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Title: Evaluation of empirical process design relationships for ozone disinfection of water and wastewater

Journal Article · · Ozone: Science and Engineering (The Journal of the International Ozone Association); (United States)
;  [1]
  1. Univ. of Alberta, Edmonton (Canada)
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A research program was undertaken to examine the dose-response of Escherichia coli ATCC 11775 in ozone demand-free phosphate buffer solution and in a high quality secondary wastewater effluent with a total organic carbon content of 8 mg/L and a chemical oxygen demand of 26 mg/L. The studies were conducted in bench-scale batch reactors for both water types. In addition, studies using secondary effluent also were conducted in a pilot-scale, semi-batch reactor to evaluate scale-up effects. It was found that the ozone dose was the most important design parameter in both types of water. Contact time was of some importance in the ozone demand-free water and had no detectable effect in the secondary effluent. Pilot-scale data confirmed the results obtained at bench-scale for the secondary effluent. Regression analysis of the logarithm of the E. coli response on the logarithm of the utilized ozone dose revealed that there was lack-of-fit using the model form which has been used frequently for the design of wastewater disinfection systems. This occurred as a result of a marked tailing effect of the log-log plot as the ozone dose increased and the kill increased. It was postulated that this was caused by some unknown physiological differences within the E. coli population due to age or another factor.

OSTI ID:
5411816
Journal Information:
Ozone: Science and Engineering (The Journal of the International Ozone Association); (United States), Vol. 12:2; ISSN 0191-9512
Country of Publication:
United States
Language:
English

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Related Subjects

32 ENERGY CONSERVATION, CONSUMPTION, AND UTILIZATION
WASTE WATER
OZONIZATION
BACTERIA
BENCH-SCALE EXPERIMENTS
DISINFECTANTS
GROUND WATER
OZONE
PILOT PLANTS
WATER TREATMENT
WATER TREATMENT PLANTS
CHEMICAL REACTIONS
FUNCTIONAL MODELS
GERMICIDES
HYDROGEN COMPOUNDS
LIQUID WASTES
MICROORGANISMS
OXYGEN COMPOUNDS
WASTES
WATER
320305* - Energy Conservation
Consumption
& Utilization- Industrial & Agricultural Processes- Industrial Waste Management
320604 - Energy Conservation
Consumption
& Utilization- Municipalities & Community Systems- Municipal Waste Management- (1980-)
320603 - Energy Conservation
Consumption
& Utilization- Municipalities & Community Systems- Public Utilities- (1980-)