L
Lanny D. Schmidt
Researcher at University of Minnesota
Publications - 400
Citations - 23545
Lanny D. Schmidt is an academic researcher from University of Minnesota. The author has contributed to research in topics: Catalysis & Partial oxidation. The author has an hindex of 80, co-authored 400 publications receiving 22813 citations. Previous affiliations of Lanny D. Schmidt include ExxonMobil & University of Illinois at Urbana–Champaign.
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Journal ArticleDOI
Catalysis Research of Relevance to Carbon Management: Progress, Challenges, and Opportunities
Hironori Arakawa,Michele Aresta,John Nelson Armor,Mark A. Barteau,Eric J. Beckman,Alexis T. Bell,John E. Bercaw,Carol Creutz,Eckhard Dinjus,David A. Dixon,Kazunari Domen,Daniel L. DuBois,Juergen Eckert,Etsuko Fujita,Dorothy H. Gibson,William A. Goddard,D. Wayne Goodman,Jay O. Keller,Gregory J. Kubas,Harold H. Kung,James E. Lyons,Leo Ernest Manzer,Tobin J. Marks,Keiji Morokuma,Kenneth M. Nicholas,Roy A. Periana,Lawrence Que,Jens Rostrup-Nielson,Wolfgang M.H. Sachtler,Lanny D. Schmidt,Ayusman Sen,Gabor A. Somorjai,Peter C. Stair,B. Ray Stults,William Tumas +34 more
TL;DR: The goal of the "Opportunities for Catalysis Research in Carbon Management" workshop was to review within the context of greenhouse gas/carbon issues the current state of knowledge, barriers to further scientific and technological progress, and basic scientific research needs in the areas of H2 generation and utilization.
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Renewable hydrogen from ethanol by autothermal reforming.
TL;DR: This process has great potential for low-cost H2 generation in fuel cells for small portable applications where liquid fuel storage is essential and where systems must be small, simple, and robust.
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Production of Syngas by Direct Catalytic Oxidation of Methane
TL;DR: Rhodium was considerably superior to platinum in producing more H2 and less H2O, which can be explained by the known chemistry and kinetics of reactants, intermediates, and products on these surfaces.
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Synthesis gas formation by direct oxidation of methane over Pt monoliths
TL;DR: In this paper, the production of H2 and CO by catalytic partial oxidation of CH4 in air at atmospheric pressure has been examined over Pt and Pt-Rh coated monoliths at residence times between 10−4 and 1−2 sec.
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Steps in CH4 oxidation on Pt and Rh surfaces: High‐temperature reactor simulations
TL;DR: In this article, a 19-elementary-step model of adsorption, desorption and surface reaction steps with reaction parameters from the literature or from fits to previous experiments was used to simulate the direct oxidation of CH4 to H2 and CO in O2 and in air at high temperatures over alumina foam monoliths.