Lower-cost Hydrogen or Ammonia Fuel from Distributed Wind

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Presentation transcript:

Lower-cost Hydrogen or Ammonia Fuel from Distributed Wind via Paralleled Self Excited Induction Generator (SEIG) and Close-coupled Electrolysis at Multi-turbine Off-grid Windplants Alaska Applied Sciences, Inc. Juneau, Alaska USA www.AlaskaAppliedSciences.com 907-586-1426 Bill Leighty, Principal wleighty@earthlink.net Cell 206-719-5554 > All captured wind energy delivered as Hydrogen or Ammonia, Carbon-free transportation and CHP fuels > No grid connection: big capex and O&M cost savings, opens large land areas without electricity “Transmission” > By 2050, in California: Hydrogen transportation fuel is bigger market for wind and solar than the electricity Grid > New, dedicated, underground, high-purity Hydrogen or Ammonia pipeline “Transmission” systems needed > Enables annual-scale firming energy storage at < $ 1.00 / kWh capex in Hydrogen salt caverns, Ammonia tanks Alaska Applied Sciences, Inc. 13-turbine Palm Springs windplant Ideal R&D&D test bed for SEIG to Hydrogen Wind-to-Hydrogen fuel production: Fuel cell vehicles, stationary CHP, low-cost storage Hydrogen storage < $ 1.00 / kWh capex by “packing” pipelines and in large solution-mined salt caverns, typically 100,000 MWh each cavern Wind-to-Ammonia fuel production: Fuel cell vehicles, stationary CHP, low-cost storage AASI has demonstrated compatible SEIG mode generation on one Palm Springs windplant turbine