Carbonic Acid Pretreatment of Biomass

This project sought to address six objectives, outlined below. The objectives were met through the completion of ten tasks. 1) Solidify the theoretical understanding of the binary CO2/H2O system at reaction temperatures and pressures. The thermodynamics of pH prediction have been improved to include...

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Main Authors: G. Peter van Walsum, Kemantha Jayawardhana, Damon Yourchisin, Robert McWilliams, Vanessa Castleberry
Language:unknown
Published: 2016
Subjects:
09 BIOMASS FUELS
ACTIVATION ENERGY
AGRICULTURAL WASTES
BIOMASS
CARBOHYDRATES
CARBONATES
CARBONIC ACID
ECONOMIC ANALYSIS
ENZYMATIC HYDROLYSIS
FORECASTING
MAIZE
PRODUCTION
SUBSTRATES
SULFURIC ACID
THERMODYNAMICS
TITRATION
WATER
WOOD
Carbonic acid
Online Access:http://www.osti.gov/servlets/purl/882226
https://www.osti.gov/biblio/882226
https://doi.org/10.2172/882226
id ftosti:oai:osti.gov:882226
record_format openpolar
spelling ftosti:oai:osti.gov:882226 2023-07-30T04:02:53+02:00 Carbonic Acid Pretreatment of Biomass G. Peter van Walsum Kemantha Jayawardhana Damon Yourchisin Robert McWilliams Vanessa Castleberry 2016-06-20 application/pdf http://www.osti.gov/servlets/purl/882226 https://www.osti.gov/biblio/882226 https://doi.org/10.2172/882226 unknown http://www.osti.gov/servlets/purl/882226 https://www.osti.gov/biblio/882226 https://doi.org/10.2172/882226 doi:10.2172/882226 09 BIOMASS FUELS ACTIVATION ENERGY AGRICULTURAL WASTES BIOMASS CARBOHYDRATES CARBONATES CARBONIC ACID ECONOMIC ANALYSIS ENZYMATIC HYDROLYSIS FORECASTING MAIZE PRODUCTION SUBSTRATES SULFURIC ACID THERMODYNAMICS TITRATION WATER WOOD 2016 ftosti https://doi.org/10.2172/882226 2023-07-11T08:43:04Z This project sought to address six objectives, outlined below. The objectives were met through the completion of ten tasks. 1) Solidify the theoretical understanding of the binary CO2/H2O system at reaction temperatures and pressures. The thermodynamics of pH prediction have been improved to include a more rigorous treatment of non-ideal gas phases. However it was found that experimental attempts to confirm theoretical pH predictions were still off by a factor of about 1.8 pH units. Arrhenius experiments were carried out and the activation energy for carbonic acid appears to be substantially similar to sulfuric acid. Titration experiments have not yet confirmed or quantified the buffering or acid suppression effects of carbonic acid on biomass. 2) Modify the carbonic acid pretreatment severity function to include the effect of endogenous acid formation and carbonate buffering, if necessary. It was found that the existing severity functions serve adequately to account for endogenous acid production and carbonate effects. 3) Quantify the production of soluble carbohydrates at different reaction conditions and severity. Results show that carbonic acid has little effect on increasing soluble carbohydrate concentrations for pretreated aspen wood, compared to pretreatment with water alone. This appears to be connected to the release of endogenous acids by the substrate. A less acidic substrate such as corn stover would derive benefit from the use of carbonic acid. 4) Quantify the production of microbial inhibitors at selected reaction conditions and severity. It was found that the release of inhibitors was correlated to reaction severity and that carbonic acid did not appear to increase or decrease inhibition compared to pretreatment with water alone. 5) Assess the reactivity to enzymatic hydrolysis of material pretreated at selected reaction conditions and severity. Enzymatic hydrolysis rates increased with severity, but no advantage was detected for the use of carbonic acid compared to water alone. 6) Determine ... Other/Unknown Material Carbonic acid SciTec Connect (Office of Scientific and Technical Information - OSTI, U.S. Department of Energy)
institution Open Polar
collection SciTec Connect (Office of Scientific and Technical Information - OSTI, U.S. Department of Energy)
