Analysis of Heat Storage and Delivery of a Thermocline Tank Having Solid Filler Material

Abstract: Thermal storage has been considered as an important measure to extend the operation of a eoneentrated solar power plant by providing more eleetricity and meeting the peak demand of power in the time period from dusk to late night everyday, or even providing power on eloudy days. Diseussed in this paper is thermal energy storage in a thermoeline tank having a solid filler material. To provide more knowledge for designing and operating of sueh a thermoeline storage system, this paper firstly presents the applica… Show more

“…Researchers in the National Renewable Energy Laboratory (NREL) numerically modeled the packed-bed molten salt thermocline system in which the solid fillers were in the form of hexagonal rods or a honeycomb-like structure [7]. Using the adopted Schumann model [3], the performance of thermocline energy storage system, filled with rocks as filler material, was studied by Van Lew et al [8] and the effects of particle diameter, bed dimensions, fluid flow rate and the solid filler material on the dynamic performance of thermocline storage system were studied by H€ anchen et al [9].…”

Numerical analysis of charging and discharging performance of a thermal energy storage system with encapsulated phase change material

“…Researchers in the National Renewable Energy Laboratory (NREL) numerically modeled the packed-bed molten salt thermocline system in which the solid fillers were in the form of hexagonal rods or a honeycomb-like structure [7]. Using the adopted Schumann model [3], the performance of thermocline energy storage system, filled with rocks as filler material, was studied by Van Lew et al [8] and the effects of particle diameter, bed dimensions, fluid flow rate and the solid filler material on the dynamic performance of thermocline storage system were studied by H€ anchen et al [9].…”

Numerical analysis of charging and discharging performance of a thermal energy storage system with encapsulated phase change material

“…Approaches of analytical solution assisted with numerical computation to the above equations have been well described in the work of Van Lew et al [140] for thermal storage with no melting, and the work of Tumilowicz et al [139] for the case with melting process.…”

Application of phase change materials for thermal energy storage in concentrated solar thermal power plants: A review to recent developments

“…This unit was designed for an air-based tubular receiver for a CSP trough system that can deliver air at 600°C and above (Good et al, 2013). Recently, rocks have been suggested as filler material for oil and molten salt tanks in order to increase the energy density and help create and maintain temperature stratification (Van Lew et al, 2011;Flueckiger et al, 2012;Valmiki et al, 2012). Packed beds of rocks using air as HTF finds application not only in CSP plants (Bader et al, 2011), but also in adiabatic compression-expansion cycles for electricity storage (Jakiel et al, 2007).…”

Experimental and numerical investigation of combined sensible–latent heat for thermal energy storage at 575°C and above