Description: Never used Influence of Distribution System Infrastructure on Bacterial Regrowth This study has shown that higher levels of carbon supported greater biofilm growth and planktonic populations on the materials that were tested, although the effect was most pronounced on iron pipe. Utilities with significant amounts of iron pipe in their distribution systems may be faced with the greatest regrowth potential. For utilities that also distribute water that is high in natural carbon, this problem may be compounded. Therefore, reducing the organic carbon in the finished water may be effective for any utility wishing to reduce regrowth problems in their distribution system. Other alternatives for utilities wishing to reduce biofilms in the distribution system can include any or all of the following: replacing or relining iron pipe in the system, increasing disinfectant, and implementing effective corrosion control.
Price: 343 USD
Location: Lakeland, Florida
End Time: 2024-11-15T11:28:32.000Z
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Item Specifics
Restocking Fee: No
Return shipping will be paid by: Buyer
All returns accepted: Returns Accepted
Item must be returned within: 14 Days
Refund will be given as: Money Back
Book Condition: Very Good with No dust jacket as issued
Pages: 340
Cover: Trade Size Paperback
Book Title: Distribution Generated Taste-And-Odor Phenomena
Place Published: Denver
Item Length: 9.2 in
Item Height: 0.7 in
Item Width: 6.1 in
Author: Jonathan Clement, Anne Sandvig, Anne Camper, Kristin Van Andel, Catherine Spencer
Publication Name: Influence of Distribution System Infrastructure on Bacterial Regrowth
Format: Trade Paperback
Language: English
Subject: Environmental / Water Supply, Environmental Science (See Also Chemistry / Environmental), Life Sciences / Microbiology, Construction / Plumbing, Applied Sciences, Environmental / General, Life Sciences / Bacteriology
Publisher: Iwa Publishing
Publication Year: 2004
Series: Water Research Foundation Report Ser.
Type: Textbook
Subject Area: Technology & Engineering, Science
Item Weight: 12.1 Oz
Number of Pages: 142 Pages
