The development of a hydrocarbon high temperature heat pump for waste heat recovery

Waste heat is an abundant resource that if recovered with a heat pump would increase energy efficiency in industrial processes. This will provide improvements in heat utilization and reduce the environmental impact of greenhouse gas emissions from the combustion of fossil fuel. A hydrocarbon high te...

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Bibliographic Details
Published in:Energy (Oxford) 2019-04, Vol.173, p.1141-1153
Main Authors: Bamigbetan, O., Eikevik, T.M., Nekså, P., Bantle, M., Schlemminger, C.
Format: Article
Language:English
Subjects:
Boilers
Butane
Clean energy
Compressor technology
Drying
Energy efficiency
Energy management
Environmental impact
Fossil fuels
Greenhouse effect
Greenhouse gases
Heat
Heat exchangers
Heat pumps
Heat recovery
High temperature
Hydrocarbons
Industrial heating
Low temperature
Natural working fluids
Pasteurization
Process heat
Standard components
Steam
Temperature effects
Waste heat
Waste heat recovery
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Summary:Waste heat is an abundant resource that if recovered with a heat pump would increase energy efficiency in industrial processes. This will provide improvements in heat utilization and reduce the environmental impact of greenhouse gas emissions from the combustion of fossil fuel. A hydrocarbon high temperature heat pump has been developed to demonstrate the potential to deliver heat at a temperature of 115 °C. The heat pump provides heat for applications such as drying, pasteurization and other processes. Using hydrocarbons, the heat pump aims for a clean energy system. This paper reports on a 20 kW capacity cascade heat pump with propane in the low temperature cycle and butane in the high temperature cycle. Based on a theoretical model, an experimental setup is built with standard components that are commercially available. A prototype compressor is investigated for its performance at high temperature conditions. The heat pump can recover waste heat at 30 °C and deliver heat up to 115 °C. With an average heating coefficient of performance (COP) of 3.1 for a temperature lift of 58–72 K, the heat pump is a more cost efficient and environmentally friendly system compared to existing solutions of a steam boiler. •Experimental investigation of a high temperature heat pump up to 115 °C.•Experimental investigation of a modified compressor for high temperature heat pump.•Coefficient of performance (COP) of 2.1 and 3.1 for waste heat at 30 °C and 60 °C.•Heat pump COP at 60 °C waste heat break-evens with gas boilers in less than 3 years.•Carbon emissions reduction of over 95% in Norway and 30% in Europe.
ISSN:0360-5442
1873-6785
DOI:10.1016/j.energy.2019.02.159