These changes came into effect in January 2019. It also enabled DAC projects to generate credits regardless of their location even if they do not have a fuel component as the only exception to the rule. In 2018, the California’s Low Carbon Fuel Standard (LCFS) was amended to enable carbon capture and storage projects that are associated with the production of transport fuels sold in California to generate LCFS credits. The FUTURE Act also allows for the first time use of the tax credit for capture of carbon monoxide from industrial facilities like steel mills, direct air capture (DAC) of CO 2 from the atmosphere, and for the conversion of captured carbon into useful products. The legislation reforms and extends a federal tax credit to boost carbon capture, known as Section 45Q. The two-year budget package included the FUTURE Act, sponsored by Senators Heidi Heitkamp (D-N.D.), Shelley Moore Capito (R-W.Va.), Sheldon Whitehouse (D-R.I.), and John Barrasso (R-Wyo.). In February 2018, Congress extended and expanded key financial incentives for investment in several advanced low-carbon technologies. There is strong bipartisan support to accelerate carbon capture deployment. The addition of carbon capture makes the hydrogen production process nearly emissions free, when clean electricity is used to power the carbon capture facility. This process produces blue hydrogen by reforming natural gas into hydrogen and carbon dioxide the carbon dioxide by-product will be captured, transported, and stored in deep geologic formations. Spurred by the NRG COSIA Carbon XPRIZE, researchers are exploring even more uses, such as transforming carbon emissions into algae biofuels and building materials.Īs many experts see hydrogen as a clean fuel of the future and expect it to play a major role in decarbonizing the industrial sector, a process such as natural gas reforming with carbon capture technology presents itself as the lowest cost option for producing clean hydrogen. companies are also investing in new technologies to re-use captured carbon emissions in innovative ways, including jet fuel and automobile seats. For models without carbon capture, emissions reduction costs rose 138 percent.įor nearly a half century, in a practice called enhanced oil recovery (EOR), carbon dioxide has been used to extract additional oil from developed oil fields in the United States. More than half of the models cited in the Intergovernmental Panel on Climate Change’s Fifth Assessment Report required carbon capture for a goal of staying within 2 degrees Celsius of warming from pre-industrial days. Accelerating deployment of carbon capture technology is essential to reduce emissions from these power plants, and from industrial plants like cement and steel manufacturing. Generon’s patented membrane modules are made in Pittsburg, CA, and PSA module design, engineering, and compression services are based in Houston, TX.Even as nations diversify their energy portfolios, fossil fuels are expected to meet a majority of the world’s energy demand for several decades. Generon® technology portfolio includes hollow fiber membrane and module manufacturing, gas separation & purification technology, engineering, and compression services. Generon membrane modules along with our PSA (pressure swing adsorption) technology, He purities up to 99.999% can be achieved to meet or exceed the specific requirements in Ultra-Pure Helium applications.Īs part of Generon’s intensive and continuous R&D effort, we have developed a pilot plant for testing new membrane formulations and evaluating membrane performance at various gas compositions & process conditions which are key for delivering success. Generon’s membrane modules combined with our PSA (pressure swing adsorption) technology can achieve H2 purities up to 99.999% to meet or exceed Ultra-Pure Hydrogen requirements (Syngas, Fuel cells, GTL fuels). The biomethane can be produced to meet or exceed pipeline-grade natural gas specifications and fueling vehicles or conversion to LNG. Generon® proprietary hollow fiber membrane technology with high CO2/CH4 selectivity and optimum gasflux, cleanly upgrades biogas and landfill gas to biomethane. Generon’s next generation of patented membrane modules stems from extensive research and development and offers optimum CO2 selectivity which results in maximum purity and recovery. Generon’s process gas team showcased these latest product advancements at the Carbon Capture Technology and H2 expo in Houston recently. Generon, a market leader in patented air separation membrane technology for over 40 years, is diversifying its membrane and PSA technology offerings to include separations for CO2, CH4, He, and H2 for the biogas, refineries, natural gas processing, and cement industries. Generon Process Gas Technology at the Carbon Capture Technology & H2 Expo
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