R
Russell P. Lachance
Researcher at Massachusetts Institute of Technology
Publications - 6
Citations - 2062
Russell P. Lachance is an academic researcher from Massachusetts Institute of Technology. The author has contributed to research in topics: Supercritical fluid & Supercritical water oxidation. The author has an hindex of 6, co-authored 6 publications receiving 1796 citations. Previous affiliations of Russell P. Lachance include United States Military Academy.
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Thermochemical biofuel production in hydrothermal media: A review of sub- and supercritical water technologies
Andrew A. Peterson,Andrew A. Peterson,Frédéric Vogel,Russell P. Lachance,Morgan Fröling,Michael Jerry Antal,Jefferson W. Tester +6 more
TL;DR: Several biomass hydrothermal conversion processes are in development or demonstration as mentioned in this paper, which are generally lower temperature (200-400 °C) reactions which produce liquid products, often called bio-oil or bio-crude.
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Kinetic Evidence of the Maillard Reaction in Hydrothermal Biomass Processing: Glucose−Glycine Interactions in High-Temperature, High-Pressure Water
TL;DR: The presence of glucose always resulted in higher glycine destruction and the presence of glycine resulted in increased or decreased glucose destruction, depending on initial concentrations, which is consistent with results reported in the literature for lower temperature Maillard reactions.
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Thiodiglycol hydrolysis and oxidation in sub- and supercritical water
TL;DR: In this paper, the authors examined the performance of thiodiglycol (HOC 2 H 4 ) 2 S over temperatures ranging from 100 to 525°C at a pressure of approximately 250 bar.
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Co-oxidation of methylphosphonic acid and ethanol in supercritical water I: Experimental results
TL;DR: The co-oxidative effect of ethanol on methylphosphonic acid (MPA or PO(OH)2CH3) was characterized for a range of MPA concentrations and ethanol concentrations for temperatures of 473 and 528 °C, a pressure of 245 bar, and stoichiometric oxygen for the complete combustion of both organic compounds.
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Modeling oxidation and hydrolysis reactions in supercritical water—free radical elementary reaction networks and their applications
Jason M. Ploeger,P. A. Bielenberg,J. L. Dinaro-Blanchard,Russell P. Lachance,Joshua D. Taylor,William H. Green,Jefferson W. Tester +6 more
TL;DR: In this paper, it was shown that with considerably more computing power and a more robust collection of elementary reaction rate parameters from the combustion literature, rate predictions in the relatively low-temperature, high-pressure SCWO environment are more effective and accura...