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United States Project Notice - Plasma-Assisted In-Situ Reforming Of Flare Gases To Achieve Near-Zero Methane Emissions


Project Notice

PNR 54439
Project Name Plasma-assisted In-situ Reforming of Flare Gases to Achieve Near-Zero Methane Emissions
Project Detail REMEDY (Reducing Emissions of Methane Every Day of the Year) aims to reduce methane emissions from three sources in the oil, gas, and coal value chains: (1) exhaust from 50,000 natural gas-fired lean-burn engines used to drive compressors, generate electricity, and increasingly repower ships, (2) the estimated 300,000 flares required for safe operation of oil and gas facilities, and (3) coal mine ventilation of air and methane exhausted from 250 operating underground mines. These sources are responsible for at least 10% of U.S. anthropogenic methane emissions. Reducing emissions of methane, which has a high greenhouse gas warming potential, will ameliorate climate change. The intent is to de-risk and identify economies of scale for the proposed systems so they can advance to commercialization. Project Innovation + Advantages: The University of Minnesota will develop a non-thermal, low-temperature, plasma-assisted system for (1) in-situ flare gas reforming, (2) ignition, and (3) flame stabilization for small, unmanned pipe flares. Flares safely dispose of waste gases by burning them under controlled conditions. The new system will substantially enhance fuel reactivity by producing intermediate species such as ethylene, acetylene, and hydrogen. These hydrocarbons are highly reactive compared with methane and dramatically increase flare efficiency. This plasma system is ideal for infrequently maintained pipe flares operating in remote sites due to its low cost, easy implementation, minimal maintenance, and low operating energy resulting from the plasma running on a solar-powered battery. The plasma system can also be used as a source of on-demand ignition in flares, eliminating the need for a continuously burning pilot that creates additional emissions. The proposed technology would improve flare destruction and removal efficiency to = 99.5% and could eliminate 3.8–15.1 million metric tons of CO2 equivalent methane emissions per year from flare operation, representing a 28–72% reduction of existing emissions. Potential Impact: REMEDY addresses methane emissions from domestic oil, gas, and coal value chains, accounting for 78% of U.S. primary energy.
Funded By Self-Funded
Sector Energy & Power
Country United States , Northern America
Project Value USD 2,141,876

Contact Information

Company Name University of Minnesota (UMN)
Web Site https://arpa-e.energy.gov/technologies/projects/plasma-assisted-situ-reforming-flare-gases-achieve-near-zero-methane

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