating modes. A mathematical model describes expected profiles of hydrogen isotope concentration along the distillation column. An analysis of ortho-parahydrogen isomeric composition by gas chromatography was used for evaluation of the column performance during the tuning operations. The protium content during deuterium purification (≤100 ppb) was measured using gas chromatography with accumulation of the protium in the distillation column. A high precision isotopic measurement at the Institute of Particle Physics, ETH-Zurich, Switzerland, provided an upper bound of the deuterium content in protium (≤6 ppb), which exceeds all commercially available products.

1.
V. A.
Ganzha
 et al,
Nucl. Instrum. Methods A
578
,
485
-
497
(
2007
).
2.
R.
Engels
 et al, “
Polarized fusion
,”
Phys. Part. Nucl.
45
,
341
-
343
(
2014
).
3.
V. A.
Andreev
 et al,
Phys. Rev. Lett.
110
,
012504
(
2013
).
4.
MUSUN collaboration
,
V. A.
Andreev
 et al, “
Muon capture on the deuteron—The MuSun experiment
,” e-print arXiv:1004.1754.
5.
H. Z.
Kister
,
Distillation Design
(
McGraw-Hill
,
1992
), p.
525
.
6.
A. G.
Kasatkin
,
Chemical Engineering
(
State Science and Technical House of Chemical Literature
,
Moscow
,
1961
), p.
459
(in Russian).
7.
M. R.
Fenske
,
Ind. Eng. Chem.
24
,
482
-
485
(
1932
).
8.
A.
Busigin
and
S. K.
Sood
,
Fusion Technol.
28
,
544
(
1995
).
9.
O.
Fedorchenko
 et al,
Fusion Technol.
28
,
1485
(
1995
).
10.
J. R.
De Laeter
,
J. K.
Bohlke
,
P.
De Bievre
,
H.
Hidaka
,
H. S.
Peiser
,
K. J. R.
Rosman
, and
P. D. P.
Taylor
, “
Atomic weights of the elements review 2000 (IUPAC Technical Report)
,”
Pure Appl.Chem.
75
(
N6
),
683
(
2003
).
11.
Bureau International des Poids et Mesures
,
The International System of Units (SI)
, 8th ed. (
Bureau International des Poids et Mesures
,
2006
).
12.
U.S. department of energy. Energy efficiency and Renewable Energy. Natural gas reforming. http://www1.eere.energy.gov/hydrogenandfuelcells/production/natural_gas.html.
13.
V.
Feurdean
,
L.
Feurdean
, and
I.
Lari
, “
Deuterium distribution in crude oil, isotopes
,”
Environ. Health Stud.
33
,
389
-
398
(
1997
).
14.
D. R.
Lide
,
CRC Handbook of Chemistry and Physics
, 87th ed. (
Taylor and Francis Group, LLC
,
2007
), pp.
4
-
18
Online version: http://www.hbcpnetbase.com/?BookID=34.
15.
NIST Standard Reference Database Number 69, June 2005 Release, http://webbook.nist.gov.
16.
V. D.
Trenin
,
G. A.
Sukhorukova
 et al,
Fusion Technol.
28
,
1579
(
1995
).
17.
T.
Yamanishi
and
M.
Kinoshita
,
J. Nucl. Sci. Technol.
21
,
853
(
1984
).
18.
T.
Ohta
 et al,
Nucl. Instrum. Methods A
664
,
347
(
2012
).
19.
T.
Flynn
 et al,
Adv. Cryog. Eng.
3
,
58
(
1957
).
20.
M.
Döbeli
,
M.
Ruff
,
M.
Suter
,
H.-A.
Synal
,
E.
von Wartburg
, and
L.
Wacker
,
Nucl. Instrum. Methods B
266
,
1820
-
1823
(
2008
).
21.
A.
Markov
,
G.
Sokolov
,
V.
Medvedev
, and
N.
Chernov
, “
The quantitative analysis of hydrogen stable isotopes and their nuclear magnetic isomers by a gas chromatography method
,” Preprint PNPI-724 (1981), p. 22.
You do not currently have access to this content.