Yurii Sh. Matros

Yurii Sh. Matros

Yu Matros
Born September 16, 1937 (1937-09-16) (age 79)
Odessa, Ukraine

Yurii Shaevich Matros (Russian: Юрий Шаевич Матрос) is a scientist in the field of chemical engineering, known for his achievement in the theory and practice of heterogeneous catalytic processes. He is acknowledged as a “Godfather” of realization of catalytic processes in forced unsteady state conditions. Matros developed a catalytic reactor with periodic changes of direction of flow rate in packed bed of catalyst (named in literature as “reverse process” or “Matros Reactor”). This reactor is widely known in scientific and applied literature as an example of an application of developed theory of forced unsteady processes. Yurii Matros has a full doctoral degree of science; is a professor, founder and president of Matros Technologies Inc.[1]

Life and career

Matros was born in Odessa, Ukraine in 1937. As an overachieving student, he graduated from Odessa National Polytechnic University in 1959 with a red diploma (highest academic distinction). After four years of research at this university, while simultaneously working at the Novosibirsk chemical plant, he received his PhD degree in 1964. His science career was developed at the Boreskove Institute of Catalysis[2] in its world famous science center in the academic city of Novosibirsk (Akademgorodok), where in 1974 he received the degree of full doctor of chemical engineering and the official academic title of professor. Afterwards he became the head of the department which studied unsteady state processes in catalysis.

His more than thirty years of academic and applied research has been focused on the gas-solid fixed and fluidized bed reactors. In the 1960s and 1970s, he analyzed various levels of mathematical modeling of catalytic reactors, beginning with the reaction process over the catalyst surface and ending with the processes in catalyst pellet and catalytic reactor itself. As one of the first researchers in the field, he described non-standard patterns of fixed bed reactor behavior, such as wrong way behavior and multiplicity of steady-state solutions. He contributed greatly to the theory of formation and movement of creeping fronts through the packed bed.

His main scientific results, however, were developed from the 1970s to 1995.[3][4][5] These results showed a new direction in theory and practice of forced unsteady-state processes in heterogeneous catalytic reactors as a way to significantly increase the efficiency of catalytic processes as a whole. Matros faced criticism by his opponents who claimed that he wants to construct a "perpetuum mobile". In reality, however, his theory was proven to be true, and now most chemical engineering science teams of universities and industry use it. The most frequently encountered example of unsteady-state operation is the reverse flow system (Matros reactor) in which the flow through reactor with fixed bed of catalysts is periodically reversed in order to store heat and/or mass, to regenerate heat/catalysts in situ, or to avoid kinetic limitation of a system at equilibrium.[6][7][8]

Former president of the Siberian Branch of Academy of Sciences of USSR (1974–1980) (now Russian Academy of Sciences), Gyrii Ivanovich Marchuck remarked that this was the most influential idea in chemistry during last 50 years.

Matros is one of the scientists of the Academy of Sciences who consistently brought his scientific achievements directly to industrial practice.[3][4][5] His more than forty patents indicate his great interest in realizing, and he realized, his scientific basic knowledge in different industrial applications.[9][10] Most of the current commercial applications are encountered in environmental cleanup, especially in the catalytic elimination of VOCs from industrial and commercial exhausts,[11] SO2 oxidation in sulfuric acid production,[12] NOx reduction.[13] Matros has been directly involved in the development, design and startup of dozens of industrial units. Potential applications include a number of partial oxidation processes and treatment of vehicular exhaust.

Scientific achievements

His achievements have become the basis for a scientific school, which focuses on unsteady state processes in catalysis and which attracts post graduate students and collaboration among scientists from the former Soviet Union and other countries, such as Bulgaria, Hungary, India, Belgium, France, Switzerland, Poland, Germany, China, Italy and the United States. His books were published in Russian, English and Chinese, and they have now become reference books in most chemical engineering university departments across the world. Matros is the organizer and chairman of the traditional International Conference of Unsteady State Process in Catalysis[14] which takes place periodically in Russia, Canada, Japan or the United States, every 3 to 4 years on average. Matros is often invited to give plenary lectures (PL) at prestigious international conferences. There are only two examples: 1. XIX International Conference on Chemical Reactors CHEMREACTOR-19, September 5–9, 2010, Vienna, Austria; PL by Matros was "How to Design Optimal Catalytic Reactor." The lecture was dedicated to Professor Mikhail Slin'ko.[15] 2. International Conference took place in Novosibirsk, Russia in June 2007. It was dedicated to the 100-year anniversary of academician Boreskov's birthday. The PL was about a new type of catalytic processes based on forced unsteady state conditions, was presented by Matros.[16] It was written: “An excellent lecture delivered by Prof. J. Matros, ... to create a fundamentally new type of catalytic processes based on non-stationary mode. ... The lecture was summarized the application of this technology in the industry around the world over the last several decades.”[16]

