This study presents an innovative new alternative for utilizing phase change materials as energy storage
media in solar power towers. The solar power tower prilling or granulation concept combines the existing
molten salt design with a prilling tower incorporated into the central receiver. In this way heat transfer
limitations normally associated with these systems can be overcome since only very small particles
(diameter 1–2 mm) are utilized. Three design cases were considered and a detailed model of the process
was developed. The model demonstrates the design dependence on several key variables including particle
diameter and the necessity of considering the system in conjunction with the steam generation
cycle. Pinch considerations within this cycle and the tower itself determine the operational feasibility.
It was found that the receiver design and prilling feed systems are crucial aspects which must be investigated
further to refine the concept design and complete a full techno-economic assessment and optimization.
The ‘‘best case scenario” resulted in a reduction of the circulating salt flow by one third
compared to the base case. Preliminary indications are that this would result in a 20% reduction of the
overall plant capital cost, but additional costs such as solids handling and a complex receiver design have
to be taken into account.