influence of the configuration of heat exchangers on the
TRANSCRIPT
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Influence of the configuration of heat exchangers on the performance of ORCs:
a first step towards a system optimization
Daniël Walraven1,*, Ben Laenen2 and William D’haeseleer1
1University of Leuven (KU Leuven) 2Flemish Institute for Technological Research (VITO)
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Introduction
• Optimization for ORCs:
– Cycle: temperatures, pressures, …
or
– Components: turbine, cooling system, heat exchangers, …
Assumptions
• System optimization:
– Combine cycle- and component optimization
Eliminate many assumptions
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Introduction (2)
• System optimization with heat exchangers:
– Shell-and-tube heat exchangers
– Plate heat exchangers
Pinch-point ΔT, pressure drop, condenser temperature, … are results
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Content
• Introduction
• ORC-model
• Heat exchanger models:
– Shell-and-tube heat exchanger
– Plate heat exchanger
• Optimization method
• Results
• Conclusions
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Single-pressure ORC
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• Inputs:
– Inlet states
– Requirement outlet state
– Geometry
• Outputs:
– Outlet states
– Size
– Heat transfer coefficient, ΔT, etc.
Shell-and-tube heat exchanger: Tema E
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• Inputs:
– Inlet states
– Requirement outlet state
– Geometry
• Outputs:
– Outlet states
– Size
– Heat transfer coefficient, ΔT, etc.
Plate heat exchanger: chevron corrugations
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• Optimization variables:
– Cycle: • Temperature before
turbine
• Pressure before turbine
• Pressure before pump
• Working fluid mass flow
– Heat exchangers: • 4/5 geometrical variables
for every heat exchanger
Computationally difficult
• Gradient-based:
– Automatic differentiation in reverse mode
– Adaptation RefProp
• Extra constraint:
– Maximum total heat exchanger surface
Optimization method
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Content
• Introduction
• ORC-model
• Heat exchanger models:
– Shell-and-tube heat exchanger
– Plate heat exchanger
• Optimization method
• Results
• Conclusions
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• Heat source:
– Water
– 125°C
– 100 kg/s
• Cooling fluid:
– Water
– 20°C
– 800 kg/s
• ORC:
– Simple/recuperated
– 1 pressure level
– Amax = 4000 m²
Reference data
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• Plate • Shell-and-tube, 90°
Influence maximum total heat exchanger surface
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• Plate • Shell-and-tube, 90°
Influence maximum total heat exchanger surface (2)
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• Plate • Shell-and-tube, 90°
Influence maximum total heat exchanger surface (3)
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• Plate • Shell-and-tube, 90°
Influence maximum total heat exchanger surface (4)
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Influence configuration tubes
• Isobutane, shell-and-tube
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Influence heat source outlet temperature
• Plate heat exchanger, simple
• Plate heat exchanger, recuperated
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Influence cooling fluid inlet temperature
• Plate heat exchanger
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Influence cooling fluid mass flow
• Plate heat exchanger
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Conclusions and further work
• System optimization of ORCs is possible
• Plate heat exchangers perform mostly the best
• Strong influence cooling fluid properties
Include cooling system in optimization
• Strong influence Amax
Economic system optimization