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The Cryogenic Engineering Conference celebrated its Silver
Anniversary at the 1979 Conference held at Madison, Wisconsin. For
many it provided an opportunity to reminisce about the first
Cryogenic Engineering Conference convened at the National Bureau of
Standards in Boulder, Colorado and also about the many following
conferences and advances that had been reported at these
conferences. It is difficult to realize that the first Cryogenic
Engineering Conference was held before the advent of multilayer
insulation, the space age, large-scale LNG Operations and
superconductivity applications. The evolution of these activities
has been carefully recorded in past volumes of the Advances in
Cryogenic Engineering. . Once again, the Cryogenic Engineering
Conference is happy to have had the International Cryogenic
Materials Conference cohost this meeting at the University of
Wisconsin. Collaboration between these two conferences has proven
to be mutually beneficial by providing the cryogenic engineer with
an in-depth exposure to materials properties, selection, and
utilization to complement the exposure to new applications and
design concepts. The papers presented at this joint conference as
part of the International Cryogenic Materials Conference will be
published as Volume 26 of the Advances in Cryogenic Engineering.
Once again the annual Cryogenic Engineering Conference has been
held in Boulder, Colorado, and has been hosted by the University of
Colorado's College of Engineering and the National Bureau of
Standards Boulder Laboratories. In presenting the papers of this
ninth national conference, the 1963 Cryogenic Engineering
Conference expresses its thanks to these two hosts for the fine
cooperation that has existed between these organ i- zations with
regard to both cryogenic research and conference activity. Since
the Cryogenic Engineering Conference was first initiated in Boulder
in 1954 by R. B. Scott, present Manager of the NBS Boulder
Laboratories, it is only fitting that this volume of the Advances
in Cryogenic Engineering be dedicated to hirn. The 1963 Cryogenic
Engineering Conference Committee also gratefully acknow- ledges the
assistance of an Editorial Committee both in selecting papers for
the program and in carefully reviewing the final papers for this
volume. Participants in this thankless task inc1uded R. W. Arnett,
V. D. Arp, P. L. Barrick, D. A. Burgeson, D. B. Chelton, R. S.
Collier, J. W. Dean, T. M. Flynn, R. N. Herring, M. J. Hiza, J.
Hord, J. G. Hust, V. J. Johnson, F. Kreith, R. H. Kropschot, P. R.
Ludtke, D. B. Mann, R. D. McCarty, L. MuHen, M. T. Norton, R. P.
Reed, R. F. Robbins, W. G. Steward, R. B. Stewart, D. H. Weitzel,
and W. A. Wilson.
The 1961 Cryogenic Engineering Conference Committee is pleased to
present the papers of the 1961 Cryogenic Engineering Conference. We
are grateful to have had the University of Michigan at Ann Arbor,
Michigan as our host for the seventh annual meeting of this group.
The Conference Committee in presenting the papers oftbis Conference
takes this opportunity to acknowledge the assistance of an
Editorial Committee in the selection of papers for the program.
Since over one hundred and twenty papers were submitted, their task
of screening and evaluating the papers was a dif ficult one. The
Committee guided by G. j. V an Wylen, who also served as chair man
of the Conference Committee, included R. W. Arnett, B. W.
Birmingham, D. B. Chelton, R. j. Corruccini, C. j. Guntner, M. j.
Hiza, R. B. jacobs, A. J. Kidnay, R. H. Kropschot, j. Macinko, D.
B. Mann, R. P. Mikesell, R. L. Powell, J. R. Purcell, R. P. Reed,
R. j. Richards, A. F. Schmidt, R. B. Stewart, and K. A. Warren."
The University of Colorado and the National Bureau of Standards
have once again served as hosts for the Cryogenic Engineering
Conference in Boulder, Colorado. In presenting the papers of this
twelfth annual meeting, the 1966 Cryogenic Engineering Conference
Committee has again recognized the excellent cooperation which has
existed between these two organizations over the past decade with
regard to both cryogenic research and conference activity. This
cooperation was demonstrated not only at the 1966 Cryogenic
Engineering Conference but also at the International Institute of
Refrigeration, Commission I Meeting, which was also hosted by these
two organizations immediately following the Cryogenic Engineering
Conference. These two meetings have provided attendees with one of
the most comprehensive coverages of cryogenic topics that has ever
been presented at one location. Emphasis on major international
advances in helium technology at the International Institute of
Refrigeration, Commission I Meeting has been possible largely
through the National Science Foundation Grant GK 1116 to the
University of Colorado. The Cryogenic Engineering Conference
Committee gratefully acknowledges this support because of its
valuable international contribution to the Cryogenic Engineering
Conference. As in the past, the Cryogenic Engineering Conference
Committee is grateful for the continued assistance of all the
dedicated workers in the cryogenic field who have contributed their
time reviewing the preliminary papers for the program and the final
manuscripts for this volume.
