High-Octane Gasoline from Lignocellulosic Biomass via Syngas and Methanol/Dimethyl Ether Intermediates: 2021 State of Technology

Kylee Harris, Connor Nash, Daniel Ruddy, Abhijit Dutta, Dan Dupuis, Earl Christensen, Alexander Rein, Eric Tan, Damon Hartley, Hao Cai, Longwen Ou

Research output: NRELTechnical Report

Abstract

The 2021 state of technology (SOT) assessment for the indirect liquefaction (IDL) of lignocellulosic biomass to high-octane gasoline (HOG) via methanol and dimethyl ether (DME) intermediates details the techno-economic analysis (TEA) results and technical progress of the pathway since the 2020 SOT report. A detailed process description and collection of underlying assumptions is given the 2015 design report. In 2021, research efforts rigorously quantified the selectivity of DME to aromatic compounds. As a result, the overall carbon selectivity to hydrocarbon products was updated based upon new findings. Additionally, research conducted over the past few years resulted in successful lower temperature regeneration of NREL's Cu/BEA catalyst with favorable implications on catalyst longevity. Discussions with an engineering firm resulted in an update to the excess air requirement for process combustors (including the char combustor, tar reformer combustor, and catalyst regenerator) in which excess air was reduced from 20% excess to 10%. The cumulative effect of the above efforts was used to calculate a minimum fuel selling price for the modeled pathway. Sensitivity cases examining federal carbon tax credits from CO2 capture, product selectivity and yield, catalyst lifetime, and other key financial and process parameters were also considered in this assessment.
Original languageAmerican English
Number of pages35
DOIs
StatePublished - 2022

NREL Publication Number

  • NREL/TP-5100-81178

Keywords

  • biomass
  • dimethyl-ether
  • DME
  • gasification
  • high-octane gasoline
  • HOG
  • methanol
  • SOT
  • state of technology
  • syngas
  • TEA
  • techno-economic analysis

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