Basics

• A system for Energy Storage using two or more methods
• The main advantages are Disimilar Redundancy and Synergistic Effects such as a high peak power, low density system, pared with a high density, low peak power method
  • Enabling the use of less of a more expensive system is another aspect

Potential Routes

Small/Mobile

• Supercapacitor + Lithium Iron Phosphate Battery or Sodium Ion Battery
  • Could enable rapid use of some power without putting all that load as quickly on the batteries
• Supercapacitor + Flow Battery
  • Supercapacitor for short term/itermittent, Flow Battery for “low and slow” energy use/long term storage

Fixed Residential/Commercial

• Scaled up Small/Mobile Designs
• Supercapacitor and/or Battery (potentially even less SWP efficient chemistries due to the less stringent requirements for stationary use (such as Lead Acid Batteries , Nickel-Iron Batteries , Molten Metal Batteries , etc) + LARGE Flow Battery
  • Large Fluid Tanks (such as IBC Totes , Rotomolded Tanks , or large Atmospheric Storage Tanks ) would allow for massive storage capacities to smooth out impacts of Weather/Seasonality of some renewables such as Solar
• Aforementioned Supercapacitor and/or Battery + P2X
  • This could be:
    • Power-to-Fuels and a more conventional Genset (such as the Hydrogen Plots, but also Methane / Methanol or various Precision Fermentation derived fuels (Re EForFuel ) )
    • Power-to-Heat / Power-to-Cooling for HVAC
• Smaller Scale Container Based (Rather than Salt Dome or other Geologic Formation based Storage) Compressed Air Energy Storage / Liquified Air Energy Storage (or equivalents using a pure gas)

Heavy Commercial/Industrial

• Somewhat outside of OSE’s realm for now, but may be of use in some applications that use lots of Process Heating such as Biomass Drying , Large Scale Kitchens/Bakeries, or Metalworks etc
• Mainly though these technologies:
  • Power-to-Heat / Power-to-Heat-to-Power (In terms of units making high grade heat using Resistive Heating Elements / Heat Pumps and Sensible Heat Storage in Graphite or Firebrick blocks etc
  • Large P2X / Reversible Fuel Cells / Electrolyzer or other Electrochemistry systems thoroughly integrated with a large Biorefinery or Agricultural Operation
  • Large P2X or CAES / LAES systems integrated into Pipelines / Massive Tank Farms / Truck Loading Rack Pipeline-Road/Rail Depots, or Injection Wells into formations such as Salt Domes or old fossil fuel formations etc
• Pared with the type of “power plant for the factory” using all sorts of other equipment ( Emergency Backup Generators , Turbogenerators , Large Combined Cycle Gas Turbine / Combined Cycle Fuel Cell power plants etc
• Integration with W2E and MRFs could allow for a sort of Circular Economy Industrial Park