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Session: System design and optimization II
Session starts: Tuesday 08 October, 09:00
Presentation starts: 09:40
Room: Ruys & Rijckenvorsel Zaal

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Steven Lecompte (UGent)
Henk Huisseune (UGent)
Martijn van den Broek (UGent)
Michel De Paepe (UGent)

Abstract:
Combined heat and power (CHP) systems are able to decrease the total energy use of primary energy sources. In the CHP system studied, internal combustion engines produce electricity and the hot engine cooling water is used for building heating. However, there is still waste heat left which can be fed to an Organic Rankine Cycle (ORC) to produce electricity. The objective of this study is to develop a methodology to design an economically optimal ORC system, taking into account the variable load for heating and the change in ambient temperature during a year. Also the auxiliary equipment such as pumps and fans are considered. A thermodynamic steady-state part-load model is developed to simulate the changing behaviour hour-by-hour of the complete system in different operating conditions. The ORC efficiency varies strongly over a year. The methodology allows selecting the optimal size of the heat exchangers (condenser and evaporator), the optimal mass flow rates and the maximal power of fans and pumps needed for the considered application.