Characteristics of the disinfection by-products (DBPs) and process control techniques of the disinfection process using preozonation and post-chlorination

C. N. Chang; C. F. Hsu; A. C. Chao; Jih-Gaw Lin

Characteristics of the disinfection by-products (DBPs) and process control techniques of the disinfection process using preozonation and post-chlorination

C. N. Chang^*, C. F. Hsu, A. C. Chao, Jih-Gaw Lin

^*Corresponding author for this work

Institute of Environmental Engineering

Research output: Contribution to journal › Conference article › peer-review

1 Scopus citations

Abstract

The pre-ozonation process oxidizes humic acids into simple formic acid thus reduces the formation potentials of THMs and HAAs during the subsequent chlorination process. Laboratory results indicate that with addition of 24.3 mg/l ozone to the sample in a 5-liter closed constant-temperature batch reactor, the ORP value increases from an initial 210 mv to 909 mv for a reaction time of 50 minutes. Meanwhile, reduction of TTHMFP (Total Trihalomethane Formaton Potential) and HAAFP (Haloacetic Acid Formation Potential) reach 80% and 60%, respectively. If the sample is spiked with Bromide ion (Br ^- ) and the reaction is carried out under similar conditions, the TTHMFP is much higher than that in the absence of Br ^- . In contrast, the HAAFP in the presence of Br ^- is only 69% of that in the sample without Br ^- . In order to reduce the HAAFP and TTHMFP to acceptable limits, the reaction should be allow to proceed until its ORP reaches 900 mv. When the ORP value exceeds 900 mv, the resulting THMs and HAAs in the sample after the subsequent chlorination process can be reduced to 0.1 mg/l and 0.06 mg/l, respectively.

Original language	English
Pages (from-to)	95-100
Number of pages	6
Journal	Water Supply
Volume	13
Issue number	3-4
State	Published - 15 May 1995
Event	Proceedings of the IWSA International Specialized Conference on Advanced Treatment and Integrated Water System Management into 21st Century - Osaka, Jpn Duration: 15 May 1995 → 17 May 1995

Keywords

Control of pre-ozonation
Formation of HAAs
Formation of THMs
Humic acids
ORP
Oxidizing
Pre-ozonation

Cite this

@article{3570839f76e14e3881f912edf5fa1bc8,

title = "Characteristics of the disinfection by-products (DBPs) and process control techniques of the disinfection process using preozonation and post-chlorination",

abstract = " The pre-ozonation process oxidizes humic acids into simple formic acid thus reduces the formation potentials of THMs and HAAs during the subsequent chlorination process. Laboratory results indicate that with addition of 24.3 mg/l ozone to the sample in a 5-liter closed constant-temperature batch reactor, the ORP value increases from an initial 210 mv to 909 mv for a reaction time of 50 minutes. Meanwhile, reduction of TTHMFP (Total Trihalomethane Formaton Potential) and HAAFP (Haloacetic Acid Formation Potential) reach 80% and 60%, respectively. If the sample is spiked with Bromide ion (Br - ) and the reaction is carried out under similar conditions, the TTHMFP is much higher than that in the absence of Br - . In contrast, the HAAFP in the presence of Br - is only 69% of that in the sample without Br - . In order to reduce the HAAFP and TTHMFP to acceptable limits, the reaction should be allow to proceed until its ORP reaches 900 mv. When the ORP value exceeds 900 mv, the resulting THMs and HAAs in the sample after the subsequent chlorination process can be reduced to 0.1 mg/l and 0.06 mg/l, respectively. ",

keywords = "Control of pre-ozonation, Formation of HAAs, Formation of THMs, Humic acids, ORP, Oxidizing, Pre-ozonation",

author = "Chang, {C. N.} and Hsu, {C. F.} and Chao, {A. C.} and Jih-Gaw Lin",

year = "1995",

month = may,

day = "15",

language = "English",

volume = "13",

pages = "95--100",

journal = "Water Science and Technology: Water Supply",

issn = "1606-9749",

publisher = "IWA Publishing",

number = "3-4",

note = "Proceedings of the IWSA International Specialized Conference on Advanced Treatment and Integrated Water System Management into 21st Century ; Conference date: 15-05-1995 Through 17-05-1995",

}

TY - JOUR

T1 - Characteristics of the disinfection by-products (DBPs) and process control techniques of the disinfection process using preozonation and post-chlorination

AU - Chang, C. N.

AU - Hsu, C. F.

AU - Chao, A. C.

AU - Lin, Jih-Gaw

PY - 1995/5/15

Y1 - 1995/5/15

N2 - The pre-ozonation process oxidizes humic acids into simple formic acid thus reduces the formation potentials of THMs and HAAs during the subsequent chlorination process. Laboratory results indicate that with addition of 24.3 mg/l ozone to the sample in a 5-liter closed constant-temperature batch reactor, the ORP value increases from an initial 210 mv to 909 mv for a reaction time of 50 minutes. Meanwhile, reduction of TTHMFP (Total Trihalomethane Formaton Potential) and HAAFP (Haloacetic Acid Formation Potential) reach 80% and 60%, respectively. If the sample is spiked with Bromide ion (Br - ) and the reaction is carried out under similar conditions, the TTHMFP is much higher than that in the absence of Br - . In contrast, the HAAFP in the presence of Br - is only 69% of that in the sample without Br - . In order to reduce the HAAFP and TTHMFP to acceptable limits, the reaction should be allow to proceed until its ORP reaches 900 mv. When the ORP value exceeds 900 mv, the resulting THMs and HAAs in the sample after the subsequent chlorination process can be reduced to 0.1 mg/l and 0.06 mg/l, respectively.

AB - The pre-ozonation process oxidizes humic acids into simple formic acid thus reduces the formation potentials of THMs and HAAs during the subsequent chlorination process. Laboratory results indicate that with addition of 24.3 mg/l ozone to the sample in a 5-liter closed constant-temperature batch reactor, the ORP value increases from an initial 210 mv to 909 mv for a reaction time of 50 minutes. Meanwhile, reduction of TTHMFP (Total Trihalomethane Formaton Potential) and HAAFP (Haloacetic Acid Formation Potential) reach 80% and 60%, respectively. If the sample is spiked with Bromide ion (Br - ) and the reaction is carried out under similar conditions, the TTHMFP is much higher than that in the absence of Br - . In contrast, the HAAFP in the presence of Br - is only 69% of that in the sample without Br - . In order to reduce the HAAFP and TTHMFP to acceptable limits, the reaction should be allow to proceed until its ORP reaches 900 mv. When the ORP value exceeds 900 mv, the resulting THMs and HAAs in the sample after the subsequent chlorination process can be reduced to 0.1 mg/l and 0.06 mg/l, respectively.

KW - Control of pre-ozonation

KW - Formation of HAAs

KW - Formation of THMs

KW - Humic acids

KW - ORP

KW - Oxidizing

KW - Pre-ozonation

UR - http://www.scopus.com/inward/record.url?scp=0028882167&partnerID=8YFLogxK

M3 - Conference article

AN - SCOPUS:0028882167

SN - 1606-9749

VL - 13

SP - 95

EP - 100

JO - Water Science and Technology: Water Supply

JF - Water Science and Technology: Water Supply

IS - 3-4

T2 - Proceedings of the IWSA International Specialized Conference on Advanced Treatment and Integrated Water System Management into 21st Century

Y2 - 15 May 1995 through 17 May 1995

ER -

Characteristics of the disinfection by-products (DBPs) and process control techniques of the disinfection process using preozonation and post-chlorination

Abstract

Keywords

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