TY - RPRT ID - epos2141 UR - https://episodesplatform.eu/eprints/2141/ A1 - Grégoire, Hévin, A1 - Cyrille, Balland A1 - J., Billiotte A1 - B., Tessier A1 - F., Hadj Hassen, A1 - A., Rouabhi A1 - L., Blanco-Martin, A1 - Kurt, Staudtmeister A1 - Bastian, Leuger A1 - Dirk, Zapf A1 - Emmanuel, Hertz A1 - Daniel, Tribout A1 - Nicolas, Thelier N2 - Towards the end of the 2000s, the global energy situation began to change significantly. The need for energy transition became increasingly important, pushing players in the field to look into different subjects relating to energy production and use. The energy storage sector was no exception, and research projects into compressed air or hydrogen storage in salt caverns came into being. Within these projects, storage often involves high injection and withdrawal flow rates. This means that pressure (and temperature) variations at the cavern walls take place very quickly and "injection-withdrawal" operating cycles are very frequent. PB - INERIS TI - Thermal cracking experiment in a salt mine. M1 - project_report AV - public ER -