Morris Muskat (21 April 1906 – 20 June 1998) was an American petroleum engineer. Muskat refined Darcy's equation for single phase flow, and this change made it suitable for the petroleum industry. Based on experimental results worked out by his colleagues, Muskat and Milan W. Meres also generalized Darcy's law to cover multiphase flow of water, oil and gas in the porous medium of a petroleum reservoir. The generalized flow equation provides the analytical foundation for reservoir engineering that exists to this day.

Early life and career

Muskat was born in Riga,

Russian Empire The Russian Empire was an empire and the final period of the Russian monarchy from 1721 to 1917, ruling across large parts of Eurasia. It succeeded the Tsardom of Russia following the Treaty of Nystad, which ended the Great Northern War. ...

. He came to the United States with his family in 1911, and became an American citizen in 1914. Muskat attended

Marietta College Marietta College (MC) is a private liberal arts college in Marietta, Ohio. It offers more than 50 undergraduate majors across the arts, sciences, and engineering, as well as Physician Assistant, Psychology, Clinical Mental Health Counseling, a ...

and

Ohio State University The Ohio State University, commonly called Ohio State or OSU, is a public land-grant research university in Columbus, Ohio. A member of the University System of Ohio, it has been ranked by major institutional rankings among the best publ ...

, then taught physics at

Bowling Green University Bowling Green State University (BGSU) is a public research university in Bowling Green, Ohio. The main academic and residential campus is south of Toledo, Ohio. The university has nationally recognized programs and research facilities in the ...

. He earned his doctorate in physics from the

California Institute of Technology The California Institute of Technology (branded as Caltech or CIT)The university itself only spells its short form as "Caltech"; the institution considers other spellings such a"Cal Tech" and "CalTech" incorrect. The institute is also occasional ...

in 1929. After graduating from Caltech, Muskat joined Gulf Research & Development Company where he started as a Research Engineer and worked his way up to get the position as Chief of the Physics Division, a position he held until 1951. He took a one-year break from Gulf, during World War II, to serve as chief of the Acoustics Division of the

Naval Ordnance Laboratory The Naval Ordnance Laboratory (NOL) was a facility in the White Oak area of Montgomery County, Maryland. It is now used as the headquarters of the U.S. Food and Drug Administration. Origins The U.S. Navy Mine Unit, later the Mine Laboratory at ...

. In 1951 he became technical coordinator of the Production Department,

Gulf Oil Corporation Gulf Oil was a major global oil company in operation from 1901 to 1985. The eighth-largest American manufacturing company in 1941 and the ninth-largest in 1979, Gulf Oil was one of the so-called Seven Sisters oil companies. Prior to its merger ...

Pittsburgh, Pennsylvania Pittsburgh ( ) is a city in the Commonwealth of Pennsylvania, United States, and the county seat of Allegheny County. It is the most populous city in both Allegheny County and Western Pennsylvania, the second-most populous city in Pennsylva ...

. Dr. Muskat served as the Vice Chairman of the Petroleum Branch of AIME (now the

Society of Petroleum Engineers The Society of Petroleum Engineers (SPE) is a 501(c)(3) not-for-profit professional organization whose stated mission is "to collect, disseminate, and exchange technical knowledge concerning the exploration, development and production of oil an ...

) in 1953. In 1961 he was promoted to Technical Adviser to the Executive Group of

Gulf Oil Gulf Oil was a major global oil company in operation from 1901 to 1985. The eighth-largest American manufacturing company in 1941 and the ninth-largest in 1979, Gulf Oil was one of the so-called Seven Sisters oil companies. Prior to its merger ...

, a position he held until his retirement in 1971. Muskat received many honors, including the

American Petroleum Institute The American Petroleum Institute (API) is the largest U.S. trade association for the oil and natural gas industry. It claims to represent nearly 600 corporations involved in production, refinement, distribution, and many other aspects of the ...

's Certificate of Appreciation (1965) and Special Scroll (1971), the

's Lester C. Uren Award (1969), the

American Institute of Mining, Metallurgical, and Petroleum Engineers The American Institute of Mining, Metallurgical, and Petroleum Engineers (AIME) is a professional association for mining and metallurgy, with over 145,000 members. It was founded in 1871 by 22 mining engineers in Wilkes-Barre, Pennsylvania, Uni ...

's Lucas Medal (1953) and honorary (life) membership (1972), membership in the

National Academy of Engineering The National Academy of Engineering (NAE) is an American nonprofit, non-governmental organization. The National Academy of Engineering is part of the National Academies of Sciences, Engineering, and Medicine, along with the National Academy of ...

(1983), and Caltech’s Alumni Distinguished Service Award (1987). He also has fifteen U.S. patents in various fields of science and engineering. In his later years Muskat withdrew from professional life and relocated to Pasadena, California, where he died on June 20, 1998, at the age of 92.

Research and publications

Muskat refined the original version of Darcy's equation for single-phase fluid (or homogenous fluid in Muskat terminology) flow by introducing fluid viscosity in the equation, as pointed out earlier by Charles Sumner Slichter,Slichter C.S.; Theoretical investigation of the motion of ground waters; U.S. Geol. Surv. (1897-1898), 19th Ann. Report Part 2, pp 295-384. and replacing the hydraulic head by pressure and gravity force. The proportionality constant of the porous medium (which were both unconsolidated sand and consolidated sandstone in the laboratory experiments), using the new refined equation, is called single-phase permeability or absolute permeability, and is now a pure rock property as the fluid viscosity is explicit in the new flow equation. The pressure and gravity force link the refined equation to basic properties in physics, which makes the connection to capillary pressure, and thus

Leverett J-function In petroleum engineering, the Leverett ''J''-function is a dimensionless function of water saturation describing the capillary pressure, :J(S_w) = \frac where S_w is the water saturation measured as a fraction, p_c is the capillary pressure ( ...

