Combined Ozonation-Nanofiltration for Drinking Water Treatment B. S

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Combined Ozonation-Nanofiltration for Drinking Water Treatment B. S Combined Ozonation-Nanofiltration for Drinking Water Treatment B.S. Karnik1, K.C. Chen1, D.R. Jaglowski2, S.H. Davies 1,3, M.J. Baumann2, S.J. Masten1 1 Civil & Environmental Engineering 2 Chemical Engineering & Materials Science 3 Biosystems & Agricultural Engineering Michigan State University

Chlorination Disinfection Byproducts (DBPs) Disinfection byproducts are formed by the reaction of chlorine with natural organic matter. The compounds formed include trihalomethanes (THMs; e.g., chloroform, chlorodibromomethane, bromoform) haloacetic acid (HAAs) (e.g., dichloroacetic acid) chloropicrin and dichloroacetonitrile

Technologies for the reduction of DBP formation Enhanced coagulation Granular activated carbon Membrane filtration Alternate disinfectants Chlorine dioxide Chloramines UV radiation Ozone

Ozone Ozonation decreases the formation of chlorinated DBPs Leads to the formation of other DBPs, including ketones, aldehydes, bromate biodegradable organic carbon (BDOC) In high TOC waters, ozonation is expensive leads to excessive DBP formation

Membrane filtration Nanofiltration can remove >90% of natural organic matter (NOM) Extent of removal depends upon operational conditions, including molecular weight cutoff and water quality Problems low permeate flux fouling cleaning of membranes

Combined Ozonation /Nanofiltration Aim is to combine both processes to reduce problems associated with the use of the processes individually Ceramic membranes resistant to degradation by ozone less subject to NOM fouling than many polymeric membranes costly compared to polymeric membranes

Experimental apparatus

Experimental details Membrane TiO2 filtration layer on an AZT (Aluminum/Zirconium/Titanium Oxide) support MWCOs 1 kD, 5 kD and 15 kD pore size ca. 1 nm, 3 nm and 10 nm Experimental conditions Cross flow filtration – cross flow velocity 1.5 m/s Ozone: 1.0 to 12.5 g/m3 @ 100 ml/min Trans-membrane pressure – 0.21-0.23 bar Temperature – 20oC All samples pre-filtered through a 0.45 µm filter

Water source borderline eutrophic algal blooms occur in Summer Lake Lansing (Haslett, MI) borderline eutrophic algal blooms occur in Summer hardness - 150 mg/L as CaCO3 high dissolved organic carbon – 8 to 11 mg/L Potential for membrane fouling is high

Effect of ozone dosage on permeate flux

Refouling after ozonation Ozone 12.5 g/m3 Mention that work in the literature has shown TiO2 is a catalyst for the degradation of NOM and other organic compounds in the presence of ozone

TTHM precursor removal Effect of MWCO 15 kD does not meet DBPR Filtered raw water – 236  4 g/L O3 - 2.5 g/m3

HAA precursor removal: Effect of MWCO All meet DBPR Filtered raw water – 89  5 g/L O3 - 2.5 g/m3

Effect of ozone dosage on DBP precursor removal 15 kD MWCO This slide shows ozone dosage has little effect on THM or HAA precursor removal. Not too surprising considering the low ozone dosage

Ozone DBP removal O3 - 2.5 g/m3

Summary – Fouling Studies Ozonation at low dosages reduces fouling; if ozone dosage is high enough no fouling occurs The reaction of ozone with foulants appears to be enhanced at the membrane surface, presumably due the catalytic degradation of ozone by TiO2

Summary – DBP studies The combined process yields better results than for ozone alone Lower DBP concentrations are obtained with tighter membranes In the range studied, ozone dosage has little effect on THM or HAA precursor removal 1 kD MWCO membrane gives good removal for all the DBPs studied; 5 kD gives good removal of chlorinated DBPs Is third bullet also true for pH ???