Advancing Sustainable Aviation Fuel with High-Energy-Density Bicycloalkanes Production from Corn Stover Mixed Sugars: Article No. 102692

Adarsh Kumar; Rui Katahira; Zhibin Yang; Aaron Bayles; Abhishek Kumar; Dan Ruddy; David Bell; Joshua Heyne; David Johnson; Ashutosh Mittal

doi:10.1016/j.xcrp.2025.102692

Advancing Sustainable Aviation Fuel with High-Energy-Density Bicycloalkanes Production from Corn Stover Mixed Sugars: Article No. 102692

Adarsh Kumar
, Rui Katahira
, Zhibin Yang
, Aaron Bayles
, Abhishek Kumar
, Dan Ruddy
, David Bell
, Joshua Heyne
, David Johnson
, Ashutosh Mittal

Research output: Contribution to journal › Article › peer-review

Abstract

Bicycloalkanes stand out as a replacement for aromatics from conventional jet fuel (CJF) because of their high energy density and lower freezing point. Most reports to date have focused on synthesizing bicycloalkanes using model compounds or single sugar components of lignocellulose. Here, we utilize all lignocellulosic sugars of corn stover (CS) to produce bicycloalkanes. First, furfural (FFR) and 5-hydroxymethyl furfural (5-HMF) are produced via acid-catalyzed dehydration, achieving combined FFRs molar yields ranging from 65% to 73%, respectively. The resulting FFRs are converted to cyclopentanones with molar yields within the range of 57%-63% via hydrogenation and Piancatelli rearrangement. Further aldol condensation of cyclopentanones yields C10-C12 oxygenates with 80 mol %. Lastly, these oxygenates are directly hydrodeoxygenated to bicycloalkanes in a yield of 83.8 mol %. The resulting bicycloalkanes exhibit tier ..alpha.. fuel properties consistent with Jet A fuel (CJF) specifications and blend compatibility with CJF at a 37% volumetric ratio.

Original language	American English
Number of pages	11
Journal	Cell Reports Physical Science
Volume	6
Issue number	7
DOIs	https://doi.org/10.1016/j.xcrp.2025.102692
State	Published - 2025

NLR Publication Number

NREL/JA-2800-93366

Keywords

bicycloalkanes
biofuels
corn stover
cyclopentanones
fuel properties
furfurals
holistic approach
hydrodeoxygenation
mixed sugars
sustainable aviation fuel

Access to Document

10.1016/j.xcrp.2025.102692

https://www.nrel.gov/docs/fy25osti/93366.pdf

Cite this

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title = "Advancing Sustainable Aviation Fuel with High-Energy-Density Bicycloalkanes Production from Corn Stover Mixed Sugars: Article No. 102692",

abstract = "Bicycloalkanes stand out as a replacement for aromatics from conventional jet fuel (CJF) because of their high energy density and lower freezing point. Most reports to date have focused on synthesizing bicycloalkanes using model compounds or single sugar components of lignocellulose. Here, we utilize all lignocellulosic sugars of corn stover (CS) to produce bicycloalkanes. First, furfural (FFR) and 5-hydroxymethyl furfural (5-HMF) are produced via acid-catalyzed dehydration, achieving combined FFRs molar yields ranging from 65\% to 73\%, respectively. The resulting FFRs are converted to cyclopentanones with molar yields within the range of 57\%-63\% via hydrogenation and Piancatelli rearrangement. Further aldol condensation of cyclopentanones yields C10-C12 oxygenates with 80 mol \%. Lastly, these oxygenates are directly hydrodeoxygenated to bicycloalkanes in a yield of 83.8 mol \%. The resulting bicycloalkanes exhibit tier ..alpha.. fuel properties consistent with Jet A fuel (CJF) specifications and blend compatibility with CJF at a 37\% volumetric ratio.",

keywords = "bicycloalkanes, biofuels, corn stover, cyclopentanones, fuel properties, furfurals, holistic approach, hydrodeoxygenation, mixed sugars, sustainable aviation fuel",

author = "Adarsh Kumar and Rui Katahira and Zhibin Yang and Aaron Bayles and Abhishek Kumar and Dan Ruddy and David Bell and Joshua Heyne and David Johnson and Ashutosh Mittal",

year = "2025",

doi = "10.1016/j.xcrp.2025.102692",

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T2 - Article No. 102692

AU - Kumar, Adarsh

AU - Katahira, Rui

AU - Yang, Zhibin

AU - Bayles, Aaron

AU - Kumar, Abhishek

AU - Ruddy, Dan

AU - Bell, David

AU - Heyne, Joshua

AU - Johnson, David

AU - Mittal, Ashutosh

PY - 2025

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N2 - Bicycloalkanes stand out as a replacement for aromatics from conventional jet fuel (CJF) because of their high energy density and lower freezing point. Most reports to date have focused on synthesizing bicycloalkanes using model compounds or single sugar components of lignocellulose. Here, we utilize all lignocellulosic sugars of corn stover (CS) to produce bicycloalkanes. First, furfural (FFR) and 5-hydroxymethyl furfural (5-HMF) are produced via acid-catalyzed dehydration, achieving combined FFRs molar yields ranging from 65% to 73%, respectively. The resulting FFRs are converted to cyclopentanones with molar yields within the range of 57%-63% via hydrogenation and Piancatelli rearrangement. Further aldol condensation of cyclopentanones yields C10-C12 oxygenates with 80 mol %. Lastly, these oxygenates are directly hydrodeoxygenated to bicycloalkanes in a yield of 83.8 mol %. The resulting bicycloalkanes exhibit tier ..alpha.. fuel properties consistent with Jet A fuel (CJF) specifications and blend compatibility with CJF at a 37% volumetric ratio.

AB - Bicycloalkanes stand out as a replacement for aromatics from conventional jet fuel (CJF) because of their high energy density and lower freezing point. Most reports to date have focused on synthesizing bicycloalkanes using model compounds or single sugar components of lignocellulose. Here, we utilize all lignocellulosic sugars of corn stover (CS) to produce bicycloalkanes. First, furfural (FFR) and 5-hydroxymethyl furfural (5-HMF) are produced via acid-catalyzed dehydration, achieving combined FFRs molar yields ranging from 65% to 73%, respectively. The resulting FFRs are converted to cyclopentanones with molar yields within the range of 57%-63% via hydrogenation and Piancatelli rearrangement. Further aldol condensation of cyclopentanones yields C10-C12 oxygenates with 80 mol %. Lastly, these oxygenates are directly hydrodeoxygenated to bicycloalkanes in a yield of 83.8 mol %. The resulting bicycloalkanes exhibit tier ..alpha.. fuel properties consistent with Jet A fuel (CJF) specifications and blend compatibility with CJF at a 37% volumetric ratio.

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KW - corn stover

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KW - fuel properties

KW - furfurals

KW - holistic approach

KW - hydrodeoxygenation

KW - mixed sugars

KW - sustainable aviation fuel

U2 - 10.1016/j.xcrp.2025.102692

DO - 10.1016/j.xcrp.2025.102692

M3 - Article

SN - 2666-3864

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JF - Cell Reports Physical Science

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ER -

Advancing Sustainable Aviation Fuel with High-Energy-Density Bicycloalkanes Production from Corn Stover Mixed Sugars: Article No. 102692

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Keywords

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