Search Results - "Hilten, Roger N"

Analysis of Crystallinity Index and Hydrolysis Rates in the Bioenergy Crop Sorghum bicolor by Vandenbrink, Joshua P., Hilten, Roger N., Das, K. C., Paterson, Andrew H., Feltus, Frank Alex

“…Maximum yield from any cellulosic bioenergy crop is largely dependent upon total dry weight at harvest and process-specific bioconversion rates. Using…”
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Comparison of three accelerated aging procedures to assess bio-oil stability by Hilten, Roger N., Das, K.C.

“…The current study utilizes three stability ranking methods to compare oxidative and thermal stability of alcohol-stabilized and un-stabilized slow pyrolysis…”
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Characterization of Pine Pellet and Peanut Hull Pyrolysis Bio-oils by Negative-Ion Electrospray Ionization Fourier Transform Ion Cyclotron Resonance Mass Spectrometry by Jarvis, Jacqueline M, McKenna, Amy M, Hilten, Roger N, Das, K. C, Rodgers, Ryan P, Marshall, Alan G

“…Pyrolysis of solid biomass, in this case pine pellets and peanut hulls, generates a hydrocarbon-rich liquid product (bio-oil) consisting of oily and aqueous…”
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In-Line Esterification of Pyrolysis Vapor with Ethanol Improves Bio-oil Quality by Hilten, Roger N, Bibens, Brian P, Kastner, James R, Das, K. C

“…A simple reactive condensation technique was developed to decrease the concentration of reactive species in the oily phase of two-phase pyrolysis oil as a…”
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Effect of Torrefaction on Bio-oil Upgrading over HZSM-5. Part 1: Product Yield, Product Quality, and Catalyst Effectiveness for Benzene, Toluene, Ethylbenzene, and Xylene Production by Hilten, Roger N, Speir, Richard A, Kastner, James R, Mani, Sudhagar, Das, K. C

“…A three-step bio-oil production process involving torrefaction pretreatment (at 225, 250, or 275 °C with a 20 min hold time), pyrolysis (at 500 °C with two…”
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Effect of Torrefaction on Bio-oil Upgrading over HZSM-5. Part 2: Byproduct Formation and Catalyst Properties and Function by Hilten, Roger N, Speir, Richard A, Kastner, James R, Mani, Sudhagar, Das, K. C

“…A three-step bio-oil production process involving torrefaction pretreatment (225, 250, or 275 °C at 20 min hold time), pyrolysis (500 °C, two heating rates),…”
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Tissue specific analysis of bioconversion traits in the bioenergy grass Sorghum bicolor by Vandenbrink, Joshua P., Hammonds, Ryan E., Hilten, Roger N., Das, K.C., Henson, J. Michael, Paterson, Andrew H., Feltus, F. Alex

“…•We demonstrate differential hydrolysis rates for sorghum leaf/stem tissue.•We examine the roles that composition and CI play in leaf/stem hydrolysis.•We…”
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Quantitative models of hydrolysis conversion efficiency and biomass crystallinity index for plant breeding by Vandenbrink, Joshua P., Hilten, Roger N., Das, K.C., Paterson, Andrew H., Alex Feltus, Frank

“…In conjunction with improvements to processing technology, selective breeding can be used to increase bioenergy yield potential either through an increase in…”
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Effect of Torrefaction on Bio-oil Upgrading over HZSM-5. Part 2: Byproduct Formation and Catalyst Properties and Function by HILTEN, Roger N, SPEIR, Richard A, KASTNER, James R, MANI, Sudhagar, DAS, K. C

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Effect of Torrefaction on Bio-oil Upgrading over HZSM-5. Part 1: Product Yield, Product Quality, and Catalyst Effectiveness for Benzene, Toluene, Ethylbenzene, and Xylene Production by HILTEN, Roger N, SPEIR, Richard A, KASTNER, James R, MANI, Sudhagar, DAS, K. C

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In-Line Esterification of Pyrolysis Vapor with Ethanol Improves Bio-oil Quality by HILTEN, Roger N, BIBENS, Brian P, KASTNER, James R, DAS, K. C

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Characterization of Pine Pellet and Peanut Hull Pyrolysis Bio-oils by Negative-Ion Electrospray Ionization Fourier Transform Ion Cyclotron Resonance Mass Spectrometry by JARVIS, Jacqueline M, MCKENNA, Amy M, HILTEN, Roger N, DAS, K. C, RODGERS, Ryan P, MARSHALL, Alan G

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