1)  Seader, J.D., Henley, Ernest J., “Separation Process Principles”,  Second Edition, John Wiley and Sons Inc., 2006

2) Green, Don W., Perry, Robert H., “Perry’s Chemical Engineer’s Handbook”, Eighth Edition, McGraw Hill, 2007

3) Dorgan, Chad B., Leight, Steven P., Dorgan, Carles E., “Application Guide for Absorption Cooling / Refrigeration Using Recovered Heat”, ASHRAE, 1995

4) Jeter, S. M., Moran, J. P., Teja, A.S., “Properties of Lithium Bromide at High E Temperatures and Concentrations – Part III: Specific Heat, ASHRA Transactions Research” ,

5) Grossman, G., Childs, K. W., “Computer Simulation of a Lithium Bromide-Water Absorption Heat Pump for Temperature Boosting”, ASHRAE AC-83-05

6) Lee, S.F., Sherif, S. A., Thermoeconomic Analysis of Absorption Heat Transformers”, ASHRAE At-01-9-4

7) Perez-Blanco, H., Grossman, G., “Open-cycle Absorption Heat Pumps for Low_Grade Heat Utilization”, ASHRAE HO-82-5

8) Vane, L. M., Separation technologies for the recovery and dehydration of alcohols from fermentation broths.Biofuels, Bioproducts and Biorefining 2008, 2 (6), 553­588.



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