Power Plants.

Cooling towers with their combination of moisture, warmth, air and nutrients create an ideal environment for the growth of microorganisms. This biological activity results in a number of serious problems including:

  • Growth of slime and biofilm on heat transfer surfaces leading to reduced thermal efficiency
  • Increased corrosion rates as a result of the formation of electrochemical cells within the biofilm and microbiologically induced corrosion (MIC) due to the presence of anaerobic bacteria in the biofilm
  • Reduced efficiency of added corrosion inhibitors due to biofilm blocking contact of the corrosion inhibitors with the metal surface
  • Increased pumping energy to overcome the additional friction created by the presence of biofilm
  • Build up of objectionable odours
  • Potential for pathogenic microorganisms to be harboured in the circulating water (e.g. Legionella)

Control of Biological Activity

Conventional chlorine, bromine and non-oxidising biocides are satisfactory for maintaining low rates of bacterial counts in cooling water systems. However, these methods all have disadvantages and do not control biofilm. Chlorine dioxide overcomes all these problems. It is effective against algae, bacteria, bacterial spore, fungi, protozoa and viruses and is the only method of disinfection that is effective at controlling biofilm.

Chlorine dioxide remains effective over a wide pH range from about 4 to 10. It does not react with ammonia or organic matter in the water and at the recommended dose rates is not corrosive. Residual chlorine dioxide rapidly breaks down to harmless inorganic compounds making discharge water less toxic to the environment than conventional biocides.

Although chlorine and bromine are regarded as broad specturm biocides, they are relatively ineffective against algae and generally do not control biofi lm. In addition some pathogenic organisms (notably cryptosporidium) can develop resistance to chlorine. Non-oxidising biocides are not broad spectrum biocides and only control a narrow range of organisms depending on the biocide used. Chlorine diozide is a broad specturm biocide effectiveagainst all microorganisms.

In the UK, the Building Services Research and Information Association (BSRIA) has recommended chlorine dioxide as the best available technology for the control of Legionella in hot and cold water systems.

Control of Biofilm

CleanOxide 75 controls biofilm more effectively than chlorine, bromine or non-oxidising biocides even when dosed intermittently. The reason why CleanOxide 75 is so effective at controlling biofilm is because it is a solution of pure chlorine dioxide in water. Chlorine dioxide does not hydrolyse in water and does not react with the polysaccharides holding the biofilm together.

Consequently, it is able to diffuse deep into the biofilm layers destroying the microorganisms that are present. Chlorine can provide biofilm control in cooling systems if the system is relatively clean and continuous dosing is maintained. However, if biofilm is already present or continuous dosing is not rigorously maintained, continuous dosing will not control biofilm.

Chlorine is unable to penetrate biofilm once it is established and only affects the surface layers. Bromine is comparable with or slightly better than chlorine for control of biofilm unless the bacterial nutrient loading is high. In the latter case, bromine is a poor choice for biofilm control. Non-oxidising biocides are generally less effective at controlling biofilm than either chlorine or bromine.

Control of Algae

CleanOxide 75 controls algae more effectively than chlorine, bromine or non-oxidising biocides even when dosed intermittently. If conditions for the growth of algae are present, chlorine is only effective if it is dosed continuously. Even in otherwise clean cooling systems, chlorine often fails to control algae. Bromine is generally less effective than chlorine at controlling algae. Some non-oxidising biocides control algae more effectively than chlorine and bromine, others are ineffective.

Benefits of CleanOxide Chlorine Dioxide

  • Non-corrosive with steel, metal, aluminium, plastic & fibreglass at the recommended dose rates.
  • Removes biofilm slime from water tanks and pipes at shock dosing rates.
  • Oxidises iron & manganese.
  • 100% bio-degradable
  • Sustainable, environmentally friendly
  • Safe for our oceans and natural water ways, leaves no harmful residues in water after 72 hours of treatment.
  • Broad spectrum disinfectant effective against bacteria, bacterial spores, fungi, protozoa, viruses, biofilm & algae.
  • Effective over a broad pH range of 4 to 10.
  • 10 times more powerful than chlorine.
  • Effective at lower dose rates than chlorine & hydrogen peroxide.
  • Does not contain free chlorine.
  • Does not react with ammonia & does not produce toxic compounds in contact with organic materials present in water.
  • Effective against biofilm because it exists in solution as a dissolved gas. The dissolved gas is able to diffuse into the biofilm where it can destroy the micro-organisms responsible for the biofilm.
  • Micro-organisms do not develop resistance to CleanOxide.
  • Safe for consumption and approved for use in Australia and around the world.

