Spent fuel pool datasets

The data in this dataset are partly from the authors' design calculations and partly from numerical simulation results.Table 1 shows the numerical simulation data of the separated heat pipe at different air temperatures. The first row of the table is for different air temperatures of -19°C, -14°C, -9°C, -5°C, and 0°C; the first column of the table is for the condensing and evaporating sections. According to the known data brought into the numerical simulation software to calculate the corresponding temperature, heat exchange, pool average temperature and other data.Table 2 shows the numerical simulation results of the condensation section at different wind speeds. The first-row entries include wind speed, water vapor temperature, air, and numerical simulation results. The wind speeds are 3.5 m/s, 4.5 m/s, 5.5 m/s, 6.5 m/s, 7.5 m/s, 8.5 m/s, 10.5 m/s, 12.5 m/s, 13.9 m/s; the air section includes air temperature and mass flow rate; the numerical simulation results include the working fluid temperature at the exit of the condensing section, air exit temperature, heat exchange, working fluid inlet and outlet temperature difference, air The numerical simulation results include the working fluid temperature at the outlet of the condensing section, the air outlet temperature, the heat exchange, the temperature difference between the working fluid inlet and outlet, and the temperature difference between the air inlet and outlet.Table 3 shows the climate conditions and the equivalent thermal conductivity of heat pipes in Weihai City, Shandong Province in different seasons. The climatic conditions mainly include air temperature and wind speed; the equivalent thermal conductivity of heat pipe is calculated by the thermal resistance network model.