op_collection_id ftosti
language unknown
topic 09 BIOMASS FUELS
ACTIVATION ENERGY
AGRICULTURAL WASTES
BIOMASS
CARBOHYDRATES
CARBONATES
CARBONIC ACID
ECONOMIC ANALYSIS
ENZYMATIC HYDROLYSIS
FORECASTING
MAIZE
PRODUCTION
SUBSTRATES
SULFURIC ACID
THERMODYNAMICS
TITRATION
WATER
WOOD
spellingShingle 09 BIOMASS FUELS
ACTIVATION ENERGY
AGRICULTURAL WASTES
BIOMASS
CARBOHYDRATES
CARBONATES
CARBONIC ACID
ECONOMIC ANALYSIS
ENZYMATIC HYDROLYSIS
FORECASTING
MAIZE
PRODUCTION
SUBSTRATES
SULFURIC ACID
THERMODYNAMICS
TITRATION
WATER
WOOD
G. Peter van Walsum
Kemantha Jayawardhana
Damon Yourchisin
Robert McWilliams
Vanessa Castleberry
Carbonic Acid Pretreatment of Biomass
topic_facet 09 BIOMASS FUELS
ACTIVATION ENERGY
AGRICULTURAL WASTES
BIOMASS
CARBOHYDRATES
CARBONATES
CARBONIC ACID
ECONOMIC ANALYSIS
ENZYMATIC HYDROLYSIS
FORECASTING
MAIZE
PRODUCTION
SUBSTRATES
SULFURIC ACID
THERMODYNAMICS
TITRATION
WATER
WOOD
description This project sought to address six objectives, outlined below. The objectives were met through the completion of ten tasks. 1) Solidify the theoretical understanding of the binary CO2/H2O system at reaction temperatures and pressures. The thermodynamics of pH prediction have been improved to include a more rigorous treatment of non-ideal gas phases. However it was found that experimental attempts to confirm theoretical pH predictions were still off by a factor of about 1.8 pH units. Arrhenius experiments were carried out and the activation energy for carbonic acid appears to be substantially similar to sulfuric acid. Titration experiments have not yet confirmed or quantified the buffering or acid suppression effects of carbonic acid on biomass. 2) Modify the carbonic acid pretreatment severity function to include the effect of endogenous acid formation and carbonate buffering, if necessary. It was found that the existing severity functions serve adequately to account for endogenous acid production and carbonate effects. 3) Quantify the production of soluble carbohydrates at different reaction conditions and severity. Results show that carbonic acid has little effect on increasing soluble carbohydrate concentrations for pretreated aspen wood, compared to pretreatment with water alone. This appears to be connected to the release of endogenous acids by the substrate. A less acidic substrate such as corn stover would derive benefit from the use of carbonic acid. 4) Quantify the production of microbial inhibitors at selected reaction conditions and severity. It was found that the release of inhibitors was correlated to reaction severity and that carbonic acid did not appear to increase or decrease inhibition compared to pretreatment with water alone. 5) Assess the reactivity to enzymatic hydrolysis of material pretreated at selected reaction conditions and severity. Enzymatic hydrolysis rates increased with severity, but no advantage was detected for the use of carbonic acid compared to water alone. 6) Determine ...
author G. Peter van Walsum
Kemantha Jayawardhana
Damon Yourchisin
Robert McWilliams
Vanessa Castleberry
author_facet G. Peter van Walsum
Kemantha Jayawardhana
Damon Yourchisin
Robert McWilliams
Vanessa Castleberry
author_sort G. Peter van Walsum
title Carbonic Acid Pretreatment of Biomass
title_short Carbonic Acid Pretreatment of Biomass
title_full Carbonic Acid Pretreatment of Biomass
title_fullStr Carbonic Acid Pretreatment of Biomass
title_full_unstemmed Carbonic Acid Pretreatment of Biomass
title_sort carbonic acid pretreatment of biomass
publishDate 2016
url http://www.osti.gov/servlets/purl/882226
https://www.osti.gov/biblio/882226
https://doi.org/10.2172/882226
genre Carbonic acid
genre_facet Carbonic acid
op_relation http://www.osti.gov/servlets/purl/882226
https://www.osti.gov/biblio/882226
https://doi.org/10.2172/882226
doi:10.2172/882226
op_doi https://doi.org/10.2172/882226
_version_ 1772813740705579008

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