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Proceedings Papers

Proceedings Volume Cover
ASME Turbo Expo 2022: Turbomachinery Technical Conference and Exposition
June 13–17, 2022
Rotterdam, Netherlands
Conference Sponsors:
  • International Gas Turbine Institute
ISBN:
978-0-7918-8601-4
Volume 4: Cycle Innovations; Cycle Innovations: Energy Storage

Front Matter

GT2022 Front Matter
GT 2022; V004T00A001https://doi.org/10.1115/GT2022-FM4
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Cycle Innovations

Development of a Dynamic Model for Simulating the Transient Behaviour of a Solar-Powered Micro Gas Turbine
S. Shamekhi Amiri, J. Al-Zaili, A. I. Sayma
GT 2022; V004T06A001https://doi.org/10.1115/GT2022-79059
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Topics: Dynamic models , Micro gas turbines , Solar power , Transients (Dynamics)
Part-Load of Steam Rankine Cycles for Solar Salts-Based Concentrating Solar Power Plants
Davide Belverato, Emanuele Martelli, Marco Binotti, Lorenzo Pilotti, Alberto Giaconia
GT 2022; V004T06A002https://doi.org/10.1115/GT2022-79378
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Topics: Concentrating solar power , Cycles , Design , Optimization , Rankine cycle , Solar energy , Steam , Stress
Simulation of a Safe Start-Up Maneuver for a Brayton Heat Pump
Johannes Oehler, A. Phong Tran, Panagiotis Stathopoulos
GT 2022; V004T06A003https://doi.org/10.1115/GT2022-79399
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Topics: Brayton cycle , Heat , Heat pumps , Simulation , Transients (Dynamics)
On Integrated Fluid Screening and Turbomachinery Design for Optimized Industrial Heat Pumps
Renan Emre Karaefe, Pascal Post, Francesca di Mare, Valerius Venzik, Paul Wotzka, Dirk Müller, Riley B. Barta
GT 2022; V004T06A004https://doi.org/10.1115/GT2022-79404
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Topics: Design , Fluids , Heat pumps , Turbomachinery , Cycles , Compressors , Refrigerants , Carbon dioxide , Optimization , Compression
Numerical Investigation of Bladeless Compressor on Different Disk Spaces and Diffuser Configurations
Ravi Nath Tiwari, Konstantinos Eleftheriou, Mario Luigi Ferrari, Theofilos Efstathiadis, Alberto Traverso, Anestis Kalfas
GT 2022; V004T06A005https://doi.org/10.1115/GT2022-80167
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Topics: Compressors , Diffusers , Disks , Space , Turbomachinery
Techno-Economic Optimization of a Hybrid PV-CSP Plant With Molten Salt Thermal Energy Storage and Supercritical CO2 Brayton Power Cycle
Salvatore Guccione, Silvia Trevisan, Rafael Guedez, Björn Laumert, Simone Maccarini, Alberto Traverso
GT 2022; V004T06A006https://doi.org/10.1115/GT2022-80376
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Topics: Economics , Optimization , Supercritical carbon dioxide , Thermal energy storage , Thermodynamic power cycles , Solar energy , Concentrating solar power , Cycles , Thermal energy , Turbomachinery
Performance Assessment of a Recuperated Turboshaft Engine: A Multifuel Case
Jody Anfossi, Jafar Al-Zaili, Tala El Samad, Abdulnaser Sayma
GT 2022; V004T06A007https://doi.org/10.1115/GT2022-80455
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Topics: Engines , Hydrogen , Micro gas turbines , Weight (Mass) , Cycles , Design , Power stations , Hydrogen fuels , Jet fuels , Propulsion systems
Innovative Cycles for Industrial Combined Heat and Power Generation With Carbon Capture and Storage
Riddhi R. Kapoor, Sikke Klein
GT 2022; V004T06A008https://doi.org/10.1115/GT2022-80697
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Topics: Carbon capture and storage , Combined heat and power , Cycles , Combustion , Carbon , Carbon dioxide , Design , Fluids , Gas turbines , Brayton cycle
Micro-Gas Turbine Cycle Configurations for Biomass Combined Heat and Power Plants
Konstantinos D. Bollas, Theofilos G. Efstathiadis, Dimitrios P. Mertzis, Anestis I. Kalfas