Power Plants.

Cooling towers with their combination of moisture, warmth, air and nutrients create an ideal environment for the growth of microorganisms. This biological activity results in a number of serious problems including:

  • Growth of slime and biofilm on heat transfer surfaces leading to reduced thermal efficiency
  • Increased corrosion rates as a result of the formation of electrochemical cells within the biofilm and microbiologically induced corrosion (MIC) due to the presence of anaerobic bacteria in the biofilm
  • Reduced efficiency of added corrosion inhibitors due to biofilm blocking contact of the corrosion inhibitors with the metal surface
  • Increased pumping energy to overcome the additional friction created by the presence of biofilm
  • Build up of objectionable odours
  • Potential for pathogenic microorganisms to be harboured in the circulating water (e.g. Legionella)
Conventional chlorine, bromine and non-oxidising biocides are satisfactory for maintaining low rates of bacterial counts in cooling water systems. However, these methods all have disadvantages and do not control biofilm. Chlorine dioxide overcomes all these problems. It is effective against algae, bacteria, bacterial spore, fungi, protozoa and viruses and is the only method of disinfection that is effective at controlling biofilm.

Chlorine dioxide remains effective over a wide pH range from about 4 to 10. It does not react with ammonia or organic matter in the water and at the recommended dose rates is not corrosive. Residual chlorine dioxide rapidly breaks down to harmless inorganic compounds making discharge water less toxic to the environment than conventional biocides.

Although chlorine and bromine are regarded as broad specturm biocides, they are relatively ineffective against algae and generally do not control biofi lm. In addition some pathogenic organisms (notably cryptosporidium) can develop resistance to chlorine. Non-oxidising biocides are not broad spectrum biocides and only control a narrow range of organisms depending on the biocide used. Chlorine diozide is a broad specturm biocide effectiveagainst all microorganisms.

In the UK, the Building Services Research and Information Association (BSRIA) has recommended chlorine dioxide as the best available technology for the control of Legionella in hot and cold water systems.

CleanOxide 75 controls biofilm more effectively than chlorine, bromine or non-oxidising biocides even when dosed intermittently. The reason why CleanOxide 75 is so effective at controlling biofilm is because it is a solution of pure chlorine dioxide in water. Chlorine dioxide does not hydrolyse in water and does not react with the polysaccharides holding the biofilm together.

Consequently, it is able to diffuse deep into the biofilm layers destroying the microorganisms that are present. Chlorine can provide biofilm control in cooling systems if the system is relatively clean and continuous dosing is maintained. However, if biofilm is already present or continuous dosing is not rigorously maintained, continuous dosing will not control biofilm.

Chlorine is unable to penetrate biofilm once it is established and only affects the surface layers. Bromine is comparable with or slightly better than chlorine for control of biofilm unless the bacterial nutrient loading is high. In the latter case, bromine is a poor choice for biofilm control. Non-oxidising biocides are generally less effective at controlling biofilm than either chlorine or bromine.

CleanOxide 75 controls algae more effectively than chlorine, bromine or non-oxidising biocides even when dosed intermittently. If conditions for the growth of algae are present, chlorine is only effective if it is dosed continuously. Even in otherwise clean cooling systems, chlorine often fails to control algae. Bromine is generally less effective than chlorine at controlling algae. Some non-oxidising biocides control algae more effectively than chlorine and bromine, others are ineffective.
  • Non-corrosive with steel, metal, aluminium, plastic & fibreglass at the recommended dose rates.
  • Removes biofilm slime from water tanks and pipes at shock dosing rates.
  • Oxidises iron & manganese.
  • 100% bio-degradable
  • Sustainable, environmentally friendly
  • Safe for our oceans and natural water ways, leaves no harmful residues in water after 72 hours of treatment.
  • Broad spectrum disinfectant effective against bacteria, bacterial spores, fungi, protozoa, viruses, biofilm & algae.
  • Effective over a broad pH range of 4 to 10.
  • 10 times more powerful than chlorine.
  • Effective at lower dose rates than chlorine & hydrogen peroxide.
  • Does not contain free chlorine.
  • Does not react with ammonia & does not produce toxic compounds in contact with organic materials present in water.
  • Effective against biofilm because it exists in solution as a dissolved gas. The dissolved gas is able to diffuse into the biofilm where it can destroy the micro-organisms responsible for the biofilm.
  • Micro-organisms do not develop resistance to CleanOxide.
  • Safe for consumption and approved for use in Australia and around the world.