RT Conference Proceedings
T1 Allowable solar flux densities for molten-salt receivers: Input to the aiming strategy
A1 Sánchez González, Alberto
A1 Rodríguez Sánchez, María de los Reyes
A1 Santana Santana, Domingo José
AB Solar Power Tower technology requires accurate models and tools to assist in design and operation stages. The heliostat field aiming strategy seeks the maximization of the thermal output from the receiver, while preventing its permanent damage because of thermal stress and corrosion in molten salt receivers. These two limitations are translated into Allowable Flux Densities (AFD), which can be handled by the aiming strategy.This paper explains the methodology to determine AFDs, and analyzes the influence of tube geometry and material. AFD by corrosion is slightly lower in Haynes 230 than Inconel 625 and austenitic alloys. On the contrary, HA230 has better performance than In625 under thermal stress. Increment of tube wall thickness diminishes the AFD: slightly by corrosion, but significantly by thermal stress.The generated AFD databases feed the aiming model, herein applied to Gemasolar case study. In the cylindrical receiver, first northern panels are limited by thermal stress, while the last ones by corrosion. Under optimized aiming, HA230 receiver tubes produce equivalent thermal output than In625.
PB Elsevier, B.V.
SN 2590-1230
YR 2020
FD 2020-03
LK https://hdl.handle.net/10016/34482
UL https://hdl.handle.net/10016/34482
LA eng
NO Proceeding of: XI National and II International Engineering Thermodynamics Congress (11 CNIT 2019)
NO The authors acknowledge to 11CNIT (XI National and II International Engineering Thermodynamics Congress) committee for selecting the previous conference contribution for further dissemination through this special issue
NO This study has been supported and financed by Iberdrola España Foundation under the program Ayudas a la investigación en Energía y Medio Ambiente 2018, project: "Diseño y evaluación de un Nuevo receptor solar exterior de tubos ovalados".
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RD 18 jul. 2024