Partnering with City of Lancaster
LANCASTER, Calif.–(BUSINESS WIRE)–May 20, 2020–
The international power firm SGH2 is bringing the world’s greatest inexperienced hydrogen manufacturing facility to Lancaster. The plant will characteristic SGH2’s pioneering expertise, which makes use of recycled blended paper waste to provide “greener than green” hydrogen that reduces carbon emissions by two to 3 instances greater than inexperienced hydrogen produced utilizing electrolysis and renewable power, and is 5 to seven instances cheaper. SGH2 inexperienced hydrogen is price aggressive with “gray” hydrogen produced from fossil fuels like pure gasoline, which includes the vast majority of hydrogen used within the United States.
The City of Lancaster will host and co-own the inexperienced hydrogen manufacturing facility, in accordance with a latest memorandum of understanding. The SGH2 Lancaster plant will be capable of produce as much as 11,000 kilograms of inexperienced hydrogen per day, and three.eight million kilograms per 12 months – practically 3 times greater than some other inexperienced hydrogen facility, constructed or underneath development, wherever on the planet. The facility will course of 42,000 tons of recycled waste yearly. The City of Lancaster will provide assured feedstock of recyclables, and can save between $50 to $75 per ton in landfilling and landfill area prices. California’s largest house owners and operators of hydrogen refueling stations (HRS) are in negotiation to buy the plant’s output to provide present and future HRS to be constructed within the state over the following ten years.
“As the world, and our city, cope with the coronavirus crisis, we are looking for ways to ensure a better future. We know a circular economy with renewable energy is the path, and we have positioned ourselves to be the alternative energy capital of the world. That’s why our partnership with SGH2 is so important,” mentioned Lancaster Mayor R. Rex Parris. “This is game-changing technology. It not only solves our air quality and climate challenges by producing pollution-free hydrogen. It also solves our plastics and waste problems by turning them into green hydrogen, and does it cleaner and at costs far lower than any other green hydrogen producer.”
Developed by NASA scientist Dr. Salvador Camacho and SGH2 CEO Dr. Robert T. Do, a biophysicist and doctor, SGH2’s proprietary expertise gasifies any sort of waste – from plastic to paper and from tires to textiles – to make hydrogen. The expertise has been vetted and validated, technically and financially, by main international establishments together with the US Export-Import Bank, Barclays and Deutsche Bank, and Shell New Energies’ gasification specialists.
“The world needs some good news right now, and we have it. Affordable, mass-produced, reliable green hydrogen is the missing link needed to decarbonize the world,” mentioned Dr. Do. “We provide that link. We are the only company in the world delivering green hydrogen that is cost competitive with the cheapest, dirtiest hydrogen made from coal and gas, and much less expensive than other green hydrogen. Our technology can scale quickly and produce fuel 24/7, year-round.”
Unlike different renewable power sources, hydrogen can gas hard-to-decarbonize heavy industrial sectors like metal, heavy transport, and cement. It also can present lowest-cost long-term storage for electrical grids counting on renewable power. Hydrogen also can scale back and probably exchange pure gasoline in all functions. Bloomberg New Energy Finance reviews that clear hydrogen might lower as much as 34% of world greenhouse gasoline emissions from fossil fuels and business.
“Countries around the world are waking up to the critical role green hydrogen can play in increasing energy security and lowering greenhouse gas emissions. But, until now, it has been too expensive to adopt at scale,” mentioned Hanna Breunig, PhD, of Lawrence Berkeley National Laboratory’s (Berkeley Lab) Sustainable Energy Systems Group.
A consortium of main international firms and prime establishments have joined with SGH2 and the City of Lancaster to develop and implement the Lancaster venture, together with: Fluor, Berkeley Lab, UC Berkeley, Thermosolv, Integrity Engineers, Millenium, HyetHydrogen, and Hexagon. Fluor, a world engineering, procurement, development and upkeep firm, which has best-in-class expertise in constructing hydrogen-from-gasification crops, will present front-end engineering and design for the Lancaster facility. SGH2 will present a whole efficiency assure of the Lancaster plant by issuing a complete output assure of hydrogen manufacturing per 12 months, underwritten by the most important reinsurance firm on the planet.
“SGH2 is changing the clean energy game,” mentioned Santiago De la Fuente, former managing director of Acciona SA. “Hydrogen produced from waste gasification using SGH2’s process is greener than green, and cost competitive with the cheapest hydrogen on the market.”
