DFO Computational Modeling Project - Catalytic Upgrading of Bio-based Furfural to 1,5-Pentanediol: A New Renewable Monomer for the Coatings Industry (Final Report)

Bruce Adkins; Canan Karakaya; Kevin Barnett; Nik Victor; Dan McLelland

doi:10.2172/1965243

DFO Computational Modeling Project - Catalytic Upgrading of Bio-based Furfural to 1,5-Pentanediol: A New Renewable Monomer for the Coatings Industry (Final Report)

Bruce Adkins
, Canan Karakaya
, Kevin Barnett
, Nik Victor
, Dan McLelland

Chemical Process Scale Up

Research output: Other contribution › Technical Report

Abstract

This report summarizes the results of a collaborative effort between Oak Ridge National Laboratory (ORNL) and Pyran™ Inc. to utilize modeling capabilities developed by the CCPC (Consortium for Computational Physics and Chemistry) to assist Pyran in scaling up its proprietary process for thermocatalytic conversion of furfural to 1,5 pentanediol (PDO). Pyran’s bio-based PDO is a direct replacement for petroleum-based PDO and 1,6 hexanediol (HDO) currently used in polymers, additives, coatings, adhesives and sealants. The current market is in excess of $\$$1B/yr. According to Pyran, their production process results in 95+% reduction in fossil CO₂ at lower production costs compared to the existing petroleum-based routes for PDO & HDO. Other chemicals based on intermediates from this process have current markets in excess of $\$$10B/yr.

Original language	English
Place of Publication	United States
DOIs	https://doi.org/10.2172/1965243
State	Published - 2023

Keywords

36 MATERIALS SCIENCE
37 INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY

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10.2172/1965243

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title = "DFO Computational Modeling Project - Catalytic Upgrading of Bio-based Furfural to 1,5-Pentanediol: A New Renewable Monomer for the Coatings Industry (Final Report)",

abstract = "This report summarizes the results of a collaborative effort between Oak Ridge National Laboratory (ORNL) and Pyran{\texttrademark} Inc. to utilize modeling capabilities developed by the CCPC (Consortium for Computational Physics and Chemistry) to assist Pyran in scaling up its proprietary process for thermocatalytic conversion of furfural to 1,5 pentanediol (PDO). Pyran{\textquoteright}s bio-based PDO is a direct replacement for petroleum-based PDO and 1,6 hexanediol (HDO) currently used in polymers, additives, coatings, adhesives and sealants. The current market is in excess of \$\textbackslash{}\$\$1B/yr. According to Pyran, their production process results in 95+\% reduction in fossil CO2 at lower production costs compared to the existing petroleum-based routes for PDO \& HDO. Other chemicals based on intermediates from this process have current markets in excess of \$\textbackslash{}\$\$10B/yr.",

keywords = "36 MATERIALS SCIENCE, 37 INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY",

author = "Bruce Adkins and Canan Karakaya and Kevin Barnett and Nik Victor and Dan McLelland",

year = "2023",

doi = "10.2172/1965243",

language = "English",

type = "Other",

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TY - GEN

T1 - DFO Computational Modeling Project - Catalytic Upgrading of Bio-based Furfural to 1,5-Pentanediol: A New Renewable Monomer for the Coatings Industry (Final Report)

AU - Adkins, Bruce

AU - Karakaya, Canan

AU - Barnett, Kevin

AU - Victor, Nik

AU - McLelland, Dan

PY - 2023

Y1 - 2023

N2 - This report summarizes the results of a collaborative effort between Oak Ridge National Laboratory (ORNL) and Pyran™ Inc. to utilize modeling capabilities developed by the CCPC (Consortium for Computational Physics and Chemistry) to assist Pyran in scaling up its proprietary process for thermocatalytic conversion of furfural to 1,5 pentanediol (PDO). Pyran’s bio-based PDO is a direct replacement for petroleum-based PDO and 1,6 hexanediol (HDO) currently used in polymers, additives, coatings, adhesives and sealants. The current market is in excess of $\$$1B/yr. According to Pyran, their production process results in 95+% reduction in fossil CO2 at lower production costs compared to the existing petroleum-based routes for PDO & HDO. Other chemicals based on intermediates from this process have current markets in excess of $\$$10B/yr.

AB - This report summarizes the results of a collaborative effort between Oak Ridge National Laboratory (ORNL) and Pyran™ Inc. to utilize modeling capabilities developed by the CCPC (Consortium for Computational Physics and Chemistry) to assist Pyran in scaling up its proprietary process for thermocatalytic conversion of furfural to 1,5 pentanediol (PDO). Pyran’s bio-based PDO is a direct replacement for petroleum-based PDO and 1,6 hexanediol (HDO) currently used in polymers, additives, coatings, adhesives and sealants. The current market is in excess of $\$$1B/yr. According to Pyran, their production process results in 95+% reduction in fossil CO2 at lower production costs compared to the existing petroleum-based routes for PDO & HDO. Other chemicals based on intermediates from this process have current markets in excess of $\$$10B/yr.

KW - 36 MATERIALS SCIENCE

KW - 37 INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY

U2 - 10.2172/1965243

DO - 10.2172/1965243

M3 - Technical Report

CY - United States

ER -

DFO Computational Modeling Project - Catalytic Upgrading of Bio-based Furfural to 1,5-Pentanediol: A New Renewable Monomer for the Coatings Industry (Final Report)

Abstract

Keywords

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