National Academies Press: OpenBook

Memorial Tributes: Volume 6 (1993)

Chapter: Jacob M. Geist

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Suggested Citation:"Jacob M. Geist." National Academy of Engineering. 1993. Memorial Tributes: Volume 6. Washington, DC: The National Academies Press. doi: 10.17226/2231.
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Page 40
Suggested Citation:"Jacob M. Geist." National Academy of Engineering. 1993. Memorial Tributes: Volume 6. Washington, DC: The National Academies Press. doi: 10.17226/2231.
×
Page 41
Suggested Citation:"Jacob M. Geist." National Academy of Engineering. 1993. Memorial Tributes: Volume 6. Washington, DC: The National Academies Press. doi: 10.17226/2231.
×
Page 42
Suggested Citation:"Jacob M. Geist." National Academy of Engineering. 1993. Memorial Tributes: Volume 6. Washington, DC: The National Academies Press. doi: 10.17226/2231.
×
Page 43
Suggested Citation:"Jacob M. Geist." National Academy of Engineering. 1993. Memorial Tributes: Volume 6. Washington, DC: The National Academies Press. doi: 10.17226/2231.
×
Page 44
Suggested Citation:"Jacob M. Geist." National Academy of Engineering. 1993. Memorial Tributes: Volume 6. Washington, DC: The National Academies Press. doi: 10.17226/2231.
×
Page 45

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JACOB M 1921-1991 GEIST BY P. L. THIBAUT BRIAN jACOB M. GElST died on March 22, 1991, at the age of sixty-nine. Thus encled the brilliant career of a chemical engineer who made major contributions in the field of cryogenics. lack Geist's career included both academic and industrial experience, but his principal contributions were made during his twenty-seven years at Air Products and Chemicals, Inc. Dr. Geistwas a prolific contributor to the company's development of processes for the separation of air and the liquefaction of its products, the production of liquid hydrogen and liquid helium, and the liquefaction of natural gas. He played a major role in the design of more than one hundred large-scale process plants embodying these technologies with total installed capital cost exceeding $1 billion. He was also a major contributor to process safety in the cryogenics industry, especially in the storage of liquefied natural gas. Jack Geist was born on February 2, 1921, in Bridgeport, Connecticut. After attending Newark College of Engineering the first year, he attended Purdue University, graduating in 1940 with a B.S. degree in chemical engineering. He then entered Pennsylvania State University, where he received the M.S. c3 egree in 1942. After spending the nextyear as an instructor in chemical engineering at Penn State, he took a position with Publicker Alcohol Company in July of 1944. Three months later he entered the U.S. Army as an enlisted man in the infantry and chemical 41

42 MEMORIAL TRIBUTES warfare service. After attending Officer Candidate School, he reached the rank of second lieutenant in the chemical warfare service, assigned to Edgewood Arsenal. In February 1946, Jack was discharged from the Army and entered the University of Michigan to pursue his doctorate. It was here that he had the privilege of working intimately with Professor G. G. Brown, an experience that greatly influenced Jack's approach to engineer- ing and engineering professionalism throughout his career. Jack finished up the workfor his Ph.D. in chemical engineering atthe University of Michigan in 1950 ~ the degree was granted in 1951 ~ andjoined the Chemical Engineering Department at Massachu- setts Institute Technology, where he was an instructor and then assistant professor from 1950 to 1952. After spending the next three years as senior lecturer in chemical engineering at the Technion, Israel Institute of Technology, Jack returned to the United States and joined Air Products in November of 1955. At that time Air Products was a fifteen-year-old start-up com- pany in the industrial gas business, just beginning to experience success in developing its founder's concept of the on-site oxygen plant and to establish a position in the production and clistribu- tion of liquid oxygen and liquid nitrogen. Air Products had revenues of approximately $10 million, net income of approxi- mately $800,000 and about 700 employees. During the next twenty-seven years, Air Products grew to become a major interna- tional inclustrial gas companywith 1982 revenues of $1.5 billion, net income of $170 million, anc} almost 19,000 employees. Jack Geist was a major contributor to the technologies that fueled that growth. Jack participated in all phases of the technology effort at Air Products. He had assignments in research and clevelopment, process engineering, plant start-up, and engineering technol- ogy development and assessment. Jack's education was in chemi- cal engineering, but he had a flair for mechanical engineering and for equipment manufacturing, and he contributed many key ideas to these areas. Jack's innovative contributions began almost immediately after hisjoining Air Products. As head of the technology diversi- fication group in research and development, he used his heat