The National Bureau of Standards Boulder Laboratories at Boulder,
Colorado once again served as the host for the 1972 Cryogenic
Engineering Conference. For the Cryogenic Engineering Conference it
was like coming horne, for it was at the NBS Boulder Laboratories
that the Cryogenic Engineering Conference was first conceived and
held m 1954m connection with the dedication ofthe NBS Boulder
Laboratories by President Dwight D. Eisenhower. The Cryogenic
Engineering Conference IS grateful for the continuing support that
the National Bureau of Standards has gIVen over the years, and
which was expanded on July 1, 1971 when the NBS Boulder
Laboratories assumed the secretariat function of the Conference
from the National Academy of Sciences. Because of common interests
in heat transfer, the 1972 Cryogemc Engineering Conference worked
with the 13th National Heat Transfer Conference to develop a joint
program m heat transfer. A majority ofthe papers presented in this
cooperative effort are incIuded m V olume 18 of the Advances zn
Cryogenic Engineerzng through the kmd permission ofthe 13th
NatIOnal Heat Transfer Conference and are acknowl edged
accordingly."
The Cryogenic Engineering Conference celebrated its Silver
Anniversary at the 1979 Conference held at Madison, Wisconsin. For
many it provided an opportunity to reminisce about the first
Cryogenic Engineering Conference convened at the National Bureau of
Standards in Boulder, Colorado and also about the many following
conferences and advances that had been reported at these
conferences. It is difficult to realize that the first Cryogenic
Engineering Conference was held before the advent of multilayer
insulation, the space age, large-scale LNG Operations and
superconductivity applications. The evolution of these activities
has been carefully recorded in past volumes of the Advances in
Cryogenic Engineering. * Once again, the Cryogenic Engineering
Conference is happy to have had the International Cryogenic
Materials Conference cohost this meeting at the University of
Wisconsin. Collaboration between these two conferences has proven
to be mutually beneficial by providing the cryogenic engineer with
an in-depth exposure to materials properties, selection, and
utilization to complement the exposure to new applications and
design concepts. The papers presented at this joint conference as
part of the International Cryogenic Materials Conference will be
published as Volume 26 of the Advances in Cryogenic Engineering.
The 1960 Cryogenic Engineering Conference Committee is pleased to
present the papers of the 1960 Cryogenic Engineering Conference.
Discussion of the papers, wherever available, has also been
included to make the papers more valuable and interesting to the
reader. This annual meeting once again has been held in Boulder,
Colorado. Many delegates will recall that similar meetings were
held in Boulder in 1954, 1956 and 1957. However, this year, because
of the continued growth of this conference, the National Bureau of
Standards Boulder Laboratories was joined by the College of
Engineering of the University of Colorado in hosting this sixth
national con ference. The Cryogenic Engineering Conference
Committee is happy to acknowledge the help of an Editorial
Committee which contributed valuable assistance in the difficult
and thankless task of screening the preliminary papers and also re
viewing the final drafts. This committee headedby R. B. jacobs, who
also served as chairman for the Conference Committee, consisted of
R. W. Arnett, D. B. Chelton, R. J. Corruccini, T. M. Flynn, R. H.
Kropschot, R. M. McClintock, A. F. Schmidt, L. E. Scott and W. A.
Wilson."
