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Innovative UV Technologies to Oxidize Organic and Organoleptic Chemicals - K. G. Linden#C. M. Sharpless#S. A. Andrews
book is out-of-stock
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K. G. Linden#C. M. Sharpless#S. A. Andrews:
Innovative UV Technologies to Oxidize Organic and Organoleptic Chemicals - new book

6, ISBN: 9781843399193

ID: 691580668

Recent regulations are now requiring lower chlorinated disinfection by-products (DBPs) and inactivation of chlorine resistant pathogens such as Cryptosporidium parvum. Ultraviolet light is now considered a compliance technology for primary disinfection of surface waters in the Stage 2 Rules. One area of research for application of UV to disinfection of surface waters is the potential oxidative impacts of UV, especially high irradiance polychromatic UV sources, on organic and organoleptic compounds present in source waters. UV technologies, alone and as advanced oxidation processes (AOPs), may either oxidize organic compounds found in some source waters such as pesticides, herbicides, volatile organic compounds (VOC), and taste-and-odor compounds, and/or produce DBPs. This information is needed to allow utilities to make informed decisions on how best to apply UV technology for potable water. The objectives to this project were to (1) evaluate the efficacy of three different UV technologies for treatment of organic contaminants in waters of varying quality; (2) evaluate the UV technologies with additions of hydrogen peroxide (H2O2) to promote advanced oxidation (AOP) for treatment of the contaminants; (3) determine the extent of disinfection by-product (DBP) formation including aldehydes, carboxylic acids, and post-chlorination DBPs, following UV treatment; and (4) pilot test two UV technologies alone and under AOP conditions at two utility field sites for contaminant treatment to develop operational experience and preliminary cost and design data. Chemical Bücher > Fremdsprachige Bücher > Englische Bücher Taschenbuch 06.2005, Awwarf, 06.2005

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Innovative UV Technologies to Oxidize Organic and Organoleptic Chemicals - K. G. Linden#C. M. Sharpless#S. A. Andrews
book is out-of-stock
(*)
K. G. Linden#C. M. Sharpless#S. A. Andrews:
Innovative UV Technologies to Oxidize Organic and Organoleptic Chemicals - new book

2005, ISBN: 9781843399193

ID: 691580668

Recent regulations are now requiring lower chlorinated disinfection by-products (DBPs) and inactivation of chlorine resistant pathogens such as Cryptosporidium parvum. Ultraviolet light is now considered a compliance technology for primary disinfection of surface waters in the Stage 2 Rules. One area of research for application of UV to disinfection of surface waters is the potential oxidative impacts of UV, especially high irradiance polychromatic UV sources, on organic and organoleptic compounds present in source waters. UV technologies, alone and as advanced oxidation processes (AOPs), may either oxidize organic compounds found in some source waters such as pesticides, herbicides, volatile organic compounds (VOC), and taste-and-odor compounds, and/or produce DBPs. This information is needed to allow utilities to make informed decisions on how best to apply UV technology for potable water. The objectives to this project were to (1) evaluate the efficacy of three different UV technologies for treatment of organic contaminants in waters of varying quality; (2) evaluate the UV technologies with additions of hydrogen peroxide (H2O2) to promote advanced oxidation (AOP) for treatment of the contaminants; (3) determine the extent of disinfection by-product (DBP) formation including aldehydes, carboxylic acids, and post-chlorination DBPs, following UV treatment; and (4) pilot test two UV technologies alone and under AOP conditions at two utility field sites for contaminant treatment to develop operational experience and preliminary cost and design data. Chemical Bücher > Fremdsprachige Bücher > Englische Bücher Taschenbuch 01.06.2005, Awwarf, .200

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Innovative UV Technologies to Oxidize Organic and Organoleptic Chemicals - Susan A. Andrews#Charles M. Sharpless#Karl G. Linden
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Susan A. Andrews#Charles M. Sharpless#Karl G. Linden:
Innovative UV Technologies to Oxidize Organic and Organoleptic Chemicals - new book

ISBN: 9781843399193

ID: 1dc04a41a33c0652f99c750ef5236a99

Chemical Recent regulations are now requiring lower chlorinated disinfection by-products (DBPs) and inactivation of chlorine resistant pathogens such as Cryptosporidium parvum. Ultraviolet light is now considered a compliance technology for primary disinfection of surface waters in the Stage 2 Rules. One area of research for application of UV to disinfection of surface waters is the potential oxidative impacts of UV, especially high irradiance polychromatic UV sources, on organic and organoleptic compounds present in source waters. UV technologies, alone and as advanced oxidation processes (AOPs), may either oxidize organic compounds found in some source waters such as pesticides, herbicides, volatile organic compounds (VOC), and taste-and-odor compounds, and/or produce DBPs. This information is needed to allow utilities to make informed decisions on how best to apply UV technology for potable water. The objectives to this project were to (1) evaluate the efficacy of three different UV technologies for treatment of organic contaminants in waters of varying quality; (2) evaluate the UV technologies with additions of hydrogen peroxide (H2O2) to promote advanced oxidation (AOP) for treatment of the contaminants; (3) determine the extent of disinfection by-product (DBP) formation including aldehydes, carboxylic acids, and post-chlorination DBPs, following UV treatment; and (4) pilot test two UV technologies alone and under AOP conditions at two utility field sites for contaminant treatment to develop operational experience and preliminary cost and design data. Bücher / Fremdsprachige Bücher / Englische Bücher 978-1-84339-919-3, Awwarf

