Max brenner atlanta1/6/2024 would enter the room, take a chair at the center, and launch into an in-depth discussion of the latest theories under development. Such discussions were not a rare event indeed, we can distinctly remember the knock on the door each afternoon that announced his arrival to the students' office. held everyone to high standards, especially himself, and he was never shy in getting into very deep discussions of the most recent or subtle concepts he was working on (usually, the two went hand in hand). In the special issue of Chemical Engineering Communications honoring Brenner’s 80th birthday in 2009, his former students recounted: “H.B. Of this project, he said that he could always continue to find needed revisions, but, in essence, was done with what he believed to be a seminal piece that overturned a theoretical underpinning of fluid dynamics several hundred years old. Until three days before his death, despite tremendous physical challenges, he was making the final revisions on a paper that reflected the culmination of almost 10 years’ work, much of it done after he became emeritus. He went on to serve on the chemical engineering faculties of NYU (1955-1966) Carnegie Mellon (1966-1977) the University of Rochester (1977-1981), where he was department chair and MIT (1981-2005), where he was the Willard Henry Dow Professor of Chemical Engineering.īrenner was an enthusiastic researcher whose lifetime work did not end with his retirement. Brenner received his undergraduate degree from Pratt Institute (1950), and his master’s (1954) and ScD (1957) from New York University (NYU), both in chemical engineering. Raised and educated entirely in New York City and environs, Brenner graduated from Brooklyn Technical High School in 1946, where he took its “chemical course.” Prior to attending college, he worked for almost a year for a chemical consulting firm in lower Manhattan. These former students now hold or have held academic appointments in a variety of fields, including chemical engineering, mechanical engineering, aerospace engineering, civil engineering, engineering mechanics, and physical chemistry. During his career, Brenner singly and jointly published more than 200 technical papers and 35 chapters in books, monographs, and proceedings volumes, and presented more than 500 invited seminars and professional lectures.īrenner also directed the research of a large number of PhD students, master’s students, and postdoctoral fellows in the general areas of fluid mechanics and transport processes. Edwards in 1993, covers multiple length- and time-scale homogenization schemes. “Macrotransport Processes,” coauthored with David A. Wasan in 1991, covers interfacial phenomena. “Interfacial Transport Processes and Rheology,” coauthored with David A. “Low Reynolds Number Hydrodynamics,” written with John Happel in 1965, is one of the most widely cited books in fluid mechanics worldwide. Considered one of the world’s foremost theoreticians in the transport properties of flowing suspensions and multiphase systems, he had a profound impact on the profession through his broad and fundamental research on low Reynolds number fluid-particle hydrodynamics, microfluidics, complex fluids, interfacial transport processes and emulsion rheology, multiphase flow and transport processes in porous media, generalized Taylor dispersion phenomena, and macro transport processes.īrenner coauthored three textbooks. He was 84.īrenner’s extraordinary and accomplished academic career spanned more than 60 years. Howard Brenner, professor emeritus of chemical engineering, died on Feb.
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