1969 marked the return of the Cryogenic Engineering Conference, now
affiliated with the National Academy ofSciences through the
Division ofEngineering, National Research Council, to the
University of California at Los Angeles. As in 1962, the Cryogenic
Engineering Conference gratefully acknowledges the assistance of
UCLA, its Engineering and Physical Seien ces Extension Division,
and in particular J. Dillon, S. Houston, H. L. Tallman, and their
stafffor serving as hosts to the 1969 Cryogenic Engineering
Conference. The National Academy of Sciences is a private honorary
organization of more than 700 scientists and engineers elected on
the basis of outstanding contributions to knowledge. Established by
a Congressional Act of Incorporation, the Academy works to further
science and its use for the general welfare by bringing together
the most qualified individuals to deal with scientific and
technological problems of broad significance. The National Research
Council was organized as an agency of the National Academy of
Sciences in 1916, to enable the broad community of U.S. scientists
and engineers to associate their efforts with the Iimited
membership of the Academy in service to science and the nation. The
Division of Engineering is one of the eight major Divisions into
which the National Research Council is organized for the conduct of
its work. Its membership includes representatives of the nation's
leading technical societies as weH as a number of members-at-Iarge.
The Cryogenic Engineering Conference is an organization of the
Division of Engineering.
The 1959 Cryogenic Engineering Conference Committee is pleased to
pre sent the papers of the 1959 Cryogenic Engineering Conference.
We are fortunate to have had the University of California at
Berkeley, Ca ., as our host for the fifth national meeting of this
kind. The move to the West Coast for this past Cryogenic
Engineering Conference was prompted in part by the large
concentration of missile activities which are to be found there.
Recognition of cryogenic operations and techniques in the mis sile
field is given in many of the included papers. The University of
California was certainly wen suited for such a meeting as this
because it was here that much early work was done in cryogenics.
This pioneering in cryogenics is still evident today in the
operation of the 72-in. bub ble chamber at the Lawrence Radiation
Laboratory. The Cryogenic Engineering Conference salutes the
missile industry and the cryogenic pioneers of yesterday and today
at the University of California. Special thanks must go to Dr. D.
N. Lyon from the Low-Temperature Laboratory of the University of
California, who as chairman of the 1959 Cryogenic Engineering
Conference Committee has worked tirelessly to increase the stature
of this conference. vii ACKNOWLEDGMENT The Cryogenic Engineering
Conference Committee is deeply grateful for the continued support
and interest of the following organizations who made the 1959
Cryogenic Engineering Conference possible. Aerojet-General
Corporation A. D. Little, Inc."
The 1965 Cryogenic Engineering Conference, in presenting the papers
of its eleventh annual meeting takes this opportunity to gratefuIly
acknowledge the assistance of Rice University and, in particular,
R. Kobayashi and his staff for serving as hosts for this
conference. This meeting, because of its proximity to the NASA
Manned Spacecraft Center, has recognized the impact of the space
age on the cryogenic field and has, there fore, attempted to
emphasize this aspect of cryogenics to a greater degree than in
past conferences. The highlight of this conference has been the
presentation of the highest Cryogenic Engineering Conference
award-The Samuel C. CoIlins Award-to its first recipient, Dr.
Samuel C. Collins. This award, set up in his name, has recognized
the outstanding contributions that Dr. S. C. CoIlins, retired
Professor of Mechanical Engineering at the Massachusetts Institute
of Technology, has made in the field of helium liquefaction. His
significant advances in various phases of cryogenics have been
recognized inter nationaIly by numerous organizations. High on this
list has been the tribute which was bestowed on hirn by the
Kamerlingh-Onnes Laboratory in Leiden in awarding hirn the first
Kamerlingh-Onnes gold medal to an American in 1958. The Cryogenic
Engineering Conference, in addition to recognizing his pioneering
work in helium liquefaction by the presentation of the Samuel C.
Collins Award, also dedicates this volume of the Advances in
Cryogenic Engineering to hirn."
The Sixth International Cryogenic Materials Conference (ICMC) was
held on the campus of Massachusetts Institute of Technology in
Cambridge in col laboration with the Cryogenic Engineering
Conference (CEC) on August 12-16, 1985. The complementary program
and the interdependence of these two dis ciplines foster the
conference. Its manifest purpose is sharing the latest advances in
low temperature materials science and technology. Equally im
portant, areas of needed research are identified, prioriti-es for
new research are set, and an increased appreciation of
interdisciplinary, interlaboratory, and international cooperation
ensues. The success of the conference is the result of the. able
leadership and hard work of many people: S. Foner of M.I.T.
coordinated ICMC efforts as its Conference Chairman. A. I.
