Vistra agrees USD 3.25bn buyout of zero-carbon energy unit
Sep 19, 2024 11:01 CESTDevelopers in the United States have plans to expand hydrogen production using technologies that make use of electricity, an early sign that hydrogen production could move away from its current reliance on hydrocarbon feedstocks in the coming years.
Planned electrolyser installations that use electricity to produce hydrogen from water, if built, would expand capacity in the United States from 116 MW of current capacity to 4,524 MW, according to information collected by the US Department of Energy’s Hydrogen Program Record. If all the planned projects are implemented, annual US production of hydrogen through electrolysis could total about 0.72 million metric tonnes (MMmt) compared with the current 10 MMmt of hydrogen currently produced from fossil fuels and as a byproduct from other industrial sources. Electrolysers that meet a threshold for low carbon intensity could qualify for a production tax credit if developers begin construction by 2033.
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Data source: U.S. Department of Energy, Office of Energy Efficiency and Renewable Energy
Hydrogen is a critical input for petroleum refining and fertiliser production, and it can also be used as a storable fuel for electric power generation to be used in hydrogen gas turbines or blended with natural gas for use in traditional gas turbines. It is the simplest element found naturally on earth and is traditionally separated out of hydrocarbons, such as natural gas and coal, through a process known as steam methane reforming (SMR). The 10 MMmt of hydrogen produced annually in the United States is almost completely supplied by SMRs or produced as byproduct hydrogen obtained from a chemical plant or other facility where hydrogen is not the main product. Using EIA's Manufacturing Energy Consumption Survey 2018—the most recent year for which EIA has data—and EIA's Annual Refinery Capacity Report, EIA estimates current US SMR capacity totals 7.6 MMmt of hydrogen a year.
Data source: U.S. Energy Information Administration, Manufacturing Energy Consumption Survey 2018 and Petroleum Supply Annual
EIA is currently developing a new hydrogen supply model and adjusting consumption models to better incorporate hydrogen projections in its Annual Energy Outlook for 2025. It will host a working group discussion with stakeholders on June 12, 2024.
Electrolysers versus Steam Methane Reforming (SMR)
Electrolysers produce hydrogen through electrolysis, a process that separates hydrogen from water using an electrical current, with oxygen as the only byproduct. Because SMRs use hydrocarbons as feedstock, their byproducts include carbon monoxide and carbon dioxide, which must be captured and sequestered to achieve net-zero emissions. Hydrogen produced by electrolysers is considered carbon-neutral if the electricity consumed is generated from renewable resources.
According to the International Energy Agency (IEA), two types of electrolyser technologies are currently commercially deployed, both of which require further improvements to stay competitive: Proton Exchange Membrane (PEM) and Alkaline. These technologies vary by construction cost, start-up times, and materials used to convert electricity to hydrogen. No matter the materials used, electrolysers can leverage electricity generated from renewable resources.
Although several electrolyser projects are planned in the United States, traditional SMR technology produces most of the hydrogen commercially consumed in the United States today.
The SMR process applies high-temperature steam to methane and a catalyst to produce hydrogen, carbon monoxide, and carbon dioxide. Industrial facilities and petroleum refineries primarily use natural gas as the source of methane for hydrogen production. SMR units can be fitted with carbon capture and storage (CCS) capabilities to reduce the carbon footprint of hydrogen production by storing carbon dioxide (CO2) underground. This technology is not new; since 2013, the Coffeyville Resources Nitrogen Fertilisers plant in Oklahoma has been capturing CO2 created by hydrogen production and delivering it for enhanced oil recovery.
For more information on hydrogen, please visit EIA's Energy Explained page on hydrogen.
Principal contributor: Neil Wagner
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