Design and experimental research of oil cooler for reactor coolant pump

FENG Xiaodong;WANG Lei;MA Yu;WANG Yahui;Harbin Electric Power Equipment Co.,Ltd.;School of Energy Science and Engineering,Harbin Institute of Technology;Sino-French Institute of Nuclear Engineering and Technology,Sun Yat-Sen University;

oil cooler;;reactor coolant pump;;thrust bearing;;heat exchanger plate

According to the requirement of the oil cooler of rector coolant pump( RCP),a bubble-plate type oil cooler,which met the requirements of both heat transfer performance and fluid resistance was developed. The heat transfer effect was increased and the fluid resistance was reduced by using the bubble type heat exchanger plate. Through the design calculation,strength calculation and seismic analysis,the theoretical verification of the oil cooler was carried out. Through the theoretical calculation,the cooling water outlet temperature was 44.67 ℃,the oil pressure drop was 0.07 MPa,the cooling water pressure drop was 0.015 MPa,and the heat exchange power was 67.76 kW. The frequencies obtained by modal analysis were greater than the specified 50 Hz. Stress calculations were carried out for the 0/A,B and D grades under the three load combinations,indicating that the calculated values of film stress and film + bending stress were within the specified stress limits and met ASME specifications. The calculation results show that the designed oil cooler meets the design requirements and has high safety and reliability. At the same time,the heat transfer performance and fluid resistance of the oil cooler were tested. The results meet the design conditions,and the thermal balance error of heat release and heat absorption is 1.83%,which meets the experimental requirements of heat balance. It presents a new idea for the design of the oil cooler and provides reference for the improvement and optimization of the plate type oil cooler.