References
- Advantix. 2015. Advantix systems. http://www.advantixsystems.com/
- ANSI/AHRI. 2012. Standard for Performance Rating of DX—Dedicated Outdoor Air System Units. Arlington, VA: Air-Conditioning Heating and Refrigeration Institute (AHRI).
- Bergero, S., and A. Chiari. 2010. Performance analysis of a liquid desiccant and membrane contactor hybrid air-conditioning system. Energy and Buildings 42:1976–86.
- Clarke, W., R. Guscott, R. Downing, and R. Lindstrom. 2004. Endogenous lithium and boron red cell-plasma ratios: Normal subjects versus bipolar patients not on lithium therapy. Biological Trace Elements Research 97(2):105–16.
- Conde, M.R. 2004. Properties of aqueous solutions of lithium and calcium chlorides: Formulations for use in air conditioning equipment design. International Journal of Thermal Sciences 43:367–82.
- Conde-Petit, M. 2007. Liquid desiccant based air conditioning systems—LDACS. 1st European Conference on Polygeneration, Tarragona, Spain, October 16--17, pp. 217–34.
- Fan, H., C.J. Simonson, R.W. Besant, and W. Shang. 2006. Performance of a run-around system for HVAC heat and moisture transfer applications using cross-flow plate exchangers coupled with aqueous lithium bromide. Science and Technology for the Built Environmenth 12(2):313–36.
- Ge, G., D.G. Moghaddam, R. Namwar, C.J. Simonson, and R.W. Besant. 2013. Analytical model based performance evaluation, sizing, and coupling flow optimization of liquid desiccant run-around membrane energy exchanger systems. Energy and Buildings 62:248–57.
- Holman, J.P. 1994. Experimental Methods for Engineers, 6th Ed. . Chapter 3, Analysis of experimental data, 49--50. New York, NY: McGraw-Hill.
- Ishii, M., and M.A. Grolmes. 1975. Inception criteria for droplet entrainment in two phase concurrent film flow. AIChE Journal 21(2):308–18.
- Jain, S., and P.K. Bansal. 2007. Performance analysis of liquid desiccant dehumidification systems. International Journal of Refrigeration 30:861–72.
- Kathabar. 2015. Kathabar. http://www.kathabar.com/liquid-desiccant/system-features-benefits
- Kessling, W., E. Laevemann, and C. Kapfhammer. 1998. Energy storage for desiccant cooling systems component development. Solar Energy 64(4–6):209–21.
- Lavemann, E., and M. Peltzer.2006. Distributor for micro-quantities of liquid. U.S. Patent No. 7021608.
- Lof, G.O. 1955. Cooling with solar energy. 1955 Congress on Solar Energy, Tuscon, AZ, November 1--5, pp. 171–89.
- Lowenstein, A. 2008. Review of liquid desiccant technology for HVAC applications. HVAC&R Research 146819–39.
- Lowenstein, A., S. Slayzak, and E. Kozubal. 2006. A zero carryover liquid desiccant air conditioner for solar applications. Proceedings of International Solar Energy Conference 2006, Denver, CO, July 8--13.
- Martin, T., C. Brockhoff, J. Creed, and E.M. Group. 1994. Determination of Metals and Trace Elements in Water and Wastes by Inductively Coupled Plasma-Atomic Emission Spectrometry. Cincinnati, OH: U.S. Environmental Protection Agency.
- Noel, L., R. Chekri, S. Millour, and C. Vastel. 2012. Li, Cr, Mn, Co, Ni, Cu, Zn, Se, and Mo levels in foodstuffs from the Second French TDS. Food Chemistry 132(3):1502–13.
- Oberg, V., and D.Y. Goswami. 1998. A review of liquid desiccant cooling. Advances in Solar Energy 1210431–70.
- Park, M., J.R. Howell, G.C. Vliet, and J. Peterson. 1994. Numerical and experimental results for coupled heat and mass transfer between a desiccant film and air in cross-flow. International Journal of Heat and Mass Transfer 37:395–402.
- Saman, W.Y., and S. Alizadeh. 2001. Modeling and performance analysis of a cross-flow type plate heat exchanger for dehumidification/cooling. Solar Energy 70(4):361–72.
- Tao Zhang, T., X. Liu, J. Jiang, and X.J. Chang. 2013. Experimental analysis of an internally-cooled liquid desiccant dehumidifier. Building and Environment 63:1–10.
- Woods, J., and E. Kozubal. 2013. A desiccant-enhanced evaporative air conditioner: Numerical model and experiments. Energy Conversion and Management 65:208–20.
- Yin, Y., and X. Zhang. 2010. Comparative study on internally heated and adiabatic regenerators in liquid desiccant air conditioning system. Building and Environment 45:1799–807.
- Zhang, H.-Y., R. Wang, D.T. Liang, and J.H. Tay. 2008. Theoretical and experimental studies of membrane wetting in the membrane gas–liquid contacting process for CO2 absorption. Journal of Membrane Science 308:162–70.
- Zhang, L.-Z. 2011. An Analytical solution to heat and mass transfer in hollow fiber membrane contactors for liquid desiccant air dehumidification. Journal of Heat Transfer 133:092001-18.