@misc{0aa9f36096bb4d239903f208f41b8f9c,
title = "Economic and Sustainability Assessment on Bio-Based 2,3-BDO Separation Approaches for Sustainable Aviation Fuel Production",
abstract = "Sustainable aviation fuel (SAF) plays a critical role in aviation decarbonization. SAF can be derived from lignocellulosic biomass, such as corn stover, via 2,3-butanediol (BDO) intermediate. BDO undergoes downstream upgrading, including dehydration, oligomerization, and hydrotreating, to make the hydrocarbon blend stock like SAF. Separating BDO from a fermentation broth is challenging. Water is more volatile than BDO, so energy consumption for ordinary distillation is prohibitively high. For BDO to be a feasible intermediate for sustainable biofuels such as SAF, the total energy usage for the BDO separation target was set to be no greater than 30% of its lower heating value (LHV). We have developed and explored less energy intensive separation technologies for processing dilute fermentation BDO broth into suitable feed for downstream upgrading. The combined economic and sustainability assessment was performed to assess the feasibility of select cost-effective process designs and comparisons with baseline technology (i.e., cascade vacuum distillation).",
keywords = "biorefinery, butanediol, LCA, life cycle assessment, membrane pervaporation, reactive extraction, SAF, Separation, sustainable aviation fuel, TEA, techno-economic analysis",
author = "Eric Tan",
year = "2023",
language = "American English",
series = "Presented at the AIChE Spring Meeting and 19th Global Congress on Process Safety (GCPS), 12-16 March 2023, Houston, Texas",
type = "Other",
}