CT Values are an important part of calculating

disinfectant A disinfectant is a chemical substance or compound used to inactivate or destroy microorganisms on inert surfaces. Disinfection does not necessarily kill all microorganisms, especially resistant bacterial spores; it is less effective than s ...

dosage for the chlorination of

drinking water Drinking water is water that is used in drink or food preparation; potable water is water that is safe to be used as drinking water. The amount of drinking water required to maintain good health varies, and depends on physical activity level, ...

. A CT value is the product of the concentration of a disinfectant (e.g. free chlorine) and the contact time with the water being disinfected. It is typically expressed in units of mg-min/L. The goal of disinfection is the inactivation of microorganisms. This depends on: the microorganism, the disinfectant being used, the concentration of the disinfectant, the contact time, and the temperature and pH of the water.

Kinetics

The disinfection kinetics are conventionally calculated via the Chick-Watson model, named for the work of Harriette Chick and H. E. Watson. This model is expressed by the following equation: :

\ln(\frac)=\Lambda_ C^n t \!

Where: *

(\frac) \!

is the survival ratio for the microorganisms being killed *

\Lambda_ \!

is the Chick-Watson coefficient of specific lethality *

C \!

is the concentration of the disinfectant (typically in mg/L) *

n \!

is the coefficient of dilution, frequently assumed to be 1 *

t \!

is the contact time (typically in minutes or seconds) The survival ratio is commonly expressed as an inactivation ratio (in %) or as the number of reductions in the order of magnitude of the microorganism concentration. For example, a situation where N₀=10⁷ CFU/L and N=10⁴ CFU/L would be reported as a 99.9% inactivation or "3-log₁₀" removal. In water treatment practice, tables of the product C×t are used to calculate disinfection dosages. The calculated CT value is the product of the disinfectant residual (in mg/L) and the detention time (in minutes), through the section at peak hourly flow. These tables express the required CT values to achieve a desired removal of microorganisms of interest in drinking water (e.g. ''

Giardia lamblia ''Giardia duodenalis'', also known as ''Giardia intestinalis'' and ''Giardia lamblia'', is a flagellated parasitic microorganism of the genus ''Giardia'' that colonizes the small intestine, causing a diarrheal condition known as giardiasis. The ...

'' cysts) for a given disinfectant under constant temperature and pH conditions. A portion of such a table is reproduced below.

Example CT Table

CT Values for the Inactivation of Giardia Cysts by Free Chlorine at 5 °C and pH ≈ 7.0: Full tables are much larger than this example and should be obtained from the regulatory agency for a particular jurisdiction.

References

External links

* {{cite book, last=Earth Tech, Inc., title=Chlorine and Alternative Disinfectants Guidance Manual, year=2005, publisher=Manitoba Water Stewardship, location=Manitoba, url=https://www.gov.mb.ca/waterstewardship/odw/reg-info/approvals/odw_chlorine_and_alternative_disinfectants.pdf Water treatment Chlorine

Kinetics

Example CT Table

See also

References

External links