Assessing Biofiltration Without Ozonation for Removal of Trihalomethane Precursors in Drinking Water at the Beaver Water District Drinking Water Treatment Plant PDF Download
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Author: Sana Ajaz
Publisher:
ISBN:
Category : Drinking water
Languages : en
Pages : 92
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Author: Sana Ajaz
Publisher:
ISBN:
Category : Drinking water
Languages : en
Pages : 92
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Author: James M. Symons
Publisher:
ISBN:
Category : Drinking water
Languages : en
Pages : 308
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Author: United States. Environmental Protection Agency. Office of Drinking Water
Publisher:
ISBN:
Category : Drinking water
Languages : en
Pages : 168
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Author: Mehrnaz Mirzaei Barzi
Publisher:
ISBN: 9780494437469
Category :
Languages : en
Pages : 210
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Over the past century chlorine has been a reliable disinfectant to reduce transmission of waterborne diseases in drinking water. Concerns about chlorination have increased since it was discovered in the 1970s that use of chlorine in drinking water produces trihalomethanes (THMs), when chlorine reacts with natural organic matter (NOM), which has been observed in increased levels in surface water during the past decades. THM and other disinfection by-products (DBPs) such as some of the haloacetic acids (HAAs) and some nitrosamines are considered probable human carcinogens by USEPA. Since DBPs are still formed even when using alternative disinfectants such as chloramines, treatment processes by which disinfection by-product precursors are removed continue to be studied. Many researchers have demonstrated that the use of pre-ozonation/biological processes in the production of drinking water has the potential to decrease levels of disinfection by-products in finished water more than conventional treatment alone. Two of the parameters which affect the efficiency of DBP precursor removal in biofilters are filter media and filter flow rate. In this research, the biofiltration process was examined using pilot-scale filters receiving ozonated water to determine the relative effectiveness of these parameters for influencing the removal of natural organic matter. The research presented in this thesis initially focuses on determining the effects of flow rate and filter media including GAC (granular activated carbon) and anthracite on decreasing the levels of THM, HAA and nitrosamine precursors in biologically active filters. In the second part, the performances of full-scale and pilot-scale filters at the Mannheim Water Treatment Plant were compared. THM and HAA precursor removal was found to decrease when loading rates were increased, likely due to associated shorter contact times in the filters. Also, higher THM and HAA precursor removal was always observed in the GAC filters than in the anthracite filters. However, removal of nitrosamines was not affected by flow rate or the type of filter media. In general, the pilot-scale filter performance was representative of full-scale filter performance, especially in regards to THM precursor and chlorine demand removal. Statistical evaluation and interpretation of the data for HAA and NDMA precursor removal was more difficult, likely due to the low concentrations of these DBPs which was near their method detection limits (MDLs) and also because of some operational problems with pilot filter #1. Despite these limitations, the results of this study add to the literature concerning the use of different types of media to support biofiltration and reduce DBP precursor concentrations during drinking water treatment.
Author: American Water Works Association
Publisher:
ISBN:
Category : Technology & Engineering
Languages : en
Pages : 314
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Author:
Publisher:
ISBN:
Category : Drinking water
Languages : en
Pages : 60
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Author: Gerald E. Speitel
Publisher: American Water Works Association
ISBN: 0898679737
Category : Drinking water
Languages : en
Pages : 172
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Author: Amina K. Stoddart
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Natural organic matter (NOM) is a complex mixture of organic material ubiquitous in natural waters. NOM can affect nearly all aspects of drinking water treatment. It can exert a demand on treatment chemicals, promote regrowth in distribution systems and can form genotoxic and/or carcinogenic disinfection by-products (DBPs) when exposed to disinfectant. Biofiltration is one treatment strategy that has potential to provide additional removal of NOM following coagulation. In biofiltration, bacteria indigenous to the source water form biofilms on filter media and use organic material as an energy source. This type of biological treatment within a filter has advantages over filtration with relatively biologically inert granular media because of its potential to provide additional NOM removal through biodegradation. This thesis investigated conversion of full-scale anthracite-sand drinking water filters to biofilters through the removal of prechlorination. Results showed that filters operated in direct filtration mode could be converted in this way to reduce DBP formation in the plant effluent and distribution system without compromising water quality or filter performance. Biomass monitoring using adenosine triphosphate (ATP) showed that filter media biomass increased as a result of conversion. Further interpretation of the biomass data with a growth model demonstrated that consistency in biomass sampling within the context of the operational state of the filter or following significant process changes was critical information for long-term performance assessment. A concurrent pilot-scale investigation tested nutrient, oxidant and filter media enhancement strategies with the goal of improving NOM removal and further reducing DBP formation. Results showed that nutrient and oxidant addition could increase the filter biomass and alter the microbial community, but would not improve NOM removal or further reduce DBP formation potential. Ultimately, despite reductions in DBP formation and increases in biofilter biomass, NOM removal across the biofilters remained unchanged with conversion and enhancements, posing a challenge for process monitoring. A novel method to measure oxygen demand was optimized for use in a drinking water matrix and used to evaluate NOM removal and transformation in the biofilters.
Author: James K. Edzwald
Publisher:
ISBN:
Category : Water
Languages : en
Pages : 67
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Author:
Publisher:
ISBN:
Category : Bromate
Languages : en
Pages : 74
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