GT 2022; V004T06A009https://doi.org/10.1115/GT2022-80772
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Topics: Biomass , Cogeneration plants , Combined heat and power , Cycles , Turbines
LNG Regasification Plants Integrated With Low- and High-Temperature Organic Rankine Cycles
Vittorio Tola, Eliana Delogu, Matthias Finkenrath
GT 2022; V004T06A010https://doi.org/10.1115/GT2022-80844
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Topics: High temperature , Liquefied natural gas , Organic Rankine cycle
Optimisation of an ORC Radial Turbine Using a Reduced-Order Model Coupled With CFD
Eva Alvarez-Regueiro, Bijie Yang, Esperanza Barrera-Medrano, Ricardo Martinez-Botas, Srithar Rajoo
GT 2022; V004T06A011https://doi.org/10.1115/GT2022-80944
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Topics: Computational fluid dynamics , Optimization , Organic Rankine cycle , Turbines , Flow (Dynamics) , Geometry , Design , Fluids , Algorithms , Cycles
Breaking 70% Net Electric Combined Cycle Efficiency With CMC Gas Turbine Blades
Emanuele Martelli, Marco Girardi, Paolo Chiesa
GT 2022; V004T06A012https://doi.org/10.1115/GT2022-81118
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Topics: Blades , Ceramic matrix composites , Coatings , Combined cycles , Gas turbines
Transient Analysis of a Micro Gas Turbine With Fuel Composition Change
Martina Raggio, Daria Bellotti, Mario Luigi Ferrari
GT 2022; V004T06A013https://doi.org/10.1115/GT2022-81300
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Topics: Fuels , Micro gas turbines , Surges , Transient analysis
Real Time mGT Performance Assessment Tool: Comprehensive Transient Behaviour Prediction With Computationally Effective Techniques
Aggelos Gaitanis, Francesco Contino, Ward De Paepe
GT 2022; V004T06A014https://doi.org/10.1115/GT2022-81577
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Topics: Transients (Dynamics) , Cycles , Combined heat and power , Energy generation , Engines , Combustion , Computer programming languages , Control systems , Dynamic response , Electricity (Physics)
Experimental Validation of a Rotor-Bearings System Model for Tesla Turbines Resonances Prediction
Carlo Alberto Niccolini Marmont Du Haut Champ, Paolo Silvestri, Federico Reggio
GT 2022; V004T06A015https://doi.org/10.1115/GT2022-81710
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Topics: Ball bearings , Bearings , Finite element model , Resonance , Rotors , Stiffness , Turbines , Modal analysis , Analytical methods , Computer simulation
Compressor Surge Precursors for a Turbocharger Coupled to a Pressure Vessel
Paolo Silvestri, Federico Reggio, Carlo Alberto Niccolini Marmont Du Haut Champ, Mario Luigi Ferrari, Aristide Fausto Massardo
GT 2022; V004T06A016https://doi.org/10.1115/GT2022-81731
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Topics: Compressors , Pressure vessels , Surges , Turbochargers
Optimization Under Uncertainties of a Biogas-Fueled SOFC-GT Hybrid System
Paolo Finocchi, Valentina Zaccaria, Mario L. Ferrari, David Tucker
GT 2022; V004T06A017https://doi.org/10.1115/GT2022-81785
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Topics: Biogas , Optimization , Solid oxide fuel cells , Uncertainty
Performance and Economic Assessment of Mechanically Integrated Parallel Hybrid Aircraft
Thibault Carpentier, Jinning Zhang, Albert S. J. van Heerden, Ioannis Roumeliotis
GT 2022; V004T06A018https://doi.org/10.1115/GT2022-81939
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Topics: Aircraft , Carbon dioxide , Economic analysis , Nitrogen oxides
Conceptual Study of Thermally Coupled Micro Gas Turbines and High Temperature Heat Pumps for Trigeneration
Jens Oliver Gollasch, Eleni Agelidou, Martin Henke, Panagiotis Stathopoulos
GT 2022; V004T06A019https://doi.org/10.1115/GT2022-81959
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Topics: Heat pumps , High temperature , Micro gas turbines
