WE ARE LEADING MANUFACTURER AND SUPPLIER OF CATIONIC, ANIONIC,NON IONIC FLOCCULNTS CHEMICAL.

WE HAVE A VARIETY OF PRODUTS AVAILABLE ACCORDING TO THEIR MOLECULAR WEIGHT & IONIC CHARGE.

Polyelectrolytes are macromolecules made up of repeating units, just like other polymers. What sets them apart is the presence of ionizable groups along their polymer chains. These ionizable groups can be either positively charged (cationic) or negatively charged (anionic). This charged nature gives polyelectrolytes their unique properties.

*Types of Polyelectrolytes:*

There are two primary categories of polyelectrolytes:

1. *Cationic Polyelectrolytes:* These contain positively charged groups and are often used in applications such as flocculation and wastewater treatment.

2. *Anionic Polyelectrolytes:* These contain negatively charged groups and are commonly used in industries like papermaking and cosmetics.

WE ARE LEADING MANUFACTURER AND SUPPLIER OF ORGANIC & INORGANIC COAGULANT.

WE HAVE A VARIETY OF PRODUTS AVAILABLE.

Coagulants are agents that induce the clumping or aggregation of particles or molecules in a liquid. Their primary function is to facilitate the separation of solids from liquids, making them invaluable in various sectors.

WE ARE LEADING MANUFACTURER AND SUPPLIER OF LIQUID & POWDER CULTURE FOR ETP/STP

WE HAVE ANAERBIC CULTURE ALSO IN POWDER & LIQUID FORM

Microbial culture is the heart and soul of wastewater treatment in ETP and STP. Here's how it works:

1. *Activated Sludge Process:* In ETP and STP, activated sludge is a microbial culture consisting of bacteria and other microorganisms. These microorganisms feed on organic matter in wastewater, breaking it down into simpler substances.

2. *Aerobic and Anaerobic Bacteria:* Both aerobic (oxygen-dependent) and anaerobic (absence of oxygen) bacteria are used in wastewater treatment. Aerobic bacteria are responsible for breaking down organic matter when oxygen is present, while anaerobic bacteria function in environments with limited oxygen.

3. *Biological Nutrient Removal:* Microbial cultures are crucial for removing nutrients like nitrogen and phosphorus from wastewater. Specific bacteria are cultivated to facilitate this removal, reducing the environmental impact of treated effluent.

Defoamers, also known as anti-foaming agents or foam control agents, are chemical additives designed to reduce or eliminate foam formation in liquids. They work by breaking down existing foam or preventing its formation, depending on the specific application and type of defoamer used.

*Types of Defoamers:*

Defoamers come in various forms, including:

1. *Silicone-Based Defoamers:* These are widely used and highly effective in controlling foam in diverse applications, from food processing to wastewater treatment.

2. *Non-Silicone Defoamers:* Some industries prefer non-silicone defoamers due to concerns about silicone contamination. These alternatives are often used in specific niche applications.

*Applications of Defoamers:*

Defoamers are indispensable in several industries:

- *Manufacturing:* In chemical manufacturing processes, defoamers prevent foam from interfering with reactions and product quality.

- *Food and Beverage:* They're crucial in food processing, ensuring that beverages, sauces, and other products are free from unwanted foam.

- *Agriculture:* Defoamers are used in crop protection and pesticide formulations, preventing foam buildup in spray tanks.

- *Wastewater Treatment:* In municipal and industrial wastewater treatment, defoamers help control foam in aeration tanks and settling ponds.

- *Pulp and Paper:* The paper industry relies on defoamers to reduce foam during the papermaking process, improving production efficiency.

- *Oil and Gas:* In oil drilling and extraction, defoamers prevent foam formation in drilling muds and enhance overall drilling performance.