@misc{ec46bbd31b354ec285ad3079f032d11f,
title = "Detection and Quantitation of Hydrogen Emissions Role and Status of Detection Technology",
abstract = "Hydrogen is a critical strategy to decarbonize energy and manufacturing industries. Hydrogen is nontoxic and can be handled safely, but potential for secondary greenhouse impacts. Hydrogen releases arise from a variety of mechanisms (process, design features, {"}leaks{"}) that contribute to total hydrogen releases. Detection methodologies will be critical to detect and quantify hydrogen emissions. Detection is to be integrated with advanced analytics (AI) and behavior modelling to effectively identify, quantify, and source locate hydrogen releases. Modelling of emissions will contribute to facility safety and reliability. DOE is committed to develop the tools to model and mitigate the impact of hydrogen releases which include: Support modeling to elucidate released hydrogen degradation; Support the development of tools for emissions quantitation; and Support engineering advancements to minimize hydrogen losses along the value chain (including process, design features, and leaks).",
keywords = "detection, Environmental Impacts Workshop, hydrogen emissions, quantification technologies, safety codes and standards",
author = "William Buttner and David Peaslee and James Stewart and Logan Martens and Kevin Hartmann and Genevieve Saur and Ian Palin and Olivia Robinson and Jack Loveland and Donggyu Jang and Munjal Shah and Jeffrey Gifford",
year = "2024",
language = "American English",
series = "Presented at the Hydrogen Emissions and Environmental Impacts Workshop, 16-17 September 2024, Irvine, California",
type = "Other",
}