SGH2’s hydrogen is greener than inexperienced as a result of along with producing carbon-free hydrogen, SGH2’s patented Solena Plasma Enhanced Gasification (SPEG) technology gasifies biogenic waste supplies, and makes use of no externally sourced power. Berkeley Lab carried out a preliminary lifecycle carbon evaluation, which discovered that for each ton of hydrogen produced, SPEG expertise reduces emissions by 23 to 31 tons of carbon dioxide equal, which is 13 to 19 tons extra carbon dioxide prevented per ton than some other inexperienced hydrogen course of. And SGH2 hydrogen is 5 to seven instances cheaper than different inexperienced hydrogen.
Producers of so-called blue, grey and brown hydrogen use both fossil fuels (pure gasoline or coal) or low-temperature gasification (<2000° C), which produces soiled syngas with poisonous tars and low quantity of hydrogen. Other inexperienced hydrogen producers use electrolysis depending on giant quantities of intermittent renewable power and deionized water, which is inexperienced if it comes from 100% renewable energy, however comes at a excessive price (US $10-$15 per kilogram) and lacks reliability.
“Stork, a Fluor company, is a global leader in providing clients with operations and maintenance solutions throughout the entire plant lifecycle,” mentioned Taco de Haan, President of Stork. “As part of the design team we look forward to assisting in the optimization of plant design with reliability- based maintenance principles followed by delivering the actual plant operations and maintenance services. We are proud to be a part of this partnership as its objectives are so well aligned with Stork’s sustainability agenda and our commitment to the global energy transition.”
Waste is a world drawback, clogging waterways, contaminating oceans, packing landfills and polluting skies. The marketplace for all recyclables, from blended plastics to cardboard and paper, collapsed in 2018, when China banned the import of recycled waste supplies. Now, most of those supplies are saved or despatched again to landfills. In sure instances, they find yourself within the ocean, the place hundreds of thousands of tons of plastic are discovered yearly. Methane launched from landfills is a heat-trapping gasoline 25 instances stronger than carbon dioxide.
SGH2 is in negotiations to launch related tasks in France, Saudi Arabia, Ukraine, Greece, Japan, South Korea, Poland, Turkey, Russia, China, Brazil, Malaysia and Australia. SGH2’s stacked modular design is constructed for speedy scale and linear distributed enlargement and decrease capital prices. It doesn’t rely upon explicit climate circumstances, and doesn’t require as a lot land as solar- and wind-based tasks.
“Malaysia has a tremendous supply of biomass waste, which, if not used, would be burned,” mentioned Tan Sri Halim Mohammad, govt chairman of the Halim Mazmin Group, proprietor of certainly one of Malaysia’s largest delivery firms. “Using SGH2’s technology, we can convert this biomass waste to green hydrogen economically for use in land transport and shipping, which will help reduce dependency on oil and gas.”
Unlike some other expertise, SGH2’s SPEG course of offers an answer to the rising international plastics disaster. SGH2’s unique gasification technology makes use of a really excessive temperature (3500° to 4000° C) plasma- enhanced thermal catalytic conversion course of optimized with oxygen-enriched gasoline, which leads to the entire molecular dissociation of all hydrocarbons and the manufacturing of a really top quality, hydrogen-rich bio-syngas freed from tar, soot and heavy metals. No different hydrogen-production expertise can eradicate plastic as cleanly and as effectively, if plastics are used or blended within the feedstocks.
BNEF’s evaluation predicts dramatic greenhouse gasoline reductions when inexperienced hydrogen turns into price aggressive, and forecasts inexperienced hydrogen prices dropping to U.S. $2 per kilogram by 2030 in India and Western Europe. SGH2 is already producing greener than inexperienced hydrogen at that price in the present day.
“Hydrogen is the emerging solution for hard-to-decarbonize sectors like the cement industry,” mentioned Lawrie Evans, a technical skilled within the cement business, and former director of the world’s largest cement firm, LafargeHolcim. “SGH2’s solution – to produce green hydrogen and bio-syngas from the gasification of biomass and biogenic waste using its SPEG process – can be a cost competitive solution to provide the high quality heat required in our industry, and replace or reduce the usage of coal and coke.”
The Lancaster plant might be constructed on a 5-acre web site, which is zoned heavy industrial, on the intersection of Ave M and sixth Street East (northwest nook – Parcel No 3126 017 028). It will make use of 35 folks full-time as soon as it’s operational, and can present over 600 jobs throughout 18 months of development. SGH2 anticipates breaking floor in Q1 2021, start-up and commissioning in This fall 2022, and full operations in Q1 2023. The Lancaster plant output might be used at hydrogen refueling stations throughout California for each light- and heavy-duty gas cell autos. Unlike different inexperienced hydrogen manufacturing strategies that rely upon variable photo voltaic or wind power, the SPEG course of depends on a continuing, year-round stream of recycled waste feedstocks, and subsequently can produce hydrogen at scale extra reliably.
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