COOLING TOWERS
&
BOILERS
AN ECOCLEAN ENERGY SAVING SOLUTION
100% Elimination of blow-down water quantity from the evaporative condenser, cooling tower, and energy savings in the boiler.
WHAT IS A COOLING TOWER?
A cooling tower functions as a specialized heat exchanger designed to facilitate direct contact between air and water, ultimately reducing the temperature of the water. Throughout this process, a small portion of the water evaporates, contributing to the overall cooling effect.
Water, which may have been previously heated by industrial processes or within an air-conditioning condenser, is conveyed through pipes to the cooling tower. Upon reaching the tower, the water is dispersed through nozzles onto a material known as "fill," which serves to slow its flow and increase surface area, thus optimizing air-water interaction. As the water progresses through the cooling tower, it encounters air drawn through the structure by an electric motor-driven fan.
The interaction between water and air induces a cooling effect via evaporation. The cooled water is subsequently pumped back into the condenser or relevant process equipment to absorb heat. Once the heat transfer process is complete, the water is cycled back to the cooling tower to undergo another round of cooling.
TYPES OF INDUSTRIAL COOLING TOWERS
Mechanical draft cooling tower (power-driven fans)
Atmospheric cooling tower (natural induction flow)
Hybrid draft cooling tower (fan-assisted natural draft towers)
Construction-characterized cooling tower (hyperboloid, doubly-curved concrete shell structures)
Air flow-characterized cooling tower (the air passage flowing directly against the flow of the water)
Shape-characterized cooling tower (rectilinear and round mechanical draft)
Cooling tower based on the method of heat transfer (evaporative type towers)
INDUSTRIAL COOLING TOWER FUNCTIONALITY
DRAWBACKS OF INDUSTRIAL COOLING TOWERS
Biofilm and fouling
Dirt particles and fine particulate
Scaling
Corrosion
Foaming
WHY CHOOSE ECO-CLEAN?
This environmentally friendly, organic single liquid replaces the necessity for multiple inorganic chemicals traditionally utilized in water treatment processes. Functioning as a chelating agent, it preserves the chemical properties of water across various temperatures and pH levels. It introduces the pioneering and exclusive plant-based, organic single liquid tailored for industrial water treatment, offering versatile applications.
This liquid formulation was developed to conserve water while effectively addressing prevalent issues such as corrosion, scaling, microbial growth, rusting, and fouling. Its applicability spans all sectors where water interacts directly with metal, including Evaporative Condensers, Cooling Towers, Air Handling Units, Chilling Plants, Heat Exchangers, and other Industrial Water Systems.
By integrating this solution, your system will operate without the need for water blowdown, ensuring consistent performance while maintaining the same system DELTA "T."
WHAT IS A BOILER?
A boiler operates as a sealed container wherein water or another suitable liquid is heated to generate steam or vapor. The produced steam or vapor is subsequently released and employed for diverse applications, including water heating, central heating, boiler-driven power generation, and both domestic and industrial cooking purposes.
INDUSTRIAL BOILING TOWER DIAGRAM
WHY CHOOSE ECO-CLEAN FOR A BOILER?
Introducing the inaugural and exclusive plant-based, organic single liquid meticulously crafted for industrial water treatment, boasting a diverse array of applications. This groundbreaking solution has been developed to conserve water while effectively addressing common challenges like corrosion, scaling, and rusting.
Relevant across all sectors where water directly interfaces with metal, notably in boilers, this environmentally friendly, organic single liquid supplants the necessity for numerous inorganic chemicals typically employed in water treatment practices. Serving as a chelating agent, it upholds the chemical integrity of water across varying temperatures and pH levels.
By incorporating this innovative solution, your system will necessitate reduced water blowdown, thereby aiding in heat retention, lowering fuel expenses, and enhancing tube longevity.