John H. Seinfeld

John Hersh Seinfeld is an expert in the causes and modelling of tropospheric pollution. Seinfeld is currently the Louis E. Nohl Professor of Chemical Engineering at the California Institute of Technology.[1]

John H. Seinfeld
Born
Alma materUniversity of Rochester (B.S.) Princeton University (Ph.D.)
Scientific career
FieldsAtmospheric Science/Chemical Engineering
InstitutionsCalifornia Institute of Technology
Doctoral studentsSonia Kreidenweis
Websitehttp://www.che.caltech.edu/faculty/seinfeld_j/index.html

Education

He grew up in Elmira, New York and attended the University of Rochester, where he received a B.S. in Chemical Engineering, and Princeton University, where he received a Ph.D. in Chemical Engineering. His doctoral dissertation, titled "Optimal control of distributed-parameter systems," was concerned with the theory of control and optimization of distributed-parameter systems, that is, systems governed by partial differential equations.[2]

Career

He joined the California Institute of Technology (Caltech) as Assistant Professor of Chemical Engineering in 1967. Shortly after joining Caltech, he became intrigued with Los Angeles's historic smog, which, at that time, was near record highs. Caltech biology professor Ari Haagen-Smit had, in the early 1950s, surmised that ozone, the principal gaseous component of smog, results from reactions involving volatile hydrocarbons and oxides of nitrogen (NOx). Seinfeld realized that modeling the formation of smog over an urban area like Los Angeles would involve describing mathematically the three-dimensional transport, mixing, and chemical reactions in the atmosphere. A key component was describing the chemistry of the sunlight-driven hydrocarbon - NOx system. At the time of Haagen-Smit's classic papers, the actual mechanism of the underlying chemistry was unknown. The essential role of the hydroxyl (OH) radical in tropospheric chemistry was not established until about 1970. Seinfeld and his group formulated a chemical mechanism for ozone formation and in 1973 developed the first urban-scale atmospheric chemical-transport model, which was applied to the Los Angeles basin. This work, published in three papers in the journal, Atmospheric Environment, initiated what emerged as an entire field of scientific endeavor devoted to the modeling of tropospheric pollution. Although he continued to conduct research on optimization for several years, in the early 1970s he formed a major research group on atmospheric chemistry, aerosols, and atmospheric modeling.[3] As of 2009, he has served as mentor to 73 PhD graduates, about half of whom occupy faculty positions in major universities.

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gollark: The heterogeneous multiprocessing design is rather coolâ„¢ too, although Intel is doing that also.
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gollark: That's 3ish generations outdated.

References

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