Braginski of Westinghouse R&D Center planned the program with
the assistance of Cochairmen E. N. C. Dalder of Lawrence Livermore
National Laboratory, T. P. Orlando of M.I.T., D. O. Welch of
Brookhaven National Laboratory, and numerous other committee
members. A. M. Dawson of M.I.T., Chairman of Local Arrangements,
and G. M. Fitzgerald, Chairman of Special Events, skillfully
managed the joint conference. The contributions of the CEC Board,
and particularly its conference chairman, J. L. Smith, Jr. of
M.I.T., to the organization of the joint conference are also
gratefully acknm.ledged.
Support from the National Science Foundation has made it possible
for the tenth annual Cryogenic Engineering Conference, hosted by
the University of Pennsylvania and capably directed by K. R. Atkins
and his staff, to emphasize the major international advances in
cryogenic engineering. This specific emphasis resulted in a final
program of over one hundred papers and has made it necessary to
publish the proceedings of the conference in two volumes. The first
volume will be similar in nature to previous volumes in this
series, while the second volume will feature the international
aspect of the conference program. The latter volume, because of
this distinction, will be entitled International Advances in
Cryogenic Engineering. As in the past, the Cryogenic Engineering
Conference Committee gratefully acknow ledges the assistance of all
the dedicated workers in the cryogenic field who have contributed
their time in reviewing the preliminary papers for the program and
the final manuscripts for this volume. Since the list of
participants in this thankless task numbers well over one hundred,
any attempt to acknowledge their individual contributions in the
limited space available would be practically impossible."
By popular request, the National Bureau of Standards was again a
host to a conference on cryogenic engineering on August 19-21,
1957. Similar meetings were held here in 1954 and 1956. The
acceptance of over forty papers for this conference was certainly a
sign of the increasing activity and interest in this engineering
field. There seems little doubt that it will continue to grow,
justifying the need for annual meetings. To make the Proceedings
more interesting an attempt was made to include as much as possible
of the general discussion which followed each paper. To obtain
individual reprints of anyone particular paper, please contact the
authors directly. 1957 CRYOGENIC ENGINEERING CONFERENCE COMMITTEE
B. W. Birmingham National Bureau of Standards S. C. Collins
Massachusetts Institute of Technology E. F. Hammel Los Alamos
Scientific Laboratory R. B. Scott National Bureau of Standards K.
D. Timmerhaus University of Colorado W. T. Ziegler Georgia
Institute of Technology i ACKNOWLEDGMENTS The 1957 Cryogenic
Engineering Conference Committee gratefully acknowledges the
continued support and interest of the following organizations who
have made the 1957 Cryogenic Engineering Conference and the
publication of this Proceedings possible. L' Air Liquide Air
Products, Inc. Allison Division, General Motor s American Messer
Corporation Aro Equipment Corporation Beech Aircraft Corporation
Bell Aircraft Boeing Airplane Company Cambridge Corporation Convair
Curtiss-Wright Corporation Garrett Corporation General Electric
Company Herrick L. Johnston, Inc. Hofman Laboratories Linde Company
A. D. Little, Inc.
1970 marked the seventh return of the Cryogenic Engineering
Conference, now affiliated with the National Academy of Sciences
through the Division of Engineering, National Research Council, to
Boulder, Colorado. Local arrangements for this year's meeting have
again been capably handled by the University of Colorado and the
Cryogenics Division, NBS Institute for Basic Standards. The
Cryogenic Engineering Conference Committee gratefully acknowledges
the assistance of these two organizations, and particularly the
Bureau of Continuation Education of the University of Colorado, for
serving as hosts to the 1970 Cryogenic Engineering Conference. The
National Academy of Sciences is a private, honorary organization of
more than 700 scientists and engineers elected on the basis of
outstanding con tributions to knowledge. Established by a
Congressional Act of Incorporation signed by Abraham Lincoln on
March 3, 1863, and supported by private and public funds, the
Academy works to further science and its use for the general
welfare by bringing together the most qualified individuals to deal
with scientific and tech nological problems of broad significance.
Under the terms of its Congressional charter, the Academy is also
called upon to act as an official-yet independent adviser to the
Federal Government in any matter of science and technology. This
provision accounts for the close ties that have always existed
between the Academy and the Government, although the Academy is not
a governmental agency and its activities are not limited to those
on behalf of the Government."
