內容介紹
書名原文:Handbook of heat transfer fundamentals;據美國 McGraw-Hill 1985年第二版譯出
作者介紹
Professor Warren M. Rohsenow
Warren Max Rohsenow received his bachelor's degree in mechanical engineering at
Northwestern University (Evanston, IL) in 1941. He earned his M.Eng. and D.Eng.
Degrees at Yale University in 1943 and 1944, respectively. He was an active
member of the MIT faculty from 1946 to 1985.
As a researcher, educator and leader, Professor Rohsenow made outstanding and
lasting contributions to the engineering profession in general and thermal power
systems in particular. His fundamental and applied research in nearly all modes
of heat transfer is highly respected throughout the world and underpins many
modern developments in the thermal power industry. His seminal work on gas
turbines, heat exchangers, heat transfer in nuclear reactors and condensation in
cooling towers are landmarks in the development of this field. He made
pioneering contributions to the understanding of dispersed flow film boiling,
condensation, metal-to-metal contact resistance and two-phase flows.
His contributions to the thermal power industry began early in his career. After
writing one of the first gas turbine theses, Rohsenow was assigned to the U.S.
Navy Engineering Experimental Station (Annapolis, MD) to develop temperature
instrumentation for the first gas turbine tested in the United States. His
thesis investigated the effect of water injection on gas turbine performance, an
idea that was incorporated in an operational plant about 40 years later by
designers unaware of Rohsenow's early work. In addition to serving in the U.S.
Navy (1944-46), he was a consultant to the National Defense Research
Council/Columbia University group on aircraft component design from 1943-44.
Professor Rohsenow's teaching experience began in the early 1940's at Yale
University (New Haven, CT) where he taught laboratory courses in steam power and
automotive engineering classes in thermodynamics and heat power. In July 1946,
he joined the Massachusetts Institute of Technology, Cambridge, as assistant
professor of mechanical engineering, which marked the beginning of a new era for
that department in the field of heat transfer. Named professor and director of
the Heat Transfer Laboratory in 1956, he published papers on improving gas
turbine regenerators and began an extensive research effort in heat transfer for
nuclear reactors. This boiling and condensation research was used in future
reactor designs and in replacing the entire cooling system of gaseous diffusion
plants.
Professor Rohsenow always emphasized the contributions of both students and
colleagues to the strength and reputation of the MIT Heat Transfer Lab. Among
his former students are Professor Peter Griffith, J.A. Clark, R. Nickerson, V.S.
Arpaci, J.C. Chato, P.J. Berenson, M.M. Chen, A.E. Bergles, R.S. Dougall, M.
Fiori, Professor Leon R. Glicksman, S.P. Sukhatme, W.F. Laverty, P.J. Marto,
Professor Neil E. Todreas, M.M. Yovanovich, Professor Borivoje B. Mikic, D.G.
Kr鰃er, R. Forslund, I. Shai, S. Bae, J.S. Maulbetsch, S.J. Hynek, C.W. Deane,
S.J. Wilcox, R.K. Sakhuja, J.J. Lorenz, D.P. Traviss, O.C. Iloije, D.N. Plummer,
W. Mack, A Singh, E.N. Ganic, Professor Mujid S. Kazimi, G.E. Kendall and G.
Yoder.
The classroom teaching of Professor Rohsenow and his colleagues has been noted
for its strong emphasis on fundamentals and practice-oriented problems. The
classroom material which Prof. Rohsenow compiled on heat and mass transfer was
ultimately published in the book Heat, Mass and Momentum Transfer (with H.Y.Choi)
, published in 1961. He authored/co-authored over 100 journal papers, as
well as hundreds of conference papers and technical reports. He was a founding
member of the editorial advisory board of the International Journal of Heat and
Mass Transfer and served on advisory boards of several other journals. He edited
Developments in Heat Transfer (MIT Press, 1964); and was senior editor of the
Handbook of Heat Transfer (1973) and its second and recently released third
edition (1998). Rohsenow served on numerous U.S. government committees and has
lectured worldwide.
A member of American Society of Mechanical Engineers since 1943, Rohsenow was
chair of the Heat Transfer Division (HTD) Thermo Physical Properties Committee
(1950-53), the Boston Section Executive Committee (1952-56) and the HTD
Executive Committee (1958-63). He was one of the early advocates of the Assembly
for International Heat Transfer Conferences, founded in 1966, which organizes
conferences every four years. He was also one of the founders of the
International Center for Heat and Mass Transfer (originally in Yugoslavia, nowin Turkey),
and served as vice president and later president. His ASME honors
include the Pi Tau Sigma Gold Medal (1951), Fellow (1969), the Max Jakob
Memorial Award of ASME (1971), Life Fellow (1986), Honorary Member (1988), and
the ASME Medal (2001). In 1999 ASME's HTD and Gas Turbine Division announced a
joint award in Warren Rohsenow's name for an outstanding conference presentation
in gas turbine heat transfer.
Professor Rohsenow is also a Fellow of the American Academy of Arts and Science
(1956) and a member of the National Academy of Engineering (1975), and he
received the Yale Engineering Association Award for Advancement of Basic and
Applied Science (1952) and a Fellowship Award from the International Center for
Heat and Mass Transfer (1989).
Warren was an accomplished pianist who played jazz with various ensembles at
MIT. He kept a piano in his MIT office, which he would occasionally roll out
into the corridor for departmental parties.
In 1985 after 39 years of service, Professor Rohsenow retired from MIT. In 1994
he retired as chairman of the board of Dynatech Corporation, a company he
co-founded in 1959 which provides consulting services to companies in
diversified fields including modem development and lightning strike location
measurement. Professor Rohsenow now lives in Falmouth, Maine.
Sources: MIT and ASME records, personal recollections;
E.N. Ganic, J.P. Hartnett, Int. J. Heat Mass Transfer, Vol. 24, pp.1861-1862,
1981.