Matros’ role in international conferences reflects recognition in this field of science. In 1992, as a famous scientist, Matros received a green card on the basis of recommendations given by about 25 world authorities in chemical engineering: James Wei (Dean, Pomeroy and Betty Perry Smith Professor, School of Engineering and Applied Science, Princeton, NJ, USA); Larry D. Schmidt (Professor, University of Minnesota, Minneapolis, MN, USA); W. Harmon Ray (Steenbock Professor of Engineering, University of Wisconsin, Madison, WI, USA); Dan Luss (Cullen Professor and Chairman, University of Houston, TX, USA); Gilbert F. Froment (Directeur: Professor, Dr. Ir., Universiteit Gent, Belgiё); Gerhart Eigenberger (Professor. Dr. Ing., Universitat Stuttgart, Head of Institut f. Chemische Verfahrenstechnik, Germany); Dr. Blumenberg, BASF (Vice President, Process Chemistry, Ludwigshafen, Germany); Professor, Dr. Ir. von Dierendock (Senior Research Fellow, prof. of RUG, DSM; Dr. Jan J. Lerou (Du Pont, Wilmington, Delaware, Director of Research) and others. All of them reflected their own experience of scientific collaboration with Y. Matros.

One example of a recommendation includes the following fragment from BASF, signed by Vice President of Process Chemistry, Blumenberg, on April 27, 1992: “He is one of the most famous chemical engineers, who are concerned with reactor technology ... BASF as one of the largest and most experienced chemical companies worldwide has acknowledged this by inviting Prof. Matros as a speaker on the occasion of its 125th anniversary in 1990 ... Prof. Matros has, besides his excellent research work, emphasized sharing of his knowledge with the scientific community. Excellent textbooks and numerous publications have contributed to the spread of scientific progress around the world.” Another example of a recommendation includes the following fragment from the Head of Institute of Chemishe Verfahrenstechick of the University Stuttgart, Prof. Gerhat Eigenberger from April 23, 1992: “This letter attests to academic and experimental credentials of Dr. Y. Sh. Matros ... Dr. Matros is director on leave of the Department of Unsteady State Catalysis Processes in Novosibirsk, Russia. The institute of Catalysis is the best known and the highly respected institution on Catalysis in the whole former Soviet Union, and Dr. Matros is certainly one of its internationally best known researchers and representatives. Among his many achievements in the field of catalytic reaction engineering, I consider as highest his contributions to the dynamic operation of fixed bed reactors with periodic flow reversal, which is now referred to as the «Matros reactor» concept ...”

Here are a few references on publications concerning Matros’ scientific and applied significance:

In 1993 Matros founded a scientific consulting company called Matros Technologies, Inc. (MT) which gained recognition and became well known in the development different catalytic processes based on reversed-flow reactor conception.[1][23] In 2008 MT received two awards:

Major publications

Matros’ achievements and scientific activity is reflected in more than 40 patents, 300 publications of which he is the author or coauthor, 5 books of which he is the author, 7 books of which he is the editor-in-chief with and without coauthors.

Books

Editor-in-chief of scientific work collections (selected list)

