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Low-temperature organic Rankine cycle engine with isothermal expansion for use in desalination
Opubo N. Igobo, Philip A. Davies
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Corresponding author for this work
Mechanical, Biomedical & Design Engineering
Sustainable Environment Research Group
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Keyphrases
Batch Reverse Osmosis
33%
Boiler Pressure
33%
Consumption Values
33%
Conventional Energy
33%
Cycle Efficiency
33%
Desalination
100%
Desalination Process
33%
Efficiency Improvement
33%
Energy Supply
33%
Freshwater
66%
Groundwater Salinity
33%
Heat Transfer Fluid
33%
High Pressure
33%
High Specific Energy
33%
Isothermal Expansion
100%
Low Temperature
100%
Low-grade Heat
33%
Mechanical Specific Energy
33%
Organic Rankine Cycle
100%
Pressure piping
33%
R245fa
33%
Reverse Osmosis
33%
Reverse Osmosis Desalination
33%
Saline Water
66%
Specific Energy Consumption
100%
Working Fluid
66%
Engineering
Boiler Pressure
33%
Conventional Energy
33%
Cycle Efficiency
33%
Desalination
100%
Energy Engineering
100%
Experimental Investigation
33%
Heat Transfer Fluid
33%
High Pressure Piping
33%
Isothermal Expansion
100%
Low-Temperature
100%
Organic Rankine Cycle
100%
Reverse Osmosis
66%
Chemical Engineering
Rankine Cycle
100%
Reverse Osmosis
66%