Effectiveness against Bacteria, Fungi and Algae
Biocide effectiveness against bacteria, fungi and algae:
Oxidizing Biocides
Chlorine (Cl2)
- bacteria - excellent
- fungi - good
- algae - good
Usable pH-range 5 to 8.
Chlorine is a powerful oxidant and is used in bleaching and
disinfectants, as well as an essential reagent in the chemical industry. As a
common disinfectant, chlorine compounds are used in swimming pools to keep them
clean and sanitary.
Chlorine Dioxide (ClO2)
- bacteria - excellent
- fungi - good
- algae - good
Insensitive to pH.
As one of several oxides of chlorine - it is a potent and
useful oxidizing agent used in water treatment and in bleaching.
Bromine
- bacteria - excellent
- fungi - good
- algae - poor
Usable pH-range 5 to 10.
Bromine, like chlorine, is used in maintenance of swimming
pools. It is also used in water purification compounds, disinfectants and
insecticides.
Ozone
- bacteria - excellent
- fungi - good
- algae - good
Usable pH-range 7 to 9.
Ozone is used to disinfect laundry in hospitals, food
factories, care homes etc, to disinfect water in place of chlorine, deodorize
air and objects, to kill bacteria on food or on contact surfaces, to sanitize
swimming pools and spas, to kill insects ...
Non-Oxidizing
Biocides
Carbamate
·
bacteria - excellent
·
fungi - poor
·
algae - poor
Usable pH-range 5 to 9.
Used in insecticides.
Organobromide (DBNPA)
- bacteria - excellent
- fungi - poor
- algae - poor
Usable pH-range 6 to 8.5.
Methylene
bis(thiocyanate) (MBT)
- bacteria - excellent
- fungi - poor
- algae - poor
Decomposes above pH 8.
Methylene bis(thiocyanate) is used as a
microbiocide/microbiostat, fungicide/fungistat, algicide, and disinfectant.
Isothiazoline
- bacteria - excellent
- fungi - good
- algae - good
Insensitive to pH.
Triazine
- bacteria - no control
- fungi - no control
- algae - excellent
Usable pH-range 6 to 9.
Triazine compounds are often used as the basis
for various herbicides
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