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Innovative UV Technologies to Oxidize Organic and Organoleptic Chemicals - Susan A. Andrews#Charles M. Sharpless#Karl G. Linden
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Susan A. Andrews#Charles M. Sharpless#Karl G. Linden:
Innovative UV Technologies to Oxidize Organic and Organoleptic Chemicals - new book

ISBN: 9781843399193

ID: 118402668

Recent regulations are now requiring lower chlorinated disinfection by-products (DBPs) and inactivation of chlorine resistant pathogens such as Cryptosporidium parvum. Ultraviolet light is now considered a compliance technology for primary disinfection of surface waters in the Stage 2 Rules. One area of research for application of UV to disinfection of surface waters is the potential oxidative impacts of UV, especially high irradiance polychromatic UV sources, on organic and organoleptic compounds present in source waters. UV technologies, alone and as advanced oxidation processes (AOPs), may either oxidize organic compounds found in some source waters such as pesticides, herbicides, volatile organic compounds (VOC), and taste-and-odor compounds, and/or produce DBPs. This information is needed to allow utilities to make informed decisions on how best to apply UV technology for potable water. The objectives to this project were to (1) evaluate the efficacy of three different UV technologies for treatment of organic contaminants in waters of varying quality; (2) evaluate the UV technologies with additions of hydrogen peroxide (H2O2) to promote advanced oxidation (AOP) for treatment of the contaminants; (3) determine the extent of disinfection by-product (DBP) formation including aldehydes, carboxylic acids, and post-chlorination DBPs, following UV treatment; and (4) pilot test two UV technologies alone and under AOP conditions at two utility field sites for contaminant treatment to develop operational experience and preliminary cost and design data. Chemical Buch (fremdspr.) Bücher>Fremdsprachige Bücher>Englische Bücher, Awwarf

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Innovative UV Technologies to Oxidize Organic and Organoleptic Chemicals - K. G. Linden#C. M. Sharpless#S. A. Andrews
book is out-of-stock
(*)
K. G. Linden#C. M. Sharpless#S. A. Andrews:
Innovative UV Technologies to Oxidize Organic and Organoleptic Chemicals - new book

ISBN: 9781843399193

ID: 241125458

Recent regulations are now requiring lower chlorinated disinfection by-products (DBPs) and inactivation of chlorine resistant pathogens such as Cryptosporidium parvum. Ultraviolet light is now considered a compliance technology for primary disinfection of surface waters in the Stage 2 Rules. One area of research for application of UV to disinfection of surface waters is the potential oxidative impacts of UV, especially high irradiance polychromatic UV sources, on organic and organoleptic compounds present in source waters. UV technologies, alone and as advanced oxidation processes (AOPs), may either oxidize organic compounds found in some source waters such as pesticides, herbicides, volatile organic compounds (VOC), and taste-and-odor compounds, and/or produce DBPs. This information is needed to allow utilities to make informed decisions on how best to apply UV technology for potable water. The objectives to this project were to (1) evaluate the efficacy of three different UV technologies for treatment of organic contaminants in waters of varying quality; (2) evaluate the UV technologies with additions of hydrogen peroxide (H2O2) to promote advanced oxidation (AOP) for treatment of the contaminants; (3) determine the extent of disinfection by-product (DBP) formation including aldehydes, carboxylic acids, and post-chlorination DBPs, following UV treatment; and (4) pilot test two UV technologies alone and under AOP conditions at two utility field sites for contaminant treatment to develop operational experience and preliminary cost and design data. Chemical Buch (fremdspr.) Bücher>Fremdsprachige Bücher>Englische Bücher, Awwarf

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Details of the book
Innovative UV Technologies to Oxidize Organic and Organoleptic Chemicals
Author:

Linden, K. G.; Sharpless, C. M.; Andrews, S. A.

Title:

Innovative UV Technologies to Oxidize Organic and Organoleptic Chemicals

ISBN:

Recent regulations are now requiring lower chlorinated disinfection by-products (DBPs) and inactivation of chlorine resistant pathogens such as Cryptosporidium parvum. Ultraviolet light is now considered a compliance technology for primary disinfection of surface waters in the Stage 2 Rules. One area of research for application of UV to disinfection of surface waters is the potential oxidative impacts of UV, especially high irradiance polychromatic UV sources, on organic and organoleptic compounds present in source waters. UV technologies, alone and as advanced oxidation processes (AOPs), may either oxidize organic compounds found in some source waters such as pesticides, herbicides, volatile organic compounds (VOC), and taste-and-odor compounds, and/or produce DBPs. This information is needed to allow utilities to make informed decisions on how best to apply UV technology for potable water. The objectives to this project were to (1) evaluate the efficacy of three different UV technologies for treatment of organic contaminants in waters of varying quality; (2) evaluate the UV technologies with additions of hydrogen peroxide (H2O2) to promote advanced oxidation (AOP) for treatment of the contaminants; (3) determine the extent of disinfection by-product (DBP) formation including aldehydes, carboxylic acids, and post-chlorination DBPs, following UV treatment; and (4) pilot test two UV technologies alone and under AOP conditions at two utility field sites for contaminant treatment to develop operational experience and preliminary cost and design data.

Details of the book - Innovative UV Technologies to Oxidize Organic and Organoleptic Chemicals


EAN (ISBN-13): 9781843399193
ISBN (ISBN-10): 1843399199
Paperback
Publishing year: 2005
Publisher: AWWARF
200 Pages
Weight: 0,463 kg
Language: eng/Englisch

Book in our database since 28.11.2007 16:45:22
Book found last time on 29.03.2017 02:44:17
ISBN/EAN: 1843399199

ISBN - alternate spelling:
1-84339-919-9, 978-1-84339-919-3


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