The content presented here represents the most current version of this section, which was printed in the 24th edition of Standard Methods for the Examination of Water and Wastewater.

2710 TESTS ON SLUDGES

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2710 B. Oxygen-Consumption Rate Bibliography
Umbreit WW, Burris RH, Stauffer JF. Manometric techniques. Minneapolis (MN): Burgess Publishing Co.; 1964. Google Scholar
2710 C. Settled Sludge Volume Reference
1. Dick RI, Vesilind PA. The sludge volume index—what is it? J Water Pollut Control Fed. 1969;41(7):12851291. Google Scholar
2710 D. Sludge Volume Index References
1. Dick RI, Vesilind PA. The sludge volume index—what is it? J Water Pollut Control Fed. 1969;41(7):12851291. Google Scholar
2. Finch J, Ives H. Settleability indexes for activated sludge. Sewage Ind Wastes. 1950;22(6):833839. Google Scholar
2710 D. Sludge Volume Index Bibliography
Donaldson W. Some notes on the operation of sewage treatment works. Sewage Works J. 1932:4:4859. Google Scholar
Mohlman FW. The sludge index. Sewage Works J. 1934:6:119122. Google Scholar
Rudolfs W, Lacy IO. Settling and compacting of activated sludge. Sewage Works J. 1934;6(4):647675. Google Scholar
2710 E. Zone Settling Rate References
1. Dick RI. Sludge treatment. In: Weber WJ, ed., Physicochemical processes for water quality control. New York (NY): Wiley-Interscience; 1972. Google Scholar
2. Dick RI, Young KW. Analysis of thickening performance of final settling tanks. Proceedings of the 27th Industrial Waste Conference. West Lafayette (IN): Purdue University; 1972, p. 3354. (Engineering Extension Service, No. 141) Google Scholar
3. Vesilind PA. Treatment and disposal of wastewater sludges. Ann Arbor (MI): Ann Arbor Science Publishing Co.; 1975. Google Scholar
4. Vesilind PA. Discussion of evaluation of activated sludge thickening theories. J San Eng Div Proc Amer Soc Civil Eng. 1968:94;SA1:185191. Google Scholar
2710 E. Zone Settling Rate Bibliography
Dick RI, Ewing RB. Evaluation of activated sludge thickening theories. J San Eng Div Proc Amer Soc Civil Eng. 1967;93(SA4):9. Google Scholar
Dick RI. Fundamental aspects of sedimentation I. Water Wastes Eng. 1969;6(2):4750. Google Scholar
Dick RI. Fundamental aspects of sedimentation II. Water Wastes Eng. 1969;6(3):4445. Google Scholar
Dick RI. Role of activated sludge final settling tanks. J San Eng Div, Proc Amer Soc Civil Eng. 1970;96(SA2):423. Google Scholar
2710 G. Capillary Suction Time Bibliography
Baskerville RC, Gale RS. A simple automatic instrument for determining the filterability of sewage sludges. J Inst Water Pollut Control. 1968;67:233241. Google Scholar
Kavanagh BV. The dewatering of activated sludge: measurements of specific resistance to filtration and capillary suction time. J Inst Water Pollut Control. 1980;79:388398. Google Scholar
Vesilind PA. Capillary suction time as a fundamental measure of sludge dewaterability. J Water Pollut Control Fed. 1988;60(2):215220. Google Scholar
Tiller FM, Shen YL, Adin A. Capillary suction theory for rectangular cells. Res J Water Pollut Control Fed. 1990;62(2):130136. Google Scholar
2710 H. Time to Filter Bibliography
Knocke WR, Wakeland DL. Fundamental characteristics of water treatment plant sludges. J Amer Water Works Assoc. 1983;75(10):516523. Google Scholar
Dentel SK, Bober TA, Shetty PV, Resta JR. Procedures manual for selection of coagulant, filtration, and sludge conditioning aids in water treatment; Pub. 90515. Denver (CO): American Water Works Association, 1986. Google Scholar
2710 I. Modified Settled Sludge Volume References
1. White MJD. Design and control of secondary settlement tanks. Water Pollut Control. 1976;75:459467. Google Scholar
2. Wahlberg EJ, Keinath TM. Development of settling flux curves using SVI. J Water Pollut Control Fed. 1988;60(12):20952100. Google Scholar

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Standard Methods Committee of the American Public Health Association, American Water Works Association, and Water Environment Federation. 2710 tests on sludges In: Standard Methods For the Examination of Water and Wastewater. Lipps WC, Baxter TE, Braun-Howland E, editors. Washington DC: APHA Press.

DOI: 10.2105/SMWW.2882.035

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