[1] Panjeshahi M. H., Ataei A., Application of an Environmentally Optimum Cooling Water System Design to Water and Energy Conservation, Int. J. Environ. Sci. Tech., 5 (2), p. 251 (2008).
[2] Berman L. D., “Evaporative cooling of circulating water”. Pergamon, (1961).
[3] Smith R., “Chemical Process Design and Integration”, John Wiley & Sons Ltd, (2005).
[4] Mann J. G., Liu Y. A., Industrial Water Rreuse and Waste Water Minimization”, McGraw Hill Inc, (1999).
[5] Walker W. H., Lewis W. K., McAdams W. H., Gilliland E. R., “Principles of Chemical Engineering”, 3rd ed., Mac Graw-Hill Inc, (1923).
[6] Merkel F., Verdunstungshuhlung, Zeitschrift des Vereines Deutscher Ingenieure (VDI). 70, p. 123 (1925).
[7] Mohiuddin A.K.M., Kant K., Knowledge Base for the Systematic Design of Wet Cooling Towers Part I: Selection and Tower Characteristics, Int.J. Refrig., 19 (1), p. 43 (1996).
[8] Mohiuddin A.K.M., Kant K., Knowledge Base for the Systematic Design of Wet Cooling Towers Part II: Fill and Other Design Parameters, Int. J. Refrig., 19 (1), p. 52 (1996).
[9] Braun J. E., Klein S.A., Mitchell J.W., Effectiveness Models for Cooling Towers and Cooling coils, ASHRAE Trans., 95 (2), p. 74 (1989).
[10] Khan J.R., Yaqub M., Zubair S.M., Performance Characteristics of Counter Flow Wet Cooling towers, Energ. Convers. Manage., 44 (13), p. 2073 (2003).
[11] Milosavljevic N.A., Heikkila P., Comprehensive Approach to Cooling Tower Design, Appl. Therm. Eng., 21 (9), p. 899 (2001).
[12] Söylemez M. S., On the Optimum Sizing of Cooling towers, Energ. Convers. Manage., 42 (7), p. 783 (2001).
[13] Kröger D.G., “Air-Cooled Heat Exchangers and Cooling towers”, PennWell Corporation, (2004).
[14] Fisenko S.P., Brin A.A. and Petruchik, A.I., Evaporative Cooling of Water in a Mechanical Draft Cooling Tower, Int. J. Heat Mass Tran., 42 (1), p. 165 (2004).
[15] Visual Studio.Net 2003.
[16] Qureshi B.A., Zubair S.M., A Complete Model for Wet Cooling Towers with Fouling in Fills, Appl. Therm. Eng., 26 (16), p. 1982 (2006).
[17] Ataei A., Panjeshahi M. H., Gharaie M., A New Algorithm for Optimum Design of Mechanical Draft Wet Cooling Towers, J. Applied. Sci., 9 (3), p. 561 (2009).
[18] Ataei A., Combined Water and Thermal Pinch Analysis in Process Industries. Ph.D. thesis, Science and Research Branch of Islamic Azad University,Tehran,Iran, (2008).
[19] Deng S., Tan K., A Numerical Analysis of Heat and Mass Transfer Inside a Reversibly Used Water Cooling Tower, Build. Environ, 38 (1), p. 91 (2003).
[20] Khan J.R., Zubair S.M., An Improved Design and Rating Analysis of Counter Flow Wet Cooling Towers, J. Heat Trans., 123 (1), p. 770 (2001).
[21] Kloppers J.C., Kröger D.G., The Lewis Factor and Its Influence on the Performance Prediction of Wet-Cooling Towers, Int. J. Therm. Sci., 44 (9), p. 879 (2005).
[22] Muangnoi T, Asvapoositkul W., Wongwises S., An Exergy Analysis on the Performance of a Counter Flow Wet Cooling Tower, Appl. Therm. Eng., 27 (5), p. 910 (2007).
[23] Khan J.R., Qureshi, B.A., Zubair S.M., A Comprehensive Design and Performance Evaluation Study of Counter Flow Wet Cooling Towers, Int. J. Refrig., 27 (8), p. 914 (2004).
[24] Simpson W.M., Sherwood T.K., Performance of Small Mechanical Draft Cooling Towers, Ref. Eng., 52 (1), p. 525 (1946).
[25] Kim, J. K., Savulescu, L., Smith, R., Design of Cooling Systems for Effluent Temperature Reduction, Chem. Eng. Sci., 56 (5), p. 1811 (2001).
[26] Bedekar S.V., Nithiarasu P., Seetharamu K.N., Experimental Investigation of the Performance of a Counter-Flow Packed-Bed Mechanical Cooling Tower, Energy, 23 (11), p. 943 (1998).