Overview of Cationic Surfactant

Cationic surfactants are surface-active agents with a positively charged hydrophilic head. These surfactants are widely used in various industries, including personal care, textiles, and industrial cleaning. They are known for their antimicrobial properties, making them effective in disinfectants and fabric softeners. Their unique charge allows them to interact strongly with negatively charged surfaces, enhancing their effectiveness in specific applications.

Features of Cationic Surfactant

Positively Charged Head: The cationic nature of these surfactants makes them particularly effective in interacting with negatively charged surfaces.

Antimicrobial Properties: Effective against a wide range of microorganisms, making them ideal for use in disinfectants and sanitizers.

Fabric Softening: Commonly used in fabric softeners due to their ability to provide a soft feel and reduce static cling.

Emulsifying Ability: Can stabilize emulsions, which is useful in cosmetic and personal care products.

Foaming Characteristics: Produces stable foam, beneficial in cleaning products.

Solubility: Generally soluble in water and organic solvents, facilitating their use in various formulations.

Compatibility: Often compatible with other types of surfactants, allowing for versatile formulations.

(Good Polyelectrolyte Cationic Polymer Polyacrylamide PAM for Ceramics Wastewater Treatment)

Specifications of Good Polyelectrolyte Cationic Polymer Polyacrylamide PAM for Ceramics Wastewater Treatment

The product is a premium cationic polyelectrolyte polymer based on polyacrylamide (PAM) made for porcelains wastewater therapy. It efficiently removes suspended solids, organic contaminants, and hefty steels from commercial wastewater. The polymer has a high molecular weight, commonly between 8-15 million Daltons. This ensures solid flocculation efficiency. The cationic charge thickness ranges from 10% to 60%, enabling customization based upon wastewater structure. Greater charge densities function better for wastewater with high degrees of colloidal fragments.

The product dissolves promptly in water. It develops a clear, viscous option without clumping. Optimum dissolution takes place at temperature levels between 20-40 ° C. The suggested dosage differs from 0.1 to 5 parts per million (ppm). Lower dosages fit slightly polluted water. Higher does handle hefty sludge loads. The polymer works across a pH range of 4-10. This adaptability makes it appropriate for porcelains wastewater with fluctuating level of acidity or alkalinity.

The polymer is compatible with not natural coagulants like light weight aluminum sulfate or ferric chloride. Incorporating these chemicals boosts sedimentation rate. Treated water achieves low turbidity levels, commonly below 10 NTU. The flocs developed are thick and work out quickly. This decreases handling time in clarifiers or working out containers. The product reduces sludge quantity by as much as 40% compared to traditional treatments. This reduces disposal expenses.

It fulfills worldwide safety and security standards. The polymer is non-toxic and without hazardous monomers. It complies with ISO 14001 and RoHS guidelines. Storage space conditions are easy. Keep the item in a dry, great place away from direct sunlight. The shelf life is 24 months in unopened packaging. Usage secured containers to stop moisture absorption.

Application techniques consist of straight application right into wastewater streams or blending containers. Automated application systems make certain regular therapy outcomes. The polymer works in batch handling or continual circulation systems. Regular tracking of water specifications like COD and body is advised. Change does based on real-time information.

The product enhances filtration effectiveness in ceramic production. It reduces endure devices by lessening abrasive fragments in recycled water. Dealt with water fulfills discharge policies. It can also be recycled in manufacturing processes. This supports lasting water administration in the ceramics industry.

(Good Polyelectrolyte Cationic Polymer Polyacrylamide PAM for Ceramics Wastewater Treatment)

Applications of Good Polyelectrolyte Cationic Polymer Polyacrylamide PAM for Ceramics Wastewater Treatment

Polyacrylamide (PAM) cationic polymer plays a vital function in treating ceramics wastewater. Ceramics manufacturing produces wastewater filled with great clay particles, dyes, and chemicals. These pollutants make the water hard to detoxify. PAM addresses this issue