Conceptual Design and Preliminary Testing of an Organic Rankine Cycle Thermal Architecture

Keyphrases

• Organic Rankine Cycle 100%
• Thermal Architecture 100%
• Heat Recovery 50%
• Conversion Efficiency 50%
• University of Brighton 25%
• Internal Combustion Engine 25%
• High Temperature 25%
• Potential Gains 25%
• Thermal Efficiency 25%
• Cycle Test 25%
• System Cost 25%
• Simulation Study 25%
• Heat Source 25%
• Operational Capabilities 25%
• Waste Heat Recovery 25%
• CO2 Emission Reduction 25%
• Reduced System 25%
• Organic Working Fluid 25%
• Near-optimal 25%
• Variable Heat Source 25%
• Heat Utilization 25%
• Direct Utilization 25%
• High-temperature Exhaust Gas 25%
• Thermal Oil 25%
• High-pressure Cycle 25%
• Effective Temperature 25%
• Overall Thermal Efficiency 25%
• Source Quality 25%
• Optimal Process Conditions 25%
• High Pressure High Temperature 25%
• Dual Source 25%
• Survey Simulation 25%
• Overall System Cost 25%
• Heat Recuperation 25%
• Internal Heat 25%

Engineering

• Organic Rankine Cycle 100%
• Conversion Efficiency 50%
• Heat Recovery 50%
• System Cost 50%
• Thermodynamic Efficiency 50%
• Actuator 50%
• Internal Combustion Engine 25%
• Test Facility 25%
• Experimental Measurement 25%
• Internals 25%
• Realization 25%
• Simulation Result 25%
• Potential Benefit 25%
• Waste Heat Recovery System 25%
• Thermal Oil 25%
• High Pressure and High Temperature 25%
• Optimal Process Condition 25%
• Exhaust Gas 25%

Chemical Engineering

• Rankine Cycle 100%
• Carbon Dioxide 25%