JACOB M. GEIST 43 transfer and mechanical engineering skills to develop the world's smallest cryogenic refrigerator. It was less than two inches in length, had a cool-down time of thirty seconds, and delivered 0.2 watts of refrigeration at liquid nitrogen temperatures. About 30,000 of them were sold to enhance the signal quality of infrared sensors, and this became a key product in the new Advanced Products Division of Air Products. Jackwas at ease with both the production technicians and the research engineers. ~ack's most important contribution to Air Products was in the field of liquefied natural gas. When a new, proprietary propane precooled MCR™ process with its large coil-wound heat ex- changer was developed by Air Products, Jack's contribution covered the range from the fundamental heat and mass transfer correlations used in the design of these heat exchangers to their mechanical integrity and manufacturing simplicity and to opti- mum plant operation in the field. The exchangers are the world's largest, some weighing in excess of two hundred tons, containing a thousand miles oftubing, and capable of liquefying up to three hundred million cubic feet of natural gas per day. When one of the early liquefied natural gas (LNG) plants was installed in Brunei, Jack quickly recognized that although the plant met all guarantees, it did not meet its full potential. Working closely with the operators in the field and Ph.D. engi- neers in Allentown, Jack probed deeply into the process, the fundamental heat transfer and mass transfer, and the mechani- cal configurations of these exchangers. The result of his efforts was a 20 percent improvement in productivity for that particular plant, a greater insight into multicomponent, multiphase heat and mass transfer in these exchangers, and innovative design changes in the main cryogenic heat exchanger that led to significant cost reduction and simplification. His was a key contribution to Air Products achieving a 90 percent worldwide market share as a process licenser and heat exchanger supplier in the baseload LNG business. Concurrentwith his efforts on the LNG process was his contribution to the safety of LNG storage and transportation. In collaboration with colleagues at Air Products, Jack became the definitive expert in LNG storage safety.

44 MEMORIAL TRIBUTES During his career at Air Products, the type of contributions that Jack macle in LNG were repeated many times over in plants, such as air separation and liquefaction, hydrocarbon reforming, liquid hydrogen and helium production, and specialty gases manufacturing. He worked on innumerable plants in the United States, Western Europe, Latin America, and the Far East. lack Geist was an intellectual leader and a mentor. Through him many young engineers and scientists learned about plant and equipment design philosophy, safety philosophy, the impor- tance of both plant experience and engineering fundamentals, and the importance of aciciressing new technology details right up front instead of after a problem occurs. He recruited and mentored many of the engineers who went on to form the backbone of the company's technology team. This speaks elo- quently of ~ack's greatest strength that of a teacher. In 1982 lack took early retirement from Air Products and formed his own consulting firm, GeistTec, Geist Technology and Engineering Company. Air Products was one of his major con- sulting clients, but he also served a number of other companies with his expertise in process design and development and in engineering safety. He continued his active involvement in professional organizations such as the American Institute of Chemical Engineers, the International Institute of Refrigera- tion, and the international LNG conferences. Dr. Geist's contributions to the engineering profession have been widely acclaimed. He was elected honorary fellow of the Indian Cryogenics Council in 1975 and was named Institute Laureate of the International Institute of Refrigeration. He received the Awarc! in Chemical Engineering Practice given by the American Institute of Chemical Engineers (AIChE) in 1976, and AIChE also electecI him a fellow in 1975. Dr. Geist was elected a member of the National Academy of Engineering in 1980, and he was elected a fellow of the American Association for the Advancement of Science in 1984. He received an Honorary Doctorate of Science from the Technion, Israel Institute of Technology, in 1987. Jack Geist made a lasting impact on the cryogenics industry and on the chemical engineering profession. He will long be remembered and missed by his many friends and colleagues.

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