COST OF CONTACT FILTRATION AS A FUNCTION OF THE RAW WATER PARTICLE SIZE DISTRIBUTION.
Publication
, Journal Article
Wiesner, MR; Cohon, JL; O'Melia, CR
December 1, 1986
An optimization model was used to identify least cost contact filtration designs of filtration rate and runtime as a function of raw water particle concentration and average diameter. The optimization model incorporates a previously developed simulation model for filter ripening as nonlinear, non-explicit constraints on terminal headloss and average filtrate quality. A simple solution algorithm for the optimization model is presented. Results of the optimizations show least cost contact filtration design to be highly sensitive to both the size and concentration of particles in the raw water.
Duke Scholars
Publication Date
December 1, 1986
Volume
2
Citation
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ICMJE
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Wiesner, M. R., Cohon, J. L., & O’Melia, C. R. (1986). COST OF CONTACT FILTRATION AS A FUNCTION OF THE RAW WATER PARTICLE SIZE DISTRIBUTION., 2.
Wiesner, M. R., J. L. Cohon, and C. R. O’Melia. “COST OF CONTACT FILTRATION AS A FUNCTION OF THE RAW WATER PARTICLE SIZE DISTRIBUTION.” 2 (December 1, 1986).
Wiesner MR, Cohon JL, O’Melia CR. COST OF CONTACT FILTRATION AS A FUNCTION OF THE RAW WATER PARTICLE SIZE DISTRIBUTION. 1986 Dec 1;2.
Wiesner, M. R., et al. COST OF CONTACT FILTRATION AS A FUNCTION OF THE RAW WATER PARTICLE SIZE DISTRIBUTION. Vol. 2, Dec. 1986.
Wiesner MR, Cohon JL, O’Melia CR. COST OF CONTACT FILTRATION AS A FUNCTION OF THE RAW WATER PARTICLE SIZE DISTRIBUTION. 1986 Dec 1;2.
Publication Date
December 1, 1986
Volume
2