Selected list of articles

General

VOC control

SO2 oxidation

NOx reduction

References

  1. 1 2 Official Site: Matros Technologies, Inc. http://matrostech.com/
  2. Leading Scientists at the Institute of Catalysis, 1998, Russia. http://www.catalysis.ru
  3. 1 2 See section "Books"; one source: Yu. Sh. Matros, Nestatsionarnye Protsessy v Kataliticheskikh Reaktorakh [Unsteady Processes in Catalytic Reactors], Novosibirsk: “Nauka,” 1982 (in Russian and Chinese languages (1984) )
  4. 1 2 See section "Selected list of editor-in-chief of scientific work collections"; one source: Unsteady State Processes in Catalysis: Proceedings of International Conference, 5–8 June 1990, Utrecht: VSP.-, the Netherlands, and Tokyo, Japan.
  5. 1 2 See section "General"; one source: Yurii Sh. Matros, Grigori A. Bunimovich, and Katherine Fry, Using a Catalyst for Energy Reduction in a Regenerative Thermal Oxidizer, a Case Study, Proceedings of AWMA annual conference, Portland, OR, 2008.
  6. Google book: Periodic Operation of Reactors, P. L. Silveston, R. R. Hudgins, 2012. https://books.google.com/books?id=pEy6EErNXoUC&pg=PR13&lpg=PR13&dq=yurii+matros&source=bl&ots=5O_A58-XIn&sig=7NN9knJB0l4AFuSGmiwe5tqZ_vE&hl=en&sa=X&ei=6vH7UYfGDJGc8wSI1oHoBw&ved=0CG0Q6AEwDg#v=onepage&q=yurii%20matros&f=false
  7. http://www.zoominfo.com/p/Yurii-Matros/212446761
  8. 1 2 Yu. Sh. Matros, Catalytic Processes under Unsteady State Conditions, Elsevier, Amsterdam-Oxford- New York-Tokyo, 1989.
  9. “Patents by Inventor Yurii S. Matros” http://patents.justia.com/inventor/yurii-s-matros
  10. “Yurii S Matros – Inventor” http://patent.ipexl.com/inventor/Yurii_S_Matros_1.html
  11. See section "VOC Control; one source: J. D. Miller, T. Gilliland, G. A. Bunimovich, and Yu. Sh. Matros, Reducing the Cost of VOC Control in Semiconductor Industry, Pollution Engineering, November 2009, p. 30-33.
  12. See section "SO2 Oxidation"; one source: V. O. Strots, Yu. Sh. Matros and G. A. Bunimovich, 1992. Periodically Forced SO2 Oxidation in CSTR. Chem.Eng.Sci., 47, No. 9 - 11, 2701-2706.
  13. See section "NOx Oxidation"; one source: G. Braswell, Yu. Sh. Matros, and G. A. Bunimovich, 2001. NOx in Non-Utility Industries, Parts I and II. Environmental Protection, 6, 50-55; 7, 38-41.
  14. “Forced unsteady-state processes in heterogeneous catalytic reactors,” Matros, Yu. Sh., Canadian Journal of Chemical Engineering, volume 74, issue 5, pages 566-579, October 1996. http://onlinelibrary.wiley.com/doi/10.1002/cjce.5450740504/abstract
  15. “XIX International Conference on Chemical Reactors CHEMREACTOR-19” http://conf.nsc.ru/CR-19-2010/en/scientific_program
  16. 1 2 “Kataliz: Teorya i Praktika” [Catalysis: Theory and Practice], Nauka v Sibiri [Science in Siberia], #28-29 (2613-2614), July 26, 2007. http://www.sbras.ru/HBC/article.phtml?nid=426&id=10
  17. Marcus Grunewald and David W. Agar, Ind. Eng. Chem. Res. 2004, 43, pp.4773-4779.
  18. F. Logist, A. Vande Wouwer, I.Y. Smets, J.F. Van Impe, Chemical Engineering Science 62 (2007) 4675 – 4688.
  19. R. Quinta Ferreira, C. Almeida Costa, S. Masetti, Chemical Engineering Science 54 (1999), pp. 4615-4627.
  20. Krzysztof Gosiewski and Krzysztof Warmuzinski, Chemical Engineering Science, 62 (2007), pp. 2679 – 2689.
  21. S. K. Bhatia, Chemical Engineering Science, Vol. 46, No. 1. pp. 361-367, 1991.
  22. Miguel A. G. Hevia, Salvador Ordon˜ez, and Fernando V. Dıez, AIChE Journal, September 2006 Vol. 52, No. 9, pp. 3203-3209.
  23. "Volatile Organic Achievements," Pollution Engineering, Grigori A. Bunimovich, Tina Gilliland, Yurii Sh. Matros, and John D. Miller, November 1, 2009. http://www.pollutionengineering.com/authors/2135-yurii-matros/articles
  24. “Awards recognizing achievement in the year 2007” http://www.epa.gov/air/cleanairawards/winners-2007.html
  25. “TI awarded for innovative clean-air partnership,” TI Public Affairs Report, June, 2008. http://www.ti.com/corp/docs/webemail/2008/enewsltr/public-affairs/may08/landing/environment2.shtml
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