The 13th International Conference on Low Temperature Physics,
organized by the National Bureau of Standards, Los Alamos
Scientific Laboratory, and the University of Colorado, was held in
Boulder, Colorado, August 21 to 25, 1972, and was sponsored by the
National Science Foundation, the U. S. Army Office of Scientific
Research, the U. S. Atomic Energy Commission, the U. S. Navy Office
of Naval Research, the International Institute of Refrigeration,
and the Internation al Union of Pure and Applied Physics. This
international conference was the latest in a series of biennial
conferences on low temperature physics, the first of which was held
at the Massachusetts Institute of Technology in 1949. (For a
complete list of previous L T conferences see p. viii. Many of
these past conferences have been coordinated and sponsored by the
Commission on Very Low Temperatures of IUPAP. Subsequent LT
conferences will be scheduled triennially beginning in 1975. LT 13
was attended by approximately 1015 participants from twenty five
countries. Eighteen plenary lectures and 550 contributed papers
were presented at the Conference. The Conference began with brief
introductory and welcoming remarks by Dr. R. H. Kropschot on behalf
of the Organizing Committee, Professor J. Bardeen on behalf of the
Commission on Very Low Temperatures of the IUP AP, and Pro fessor
O. V. Lounasmaa on behalf of the International Institute of
Refrigeration. The eighth London Award was then presented by
Professor E."
1971 marked the first year since 1956 that the annual Cryogenic
Engineering Conference was not held. Instead, the Cryogenic
Engineering Conference gave its full support to the XIII
International Congress of Refrigeration by working with Commissions
I and II of the International Institute of Refrigeration to
organize the cryogenic sessions for these two commissions. All of
the papers presented at the International Congress of Refrigeration
will be published by the IIR as part of the proceedings of that
meeting. Even though no Cryogenic Engineering Conference was held
in 1971, it became quite evident to the Conference Board that there
were sufficient advances in cryogenic engineering to warrant the
publication of Volume 17 of the Advances in Cryogenic Engineering.
Volume 17 presents the advances in this important field by bringing
together in one volume some of the significant papers that have
been presented at various technical meetings across the country
during the latter half of 1970 and the first part of 1971. In
addition, several authoritative review papers have been prepared by
invitation of the Cryogenic Engineering Conference Board.
The National Bureau of Standards Boulder Laboratories was on
September 5-7, 1956 again host to a national conference on
cryogenic engineering. Supported financially by many of the leading
industrial firms currently active in this rapidly expanding field,
the conference, second of its kind, attracted more than 400
scientists and engineers from all parts of the world. This
attendance was evidence of the present interest and growth in
cryogenic engineering, a field which has as yet not found a
satisfactory place within the bounds of existing professional
societies. In all but two cases the Proceedings contain the summary
or entire text of the paper presented at the confer ence.
Forty-nine papers were presented at seven separate sessions. These
sessions were divided into the following general topics: Cryogenic
Processes Cryogenic Equipment Cryogenic Properties Cryogenic
Applications Bubble Chambers The division in some cases had to be
somewhat arbitrary since several papers could have been classified
under more than one general topic. To make the Proceedings more
valuable to the reader, an attempt was made to record the general
discussion which followed each paper. Unfortunately, however, the
recording devices were not sensitive enough for clear reproduction.
The discussions, therefore, have not been included in the Proceed
ings."
More than sixty years have elapsed since Linde first liquefied air
on a commercial scale and prepared the way for separating of other
gaseous mixtures. His work, however, was not of an isolated nature.
It was conceived eighteen years after air had, for the first time,
been liquefied in the laboratory by Pictet in Geneva and Caillete
in Paris. Linde's liquefaction of air was followed by Dewar's work
on hydrogen liquefaction in London and by the setting up at Leiden
of Kamerlingh Onnes's famous low temperature laboratory. These
advances in low temperature or cryogenic technology have resulted
in the establishment of a completely new and thriving industry.
Cryogenic engineering is concerned with developing and improving
low temperature processes, techniques, and equipment; determining
the physical properties of structural and related materials used in
producing, maintaining, and using low temperatures; and the
practical application of low temperature techniques and processes.
These low tempera tures are below those usually encountered in
refrigerating engineering. It is rather difficult to assign a
definite temperature which serves to divide refrigerating
engineering from cryogenic engineering. A temperature below _lSOoC,
however, is generally associated with cryogenic engineering."
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