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IIR document
Quasi-real performances of an irreversible solar absorption refrigeration cycle.
Performance optimization of irreversible combined Carnot refrigerator based on ecological criterion.
Finite-time thermodynamics optimization of an irreversible parallel flow double-effect absorption refrigerator.
Local stability analysis of an irreversible refrigerator working at the maximum thermo-ecological functions: a comparison.
Local stability analysis of an irreversible absorption refrigerator powered by a wood boiler.
Thermoeconomic considerations in the allocation of heat transfer inventory for irreversible refrigeration and heat pump systems.
Thermo-ecological analysis and optimization of a three-heat-reservoir absorption heat pump with two internal irreversibilities and external irreversibility.
Thermodynamic optimization of an irreversible Carnot refrigerator with heat recovery reservoir.
Influence of input variables on the irreversibilities of a CO2 heat pump.
Performance optimization on the irreversible regenerative Ericsson refrigeration cycle using electrocaloric materials as the working medium.
Influence of two internal irreversibilities on the new thermo-ecological criterion for three-heat-source refrigerators.
Options for low-global-warming-potential and natural refrigerants part 2: Performance of refrigerants and systemic irreversibilities.
Options for low-global-warming-potential and natural refrigerants - Performance for heat pump application and analysis of systemic irreversibilities.
A CFD-based investigation of the energy performance of two-phase R744 ejectors to recover the expansion work in refrigeration systems: an irreversibility analysis.
Enhanced airflow by additional axial fans for produce cooling in a cold room: A numerical study on the trade-off between cooling performance and irreversibility.
Refrigeration sector monitoring
1 result
GL2012 highlights: technologies needed in order to raise uptake of natural refrigerants
Prof. Pega Hrnjak presented technologies that could advance the position of major natural refrigerants at the 2012 Gustav Lorentzen Conference on Natural Refrigerants. He claims that hydrocarbons, ammonia and CO2 could become strong contenders for...