Conceptual design of a thermo-electrical energy storage system based on heat integration of thermodynamic cycles - Part A: Methodology and base case

Energy

Volumn 45, Issue 1, 2012, Pages 375-385

  Morandin, Matteo ^a   Maréchal, François ^a   Mercangöz, Mehmet ^b   Buchter, Florian ^b  

^a EPFL   (Switzerland)

^b ABB CORPORATE RESEARCH   (Switzerland)

Author keywords

Energy storage; Pinch Analysis; Synthesis; Thermo electrical energy storage (TEES)

Indexed keywords

CARBON DIOXIDE; COMPRESSED AIR; CONCEPTUAL DESIGN; ELECTRIC ENERGY STORAGE; ENERGY STORAGE; HEAT EXCHANGERS; HEURISTIC METHODS; OPTIMIZATION; SYNTHESIS (CHEMICAL); WIND POWER;

COMPLETE SYSTEM; COMPOSITE CURVES; COMPRESSED AIR ENERGY STORAGE; CORPORATE RESEARCH; CYCLE PARAMETERS; ENERGY STORAGE SYSTEMS; HEAT EXCHANGER NETWORK; HEAT EXCHANGER PERFORMANCE; HEAT INTEGRATION; HEAT PUMPS; HEURISTIC PROCEDURES; HEURISTIC RULES; HOT WATER; ICE STORAGE; IN-LINE; INTENSIVE PARAMETERS; MANAGEMENT ISSUES; PINCH ANALYSIS; RENEWABLE ENERGIES; ROUNDTRIP EFFICIENCY; STORAGE TANK; SYSTEM CONFIGURATIONS; THERMAL INTEGRATION; THERMO-ELECTRICAL ENERGY STORAGE (TEES); THERMODYNAMIC CYCLE; THERMODYNAMIC OPTIMIZATION; TRANSCRITICAL CO;

THERMODYNAMIC PROPERTIES;

CARBON DIOXIDE; CONCEPTUAL FRAMEWORK; DESIGN; ELECTRICAL POWER; ENGINE; HEAT FLUX; INTEGRATED APPROACH; OPTIMIZATION; PUMP; RENEWABLE RESOURCE; STORAGE; THERMAL POWER; THERMODYNAMICS;

EID: 84865419723     PISSN: 03605442     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.energy.2012.03.031     Document Type: Article

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