Material selection and prototype design of a double-fluid circulation PCM storage for SHIP applications

International audienc

Xylitol used as phase change material: Nucleation mechanisms of the overcooling rupture by stirring

International audienc

Xylitol used as phase change material: Nucleation mechanisms of the overcooling rupture by stirring

International audienc

Xylitol used as phase change material: Nucleation mechanisms of the supercooling rupture by stirring

International audienc

Xylitol used as phase change material: Nucleation mechanisms of the overcooling rupture by stirring

International audienc

Xylitol used as phase change material: Nucleation mechanisms of the overcooling rupture by stirring

International audienc

Triggering Xylitol crystallization in a 42 kWhth shell and tubes latent heat thermal energy storage system

International audienc

Experimental results from a pilot scale latent heat thermal energy storage for DSG power plants – Advanced operating strategies

International audienceSince 2013, CEA has been operating a pilot scale high pressure water-steam facility called LHASSA designedto test latent thermal energy storage modules under operating conditions similar to commercial Direct Steam GenerationCSP plants. A Phase Change Material (PCM) storage module connected to this facility is composed of aluminum finnedsteel tubes immerged into sodium nitrate and surrounded by aluminum inserts for heat transfer enhancement. This paperpresents the results obtained from the third test campaign on this storage module, consisting in 25 charge-discharge cyclesunder a wide range of operating conditions (fixed of sliding pressure, complete and partial charge levels…). Thermalperformances of the storage test section show a very good repeatability, without any performance degradation comparedto the previous test campaigns. Some new operating strategies were successfully tested (charge interruption simulating acloud transient in the solar field, discharge with fixed pressure and varying mass flows, charge-discharge transitionmanagement)