Simulation of the HiPowAR Gas-Steam Power Generation System Using Ammonia as Fuel
Alberto Cammarata, Paolo Colbertaldo, Stefano Campanari
GT 2022; V004T06A020https://doi.org/10.1115/GT2022-81982
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Topics: Cycles , Energy / power systems , Energy generation , Fuels , Simulation , Steam
The Application of an Artificial Neural Network As a Baseline Model For Condition Monitoring of Innovative Humidified Micro Gas Turbine Cycles
Kathryn Colquhoun, Homam Nikpey Somehsaraei, Ward De Paepe
GT 2022; V004T06A021https://doi.org/10.1115/GT2022-82444
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Topics: Artificial neural networks , Condition monitoring , Cycles , Micro gas turbines
Gas Turbine Combined Cycle Range Enhancer - Part 1: Cyber-Physical Setup
Tommaso Reboli, Marco Ferrando, Luca Mantelli, Lorenzo Gini, Alessandro Sorce, Jose Garcia, Rafael Guedez
GT 2022; V004T06A022https://doi.org/10.1115/GT2022-82494
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Topics: Combined cycles , Gas turbines , Control equipment , Control systems , Cycles , Dynamic models , Energy generation , Energy management , Energy sustainability , Flow (Dynamics)
Gas Turbine Combined Cycle Range Enhancer - Part 2: Performance Demonstration
Tommaso Reboli, Marco Ferrando, Lorenzo Gini, Luca Mantelli, Alessandro Sorce, Alberto Traverso
GT 2022; V004T06A023https://doi.org/10.1115/GT2022-82516
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Topics: Combined cycles , Gas turbines , Control systems , Energy generation , Air flow , Compressors , Cycles , Dynamic models , Electricity (Physics) , Hardware
Performance Assessment of Tesla Expander Using 3D Numerical Simulation
Avinash Renuke, Alberto Traverso
GT 2022; V004T06A024https://doi.org/10.1115/GT2022-82690
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Topics: Computer simulation , Turbines , Flow (Dynamics) , Rotors , Disks , Stators , Fluids , Bearings , Computational fluid dynamics , Computer software
Performance Optimization of Semi-Closed Oxy-Combustion Combined Cycle (SCOC-CC) for Current and Future Blade Materials
Gabriele Pio Risimini, Matteo Martinelli, Paolo Chiesa, Emanuele Martelli
GT 2022; V004T06A025https://doi.org/10.1115/GT2022-82693
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Topics: Blades , Carbon capture and storage , Ceramic matrix composites , Combined cycles , Combustion , Optimization
Using Blade Surface Heat Transfer for Partial Intercooling and Thrust Augmentation
Anthony J. Gannon, Thomas Morgan, Walter C. Smith, Garth V. Hobson
GT 2022; V004T06A026https://doi.org/10.1115/GT2022-82744
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Topics: Blades , Gas turbines , Heat transfer , Thrust , Heat , Compressors , Aircraft , Aviation , Engines , Flow (Dynamics)
Carbon Capture Performance Assessment Applied to Combined Cycle Gas Turbine Under Part-Load Operation
Antoine Verhaeghe, Lionel Dubois, Laurent Bricteux, Diane Thomas, Julien Blondeau, Ward De Paepe
GT 2022; V004T06A027https://doi.org/10.1115/GT2022-82892
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Topics: Carbon capture and storage , Combined cycle gas turbines , Stress , Carbon dioxide , Emissions , Absorption , Bearings , Climate change , Cooling , Manufacturing systems
Establishment of a Baseline Integrated Energy System to Decarbonise Geographical Islands
Mohammad Mansouri, Hossein Madi, Peter Breuhaus
GT 2022; V004T06A028https://doi.org/10.1115/GT2022-82918
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Topics: Combined heat and power , Energy / power systems , Energy storage , Flux (Metallurgy) , Gas turbines , Power grids , Renewable energy sources , Shorelines , Transportation systems
High Temperature Heat Pump Cascade Systems With Water (R718) as Refrigerant
R. Hegner, O. Abu Khass, C. Moller, P. Stathopoulos
