@misc{0f06135f3965492dbc858f445b5ec289,
title = "Potential Integration Between Residual Biogenic Process Resources and Greener Hydrogen Production from Steam Reformers",
abstract = "Biomass conversion processes have varying efficiencies towards specific products like liquid fuels; process inefficiencies result in byproducts such as off-gases, heat, and solid residues such as char. The efficient use of these byproducts is key towards getting the maximum sustainability benefits from valuable biomass resources. For example, there are various utility product options that can utilize heat and off-gases from biomass pyrolysis processes; they include process heat and steam, hydrogen, fuel gas, and electricity. Further, there is potential for the use of the off-gases to supplement natural gas feed into steam reformers for hydrogen production. This presentation highlights results from previous analyses on tradeoffs based on utility byproduct choices (https://doi.org/10.1039/D3SE00745F); maximizing hydrogen production from off-gases is one potential winning strategy. This leads to the question regarding the utilization of these off-gases in existing steam reformers and the process impacts from feeding off-gases. Process modeling of a steam reformer system (https://doi.org/10.1002/adsu.20230021) quantifies those impacts and shows how much off-gas substitution is possible within the limits of an existing design with such an integration strategy.",
keywords = "biogenic gases, green hydrogen, pyrolysis, steam reforming",
author = "Abhijit Dutta and Michael Talmadge and Eric Tan and Joshua Schaidle",
year = "2024",
language = "American English",
series = "Presented at TC Biomass 2024, 10-12 September 2024, Itasca, Illinois",
publisher = "National Renewable Energy Laboratory (NREL)",
address = "United States",
type = "Other",
}