References
- Ma, Z., G. C. Glatzmaier, and M. Mehos. 2014. Development of solid particle thermal energy storage for concentrating solar power plants that use fluidized bed technology. Energy Procedia 49:898–907.
- Schmidt, D. P., M. J. Frain, and W. A. Fiveland. 2005. An experimental investigation of the influence of gas and solid particle interaction on the heat transfer effectiveness of a falling-bed heat exchanger. Journal of Heat Transfer 127:1077–86.
- Wardjiman, C., A. Lee, M. Sheehan, and M. Rhodes. 2008. Behavior of a curtain of particles falling through a horizontally-flowing gas stream. Powder Technology 188:110–18.
- Wardjiman, C., A. Lee, M. Sheehan, and M. Rhodes. 2009. Shape of a particle curtain falling in stagnant air. Powder Technology 192:384–88.
- Warerkar, S., S. Schmitz, J. Goettsche, B. Hoffschmidt, and M. Reißel. 2011a. Air/sand heat exchanger for high-temperature storage. Journal of Solar Energy Engineering 133:10101–07.
- Warerkar, S., S. Schmitz, J. Göttsche, and B. Hoffschmidt. (2011b). Air/sand heat exchanger for solar tower power stations. 6th International Renewable Energy Storage Conference, Berlin, November 28–30.