GT 2022; V004T06A029https://doi.org/10.1115/GT2022-82920
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Topics: Cascades (Fluid dynamics) , Heat pumps , High temperature , Refrigerants , Water
Waste Heat Recovery Driven Turbocharger System for Gas Turbine
Majed Sammak, Maruthi Jupudi, Alaaeldin Dawood, Abdurrahman Khalidi
GT 2022; V004T06A030https://doi.org/10.1115/GT2022-82941
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Topics: Compressed air , Cycles , Gas turbines , Heat , Heat recovery , Turbochargers
Market Opportunities for Power-to-X Solutions for Combined Cycles Flexibilization
Stefano Barberis, Alessandra Cuneo, Daria Bellotti, Alessandro Sorce, Alberto Vannoni
GT 2022; V004T06A031https://doi.org/10.1115/GT2022-83003
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Topics: Combined cycles , Hydrogen
Performance Simulation of Micro Gas Turbines for Hydrogen Application
Arias Esmaelpour, Homam Nikpey Somehsaraei, Peter Breuhaus
GT 2022; V004T06A032https://doi.org/10.1115/GT2022-83071
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Topics: Hydrogen , Micro gas turbines , Simulation , Energy generation , Engines , Natural gas , Fuels , Renewable energy sources , Carbon capture and storage , Carbon dioxide
Techno-Economic Comparison of Several Technologies for the Waste Heat Recovery From Gas Turbine Exhausts
Alessandra Ghilardi, Guido Francesco Frate, Andrea Baccioli, Dario Ulivieri, Lorenzo Ferrari, Umberto Desideri, Lorenzo Cosi, Simone Amidei, Vittorio Michelassi
GT 2022; V004T06A033https://doi.org/10.1115/GT2022-83199
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Topics: Economics , Gas turbines , Heat recovery , Cycles , Organic Rankine cycle , Rankine cycle , Water , Carbon dioxide , Exhaust systems , Steam
Study to Adapt Industrial Gas Turbines for Significant and Viable CO2 Emissions Reduction
Daniel Burnes, Priyank Saxena, Rainer Kurz
GT 2022; V004T06A034https://doi.org/10.1115/GT2022-83472
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Topics: Carbon dioxide , Emissions , Industrial gases , Turbines , Hydrogen , Carbon capture and storage , Natural gas , Carbon , Power stations , Combustion
A Review of Pressure Gain Combustion Solutions for Aerospace Propulsion
Sreenath Purushothaman, Avinash Renuke, Alessandro Sorce, Alberto Traverso
GT 2022; V004T06A035https://doi.org/10.1115/GT2022-83799
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Topics: Aerospace industry , Combustion , Composite materials , Cycles , Engines , Explosions , Pistons , Pressure , Propulsion , Rotors
Power Flow Optimization for a Hybrid-Electric Propulsion System
Konstantinos I. Papadopoulos, Christos P. Nasoulis, Elissaios G. Ntouvelos, Vasilis G. Gkoutzamanis, Anestis I. Kalfas
GT 2022; V004T06A036https://doi.org/10.1115/GT2022-84037
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Topics: Flow (Dynamics) , Modeling , Optimization , Propulsion , Propulsion systems

Cycle Innovations: Energy Storage

Liquid Air Combined Cycle
William M. Conlon, Milton Venetos, Aaron Rimpel
GT 2022; V004T07A001https://doi.org/10.1115/GT2022-80426
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Topics: Combined cycles , Energy storage , Cycles , Gas turbines , Heat , Compression , Compressors , Economics , Engines , Exhaust systems
Numerical Investigation on Regenerative Heat-Driven Cryocoolers for Zero Boil-Off Storage of Liquid Hydrogen
Jing Luo, Yanyan Chen, Limin Zhang, Vigneshwaran Sankar, Deoras Prabhudharwadkar, Saumitra Saxena, Deanna Lacoste, William Roberts, Ercang Luo
GT 2022; V004T07A002https://doi.org/10.1115/GT2022-81737
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Topics: Boiling , Exergy , Heat , Hydrogen , Storage
Thermodynamic Assessment of the Conversion of a Typical CCGT Power Plant to a Fully E-Fuel Fired Unit
Jérôme Rigault, Ward De Paepe, Hannes Laget
GT 2022; V004T07A003https://doi.org/10.1115/GT2022-81838
