Thermal load and bending analysis of heat collection element of direct-steam-generation parabolic-trough solar power plant

摘要

Graphical abstractDisplay OmittedHighlights？2D FVM-3D FEM coupled model is proposed for thermal load and bending analysis.？Non-uniform heating and local overheating issues exist in a complete DSG loop.？Thermal deflection is less than 1cm for a 4-m HCE in evaporation stage.？Thermal deflection can reach up to 2.16cm for a 4-m HCE in superheating stage.？Superheating stage has more serious bending issue and potential damage risk.AbstractThe reliability of heat collection element (HCE) in parabolic trough collector (PTC) system is of importance to the solar thermal energy harvesting. The present work proposes the 2D-finite volume method (FVM) and 3D-finite element volume (FEM) coupled model to conduct the thermal load and bending analysis of the HCE of direct-steam-generation (DSG) PTC solar power plant. The emphasis is focused on the evaporation and superheating stages of a DSG loop in re-circulation mode due to the presence of the phase-change process and the relatively lower heat transfer performance, respectively. It is found that the thermal deflection is far less than 1cm for a 4-m HCE in the evaporation stage. However, in the superheating stage withDNI=1000Wm？2(DNIbeing the direct normal irradiance), the circumferential temperature difference and the deflection of a 4-m HCE can reach up to 48°C and 2.16cm, respectively. It should be pointed out, based on the present work, that the non-uniform heating and local overheating issues exist in the evaporation and superheating stages, respectively, the latter of which seems more serious and potentially causes damage.]]>