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THE GOAL OF THIS PROJECT IS TO DEMONSTRATE NOBLE THERMODYNAMIC SYSTEMS' CORE TECHNOLOGY, THE ARGON POWER CYCLE (APC) EMISSIONS, PERFORMANCE, AND COST CHARACTERISTICS AS A H2 FUELED FLEXIBLE CHP SYSTEM; MAINLY ITS ABILITY TO MAINTAIN ITS EXCELLENT EFFICIENCY, FLEXIBILITY AND CLEANLINESS (I.E. ZERO NOX) QUALITIES AS IT MODULATES ITS OUTPUT TO MEET A VARYING DEMAND OF INDUSTRIAL-GRADE PROCESS HEAT AND ELECTRIC POWER. THROUGH ITS INCREASED EFFICIENCY GAINS AND RETROFITTABLE NATURE, THE APC WILL ENABLE THE U.S. INDUSTRIAL AND POWER SECTORS TO DECARBONIZE, MAKING USE OF GIGAWATTS OF EXISTING RECIPROCATING ENGINE ASSETS AT A WIDE RANGE OF SCALES TO TRANSITION AWAY FROM FOSSIL FUEL, SUPPORTING THE ACCELERATED BUILDOUT OF RENEWABLE HYDROGEN INFRASTRUCTURE, STRENGTHENING THE U.S. INDUSTRIAL SECTOR’S COST COMPETITIVENESS, AND IMPROVING THE RESILIENCY OF THE U.S. GRID.

$4,250,647FY2025Department of EnergyDOE

Noble Thermodynamic Systems Inc

Investigators

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THE GOAL OF THIS PROJECT IS TO DEMONSTRATE NOBLE THERMODYNAMIC SYSTEMS' CORE TECHNOLOGY, THE ARGON POWER CYCLE (APC) EMISSIONS, PERFORMANCE, AND COST CHARACTERISTICS AS A H2 FUELED FLEXIBLE CHP SYSTEM; MAINLY ITS ABILITY TO MAINTAIN ITS EXCELLENT EFFICIENCY, FLEXIBILITY AND CLEANLINESS (I.E. ZERO NOX) QUALITIES AS IT MODULATES ITS OUTPUT TO MEET A VARYING DEMAND OF INDUSTRIAL-GRADE PROCESS HEAT AND ELECTRIC POWER. THROUGH ITS INCREASED EFFICIENCY GAINS AND RETROFITTABLE NATURE, THE APC WILL ENABLE THE U.S. INDUSTRIAL AND POWER SECTORS TO DECARBONIZE, MAKING USE OF GIGAWATTS OF EXISTING RECIPROCATING ENGINE ASSETS AT A WIDE RANGE OF SCALES TO TRANSITION AWAY FROM FOSSIL FUEL, SUPPORTING THE ACCELERATED BUILDOUT OF RENEWABLE HYDROGEN INFRASTRUCTURE, STRENGTHENING THE U.S. INDUSTRIAL SECTOR’S COST COMPETITIVENESS, AND IMPROVING THE RESILIENCY OF THE U.S. GRID. · GrantIndex