This paper evaluates a water based (R718) high temperature heat pump with novel high-pressure lift turbo compressors. The first stage turbo compressor is designed for steam compression and the second stage is designed for air, both are based on economic standard components from the automotive industry. A 500 kW compressor test rig was built by SINTEF to test the 2-stage configuration in superheated steam conditions. Compressor efficiency and system COP was calculated based on measurements from the test rig. Also, compressor maps for the two compressors was created. For the 1st stage compressor, the maximum isentropic efficiency was 67% and maximum pressure ratio 2.4. The second stage yielded 77% and 2.0. The two-stage configuration was able...
Waste heat is an abundant resource that if recovered with a heat pump would increase energy efficien...
A new type of air-water heat pump has been developed with the aim to cover an extended application r...
Energy consumption is still growing worldwide and due to the problems of global warming, sustainable...
This paper evaluates a water based (R718) high temperature heat pump with novel high-pressure lift t...
Industrial drying and dehydration processes require intensive use of energy and account for a large ...
Water (R-718) is a safe and energy-efficient refrigerant. Mechanical vapour recompression (MVR), an ...
The implementation of industrial heat pumps utilizing waste water from various industrial processes ...
A new type of air-water heat pump has been developed with the aim to cover an extended application r...
Currently, a number of companies manufacture liquid-to-water heat pumps for geothermal applications,...
Industrial processes like dairy production, brewing etc. often require simultaneous cooling and heat...
In the area of the heating industry, a heat pump is an efficient alternative technology to achieve e...
A water source heat pump has been designed that is capable of operating over the range from 40 to 11...
The study explores the possibility of using water (R718) as a refrigerant for a heat pump installati...
The study explores the possibility of using water (R718) as a refrigerant for a heat pump installati...
There is a large demand for heat typically in the temperature range 100-200⁰C in different industrie...
Waste heat is an abundant resource that if recovered with a heat pump would increase energy efficien...
A new type of air-water heat pump has been developed with the aim to cover an extended application r...
Energy consumption is still growing worldwide and due to the problems of global warming, sustainable...
This paper evaluates a water based (R718) high temperature heat pump with novel high-pressure lift t...
Industrial drying and dehydration processes require intensive use of energy and account for a large ...
Water (R-718) is a safe and energy-efficient refrigerant. Mechanical vapour recompression (MVR), an ...
The implementation of industrial heat pumps utilizing waste water from various industrial processes ...
A new type of air-water heat pump has been developed with the aim to cover an extended application r...
Currently, a number of companies manufacture liquid-to-water heat pumps for geothermal applications,...
Industrial processes like dairy production, brewing etc. often require simultaneous cooling and heat...
In the area of the heating industry, a heat pump is an efficient alternative technology to achieve e...
A water source heat pump has been designed that is capable of operating over the range from 40 to 11...
The study explores the possibility of using water (R718) as a refrigerant for a heat pump installati...
The study explores the possibility of using water (R718) as a refrigerant for a heat pump installati...
There is a large demand for heat typically in the temperature range 100-200⁰C in different industrie...
Waste heat is an abundant resource that if recovered with a heat pump would increase energy efficien...
A new type of air-water heat pump has been developed with the aim to cover an extended application r...
Energy consumption is still growing worldwide and due to the problems of global warming, sustainable...