Convective heat transfer of high temperature molten salt flowing across tube bundles of steam generator in a solar thermal plant

A high temperature molten salt heat transfer experimental system was established and operated over 1500 h, started up and shut down every day, for research and development of steam generator in a solar thermal plant. Convective heat transfer performances of high temperature molten salt was investigated experimentally when it flowed across tube bundles in a shell-and-tube heat exchanger with Reynolds number ranging from 2129 to 10072 and fluid temperature 400-500 °C. Various experiments were respectively carried out to study the effect of pressure (water range: 14-18 MPa), temperature, flux (water range: 200-400 kg h−1) and phases of the tube side of heat exchanger. The results show that the Nusselt number of molten salt increases when the flux of water and the temperature of molten salt increased respectively with other conditions unchanged. Moreover, the Nusselt number of molten salt slightly decreases when the pressure of water increased. Finally, based on the experimental data and Zhukauskas correlation, several modified Zhukauskas correlations were proposed, and a good agreement was observed with deviations less than ±16% between the experimental data of molten salt and the empirical correlation.