LNG SOLUTIONS – Increasing the Production Rate and Reducing the Emissions of Today’s LNG Chain Facilities

The deployment of MADA’s I-LAES technology at the co-located LNG production plant may increase the yield and efficiency of this plant via recovery of a high-grade cold energy of discharged liquid air evaporation at the LAES for zero carbon emitting and low-cost LNG co-production. Simultaneously, a high-grade exhaust heat energy of the gas-fired independent power generator or LNG plant prime movers is used to superheat the evaporated air before its expansion at the LAES.

Utilizing the MADA’s I-LAES technology at the co-located LNG regasification (import) terminal makes possible to recover a waste heat of LAES charge cycle for LNG evaporation and to use a waste cold from LNG evaporators for reducing a power consumed in air liquefaction process. During LAES discharge cycle a high-grade cold energy of liquid air preheating and evaporation is used for subcooling the recycled LNG in the terminal tanks and cryogenic capture of CO2 emissions from exhaust of gas-fired power generator. A high-grade heat energy of this exhaust is used to superheat the evaporated air before its expansion at the LAES.

Foundational LNG & GASPOLYGEN IP

The MADA Analytics foundational IP for long-duration liquid air energy storage (I-LAES) solutions integrated with LNG production and regasification facilities and for GASPOLYGEN solutions is based on the U.S. patents granted to company’s key personnel and several pending patent applications

METHOD FOR LIQUID AIR AND GAS ENERGY STORAGE

METHOD FOR LIQUID AIR AND GAS ENERGY STORAGE

METHOD FOR EXHAUST WASTE ENERGY RECOVERY AT THE RECIPROCATING GAS ENGINE-BASED POLYGENERATION PLANT

METHOD FOR EXHAUST WASTE ENERGY RECOVERY AT THE INTERNAL COMBUSTION ENGINE POLYGENERATION PLANT

METHOD FOR OPERATING A LIQUID AIR ENERGY STORAGE