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Application of Response Surface Methodology (RSM) for Optimization of Operating Parameters and Performance Evaluation of Cooling Tower Cold Water Temperature

Journal Name:

  • An International Journal of Optimization and Control: Theories & Applications

Publication Year:

  • 2012

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Abstract (Original Language): 
The performance of a cooling tower was analyzed with various operating parameters to find the minimum cold water temperature. In this study, optimization of operating parameters was investigated. An experimental design was carried out based on central composite design (CCD) with response surface methodology (RSM). This paper presents optimum operating parameters and the minimum cold water temperature using the RSM method. The RSM was used to evaluate the effects of operating variables and their interaction towards the attainment of their optimum conditions. Based on the analysis, air flow, hot water temperature and packing height were high significant effect on cold water temperature. The optimum operating parameters were predicted using the RSM method and confirmed through experiment.
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REFERENCES

References: 

[1] Walker, W.H., Lewis, W.K., McAdams, W.H.,
and Gilliland, E.R., Principle of chemical
Engineering. 3rd ed. McGraw-Hill Inc, New
York (1923).
[2] Simpson, W.M. and Sherwood, T.K.,
Performance of small mechanical draft
cooling towers. American Society of
Refrigerating Engineering, vol.52, 535-543,
(1946).
[3] Kelly,N,w and Swenson, L.K., Comparative
performance of cooling tower packing
arrangements. Chemical Engineering
Progress,Vol.52, 263-268 (1956).
[4] Barile,R.G., Dengler, J.L., and
Hertwing,T.A.,Performance and desing of a
turbulent bed cooing tower. AIChE
Symposium Series,Vol.70, 154-16 (1974).
[5] Bedekar,S.V., Nithiarasu,P and
Seethatamu,K.N., Esperimental investigation
of the performance of a counter flow packed
bed mechanical cooing tower.Energy,
Vol.23,943-947(1998).
[6] Goshayshi, H.R., and Missenden, J.F., The
investigation of cooling tower packing in
various arrangements. Applied Thermal
Engineering, Vol.20, 69-80 (2000).
[7] Kloppers, J.C., and Kroger, D.G., Loss
coefficients correlation for wet cooling tower
tower fills. Applied Thermal Engineering,
Vol.23, 2201-2211 (2003).
[8] Lemourai.M., Experimental study of the
air/Water heat transfer by direcrt contact in a
column packed with vertical grid-application
to the water cooling . Thesis(MSc), University
of Bejaia,Algeria (2001).
[9] Lemourai.M., and Boumaza,M., Experimental
studyof the air /water heat transfer by direct
contact in column packed with vertical ghrids
application to the water cooling.Procedding
11th International meeting on Heat
transfer,Vol.2, 457-464 (2003).
[10] Lemourai,M., and Boumaza,M., An
Experimental investigation of thermal
characteristics of a mechanical draft wet
cooling tower. Proceeing 13th IAHR, Poitiers,
France (2005).
[11] Lemourai,M., Boumaza,M., and Mujtaba,I.M.,
Thermal performance investigation of a wet
cooling tower. Applied Thermal
Engineering,Vol.27, 902-909 (2007).
[12] Lemourai,M., and Boumaza,M., Experimental
investigation of the performance
characteristics of c counter flow wet cooling
tower. International Journal of Thermal
Sciences,Vol.49, 2049-2056 (2010).
[13] Arslan-Alaton,G., Tureli,T., and OlnexHanci,J.,
Development of experimental design
moedls of commercially important naphthalene
sulfonate and its organic carbon content.
Chemical Engineering Jurnal,Vol.165, 597-
606 (2010).
[14] Sharma,S., Malik,A., and Satya,S., Application
of response surface methodology for
optimation of ammoniacal nitrogen removal
from semi-aerobic landfill leachate using ion
exchange resin.Journal of Hazardous
Materials,Vol.162, 1371-1378 (2009).
[15] Olmex,T., The optimization of Cr(VI)
reduction and removal by electrocoagulation
using response surface methodology. Journal
of Hazardous Material.,Vol.13, 1371-1378
(2009).
[16] Gurven,G., Perendeci,A., Tanyolac,A.,
Electrochemcial treatement of deproteinated
whey waterwater and optimization of treatment
condtions with response surface
metholdogy.Journal of Hazardous
Materials,Vol.157, 69-78 (2008).
[17] Bas,D., Boyaci,I.H., Modeling and
optimization I: Usability of response surface
methodology.Journal of Food
Engineering,Vol.78, 836-845 (2007).
[18] Montgomery,C.C., Design and Analysis of
Experiments, 6th Editio, John Wiley & sons,
USA (2005).
[19] Myers,R.H., Montogomery,D.C., Response
Surface methodoloty: Process and Product
optimization using esigned Experiments 2nd
Ed, John Wiley&Sons,USA (2002).
[20] Hou,T.H., Su,C.H., and Liu,W.L., Parameters
optimzation of nano-particl wet milling
process using the Taguchi method,response
surface method and genetic algoritham,
Journal of Power Technology, Vol.173, 153-
162 (2007).
[21] Mohammed,J.K., Aziz,H.M., Yosoff,M.S., and
Adlan,N., Application of response surface
Methodology(RSM) for optimization of
ammonical nitrogen removal from semiaerobic
landfill leachate using ion exchange
resin, Desalination, Vol.254, 154-161 (2010).
[22] Yang,K., El-Hail,B., Design for Six Sigma.The
McGraw-Hill,USA (2003).
[23] Boras Abraham, Statistics for industry and
technology, Birkhakser Boston,Canada (1998).

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