MAIN DIRECTIONS OF THE ERTC R&D ACTIVITIES
Our R&D activities include the following main directions Advancing the Ejector Refrigeration and Cooling Technologies for the HVAC Industry:
- Selection of optimal pure, preferably natural, working fluids for ejector refrigeration and cooling systems.
- One-dimensional modelling for supersonic ejector design.
- Computational fluid dynamics (CFD) modeling to study of the supersonic ejectors.
- Optimum design of supersonic ejector flow profile.
- Optimum design of supersonic ejector construction.
- Optimum ejector refrigeration and cooling cycles design.
- Development and design of different ejector refrigeration and cooling systems utilising exhaust and waste heat and solar energy.
- Novel non-conventional thermal feed pumps development and design.
- Development and design of autonomous (pumpless) ejector refrigeration and cooling systems, utilizing non-conventional thermal feed pumps.
- Development of multipurpose Low-Grade Heat Driven Ejector Air Conditioners, Chillers and Refrigerators, utilizing Low-Boiling Refrigerants.
- Development of Advanced hybrid CO2 compression refrigeration-ejector cooling systems.
- Development of Advanced cascade CO2 compression refrigeration-ejector cooling systems.
- Development of Advanced combined ejector-absorption systems.
- Development of Advanced combined systems for power generation, heating, cooling and refrigeration.
- Development of multipurpose systems on the basis different combined ejector systems.
- Design and Development of autonomous energy supply systems on the basis of renewable energy sources inclusive different combined solar ejector systems.
- Design of control and automation systems for different ejector refrigeration and cooling machines.