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Topics: Fuels , Power stations , Hydrogen , Proton exchange membranes , Emissions , Hydrogen storage , Carbon , Combined cycle power stations , Combustion , Combustion chambers
Exergy Analysis of Green Power-to-Hydrogen Chemical Energy Storage
Antonio Escamilla, David Sánchez, Lourdes García-Rodríguez
GT 2022; V004T07A004https://doi.org/10.1115/GT2022-82107
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Topics: Chemical energy , Exergy analysis , Hydrogen , Storage , Compression , Exergy , Operating temperature , Compressors , Pressure , Water
Organic Rankine Cycle Turbine and Heat Exchanger Sizing for Liquid Air Combined Cycle
Owen Pryor, Aaron Rimpel, William Conlon
GT 2022; V004T07A005https://doi.org/10.1115/GT2022-82263
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Topics: Combined cycles , Energy storage , Heat exchangers , Organic Rankine cycle , Turbines
Liquid Salt Combined Cycle
William M. Conlon, Milton J. Venetos, Scott Hume
GT 2022; V004T07A006https://doi.org/10.1115/GT2022-82343
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Topics: Combined cycles , Energy storage
Optimal Management of Reversible Heat Pump/ORC Carnot Batteries
Noemi Torricelli, Lisa Branchini, Andrea De Pascale, Olivier Dumont, Vincent Lemort
GT 2022; V004T07A007https://doi.org/10.1115/GT2022-82509
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Topics: Batteries , Energy storage , Heat pumps , Optimal control , Organic Rankine cycle , Thermal energy storage
Optimal Design and Operation Planning of VPPs Based on Hydrogen Storage and Hydrogen Combined Cycle
Alessandro Francesco Castelli, Lorenzo Pilotti, Emanuele Martelli
GT 2022; V004T07A008https://doi.org/10.1115/GT2022-82609
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Topics: Combined cycles , Design , Hydrogen , Hydrogen storage , Storage , Energy storage , Photovoltaic panels , Renewable energy sources , Batteries , Carbon
The Pump-Turbine Selection Approach for Geomechanical Storage Facility
Abhay Patil, Bunker Hill, Jason Wilkes
GT 2022; V004T07A009https://doi.org/10.1115/GT2022-83146
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Topics: Pump turbines , Pumps , Storage , Turbines
Techno-Economic Analysis of a Cryogenic Flux Capacitor for Grid Storage
Joshua Schmitt, Noemi Collado, Adam Swanger, Marcel Otto, Jayanta Kapat
GT 2022; V004T07A010https://doi.org/10.1115/GT2022-83375
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Topics: Capacitors , Economics , Storage , Hydrogen , Natural gas , Carbon capture and storage , Carbon dioxide , Energy storage , Bonding , Combined cycle gas turbines
Hybrid Power Systems: Grid Stability Through Spinning Reserve
G. B. Singh
GT 2022; V004T07A011https://doi.org/10.1115/GT2022-83419
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Topics: Energy storage , Gas turbines , Hybrid power systems , Inertia (Mechanics) , Microgrids , Spin (Aerodynamics) , Spinning (Textile) , Stability
The Design of a Small-Scale Pumped Heat Energy Storage System for the Demonstration of Controls and Operability
Natalie R. Smith, Brittany Tom, Aaron Rimpel, Joshua Just, Michael Marshall, George Khawly, Thomas Revak, Kevin Hoopes
GT 2022; V004T07A012https://doi.org/10.1115/GT2022-83424
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Topics: Design , Energy storage , Heat , Cycles , Hardware , Machinery , Design engineering , Heat engines , Heat exchangers , Heat pumps
Dynamic Modelling of a Brayton PTES System
Guido Francesco Frate, Matteo Pettinari, Emanuele Di Pino Incognito, Riccardo Costanzi, Lorenzo Ferrari
GT 2022; V004T07A013https://doi.org/10.1115/GT2022-83445
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Topics: Batteries , Brayton cycle , Design , Dynamic modeling , Energy storage , Engineering simulation , Heat , Heat engines , Heat pumps , Power grids
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