References
- Charunyakorn P, Sengupta S, Roy SK. 1991. Forced convection heat transfer in microencapsulated phase change material slurries: flow in circular ducts. International Journal of Heat and Mass Transfer 34:819–833.
- Cho YI, Chee DW. 1991. Thermal analysis of primary cylindrical lithium cells. Journal of the ElectrochemicalSociety 138:927–930.
- Choi E, Cho YI, Lorsch HG. 1994. Forced convection heat transfer with phase-change-material slurries: turbulent flow in a circular tube. International Journal of Heat and Mass Transfer 37:207–215.
- Goel M, Roy SK, Sengupta S. 1994. Laminar forced convection heat transfer in microencapsulated phase changematerial suspension. International Journal of Heat and Mass Transfer 37:593–604.
- Hale DV, Hoover MJ, O'Neil MJ. 1973. Phase-change materials handbook. NASA CR–61363.
- Lane G. 1986. Solar heat storage: Latent heat materials. Cleveland, OH: CRC Press.
- Matson GW. 1970. Microcapsules and process of making. United States Patent 3,516,941.
- Mulligan JC, Colvin DP, Bryant YG. 1996. Micro-encapsulated phase change material suspensions for heat transfer in spacecraft thermal systems. Journal of Spacecraft and Rockets 33:278–284.
- Thies C. 1991. Microencapsulation. In Kirk-Othmer Encyclopedia of Chemical Technology. 4th ed. Vol. 16.New York: Wiley. pp. 628–651.
- Tseng YH. 2001. Preparation and characterization of microcapsulated phase-change materials. MS thesis, National Cheng Kung University, Tainan, Taiwan.
- Yamagishi Y, Takeuchi H, Pyatenko AT, Kayukawa N. 1999. Characteristics of microencapsulated pcm slurry as a heat-transfer fluid. AIChE Journal 45:696–707.