Cooling Tower, algae and biofilm control - Monitoring and Testing - Waste Monitoring and Testing

“Efficiently lowers algae, biofilm formation, bacterial counts and chemical consumption.” When temperatures are high, for example in cooling towers, a matrix of different microorganisms such as bacteria, fungi, EPS and algae can grow very rapidly. The disadvantages of biofilm formation in cooling towers can be enormous. Therefore water used in cooling towers needs frequent treatment and chemical shocks to keep levels of micro-organisms to a minimum.

Reduce Biocide

The LG Sonic products prevent the formation of biofilm and algae, which decreases the need for biocide dosage. Besides that, the reaction between chemicals and reagent is improved due to the presence of certain ultrasonic frequencies, leading to a more efficient chemical treatment and thus a lower consumption.

Reduce algae

Algae growing in the cooling tower basin can efficiently be controlled by installing one or more LG Sonic products in the basin.

Reduce Biofilm

Within the reach of the ultrasonic sound waves, LG Sonic prevents the formation of biofilm. Thus, a local treatment to biofilm can be given by aiming an LG Sonic at the surface that needs biofilm prevention.

Biocide reduction

When bacteria, algae and biofilm are reduced, as a result, the dosage of biocide can also be reduced. Cooling towers that are being treated with LG Sonic, generally have lower BOD5 and COD levels, even when water with a high COD is being used as make-up water.

Biofilm control

Biofilm formation starts by bacteria attaching to a surface. The ultrasonic sound waves of LG Sonic create resonance around the solid surfaces within the water, thereby preventing bacteria to adhere to a surface. Thus, the rest of the life cycle of the biofilm is also being prevented. EPS, present in an existing biofilm, is directly targeted, degrading the biofilm.

Algae control

Using scientifically proven frequencies selectively, LG Sonic targets green and (toxic) blue-green algae. Components of algae cells, within the range of LG Sonic, oscillate on the sound frequencies. This leads to tearing of different cell organelles such as the vacuole’s tonoplast, cell wall or membrane and the gas vesicles of blue-green algae.