, direct and makes the connection to fluid density visible in the new equation. By these refinements Muskat established a refined flow equation for single phase fluid flow that is valid for water, oil and gas, and thus is suitable for use in the petroleum industry. Muskat and his colleagues verified the new equation by experiments. Another problem that faced Muskat and his colleagues, is that an oil reservoir has large horizontal dimensions, and production wells are spread all over it. Where will the oil flow? Today the reservoir engineer will use numerical reservoir simulation to answer that question. In the 1930s there were no computers, so Muskat turned to experimental analogues to fluid flow such as heat flow and electric current. Again Muskat refined Darcy's equation by generalizing to three equations for the three space dimensions, as pointed out earlier by Philipp Forchheimer.Forchheimer P. 1914; Hydraulik; Book published by B.G. Teubner, Leipzig und Berlin, 1914, p 437. The single-phase permeability was generalized to be a 3x3 tensor which is usually represented by a diagonal tensor where the vertical permeability differ from the two horizontal permeabilities. In 1937 Muskat published ''The Flow of Homogeneous Fluids Through Porous Media''. In this book Muskat focused on flow of single-phase fluid in a porous medium, and what type of differential equation can be used to model this flow behavior. Large emphasize is put on discussing results of experimental analogues such as heat flow and electric current. This book also presents and refers to experimental findings made by his colleagues. An oil reservoir usually has an

aquifer An aquifer is an underground layer of water-bearing, permeable rock, rock fractures, or unconsolidated materials ( gravel, sand, or silt). Groundwater from aquifers can be extracted using a water well. Aquifers vary greatly in their characteris ...

below the oil leg, and sometimes also a gas cap above the oil leg. As oil is produced from the oil leg, water and gas will flow into this zone where some oil is still flowing. The operating company may also inject water or gas into the oil reservoir in order to increase oil recovery. The equations for reservoir dynamic must therefore include multi-phase flow of water, oil and gas. As water flow from below and gas flow from above the oil leg, the local mixture of fluid phases will usually only be two phases. Muskat, with assistance of geophysicist Milan W. Meres (1906-1963), analyzed results from the steady-state and the transient flow experiments of Ralph Dewey Wyckoff and Holbrook Gorham Botset. The experimental results showed that the flow of a mixture experienced an effective permeability that was reduced compared to the single-phase permeability. The reduced permeability correlated non-linearly with volume fraction of the other phase, and the reduction factor (or function) is denoted

relative permeability In multiphase flow in porous media, the relative permeability of a phase is a dimensionless measure of the effective permeability of that phase. It is the ratio of the effective permeability of that phase to the absolute permeability. It can be ...

. The formulation is based on Muskat's theory that the porous medium has a local structure of macroscopic size that is defined by the saturations, or volume fractions, of the fluid mixture. Muskat included the new permeability-reducing parameter in the refined single-phase flow equations, and thus established a new differential equation that governs the flow of multi-phase fluids in porous media. The experimental findings of Wyckoff and Botset and the analytical / theoretical findings of Muskat and Meres were published as two coordinated papers in 1936. In 1949 Muskat published ''Physical Principles of Oil Production'', which advanced the field of reservoir dynamics and reservoir engineering, compared to his 1937 book, and provided the analytical foundation for reservoir engineering that exists to this day.

Selected publications

Books

* *

Articles

* Muskat M. and Botset, H.G. 1931; Flow of Gas Through Porous Materials; Paper published in J. Appl. Phys. vol. 1, no. 1, pp. 27–47, 1931. * Wyckhoff R.D. and Botset H.G. and Muskat M. 1932; Flow of liquids through porous media under the action of gravity; Paper published in Physics vol 3, no 2, pp 90–113 (August 1932); OCLC number 36593762. * Wyckoff R.D. and Botset H.G. and Muskat M. 1933; The Mechanics of Porous Flow Applied to Water-flooding Problems; Paper published in Transactions of the AIME 103 (1933), pp 219–249. * Wyckoff R.D. and Botset H.G. and Muskat M. and Reed D.W. 1934; Measurement of Permeability of Porous Media; Bulletin of the American Association of Petroleum Geologists vol. 18, no. 2, 1934. * Muskat M. 1934; The Flow of Compressible Fluids Through Porous Media and Some Problems in Heat Conduction; Paper published in J. Appl. Phys. vol. 5, no. 3, pp 71–94, 1934. * Muskat M. and Wyckoff R.D. 1935; An Approximate Theory of Water-Coning in Oil Production; Paper published in Transactions of the AIME 114 (1935). * Muskat M. and Meres M.W. 1936; The Flow of Heterogeneous Fluids Through Porous Media; Paper published in J. Appl. Phys. 7, pp 346–363 (1936); https://dx.doi.org/10.1063/1.1745403 * Muskat M. and Wyckoff R.D and Botset H.G. and Meres M.W. 1937; Flow of Gas-liquid Mixtures through Sands; Published in Transactions of the AIME 123 (1937), pp 69–96; Document ID SPE-937069-G; https://dx.doi.org/10.2118/937069-G

References

External links

"MORRIS MUSKAT ." National Academy of Engineering. Memorial Tributes: National Academy of Engineering
Volume 14. Washington, DC: The National Academies Press, 2011. doi:10.17226/12884. {{DEFAULTSORT:Muskat, Morris 1906 births 1998 deaths Fluid dynamicists Petroleum engineers Emigrants from the Russian Empire to the United States 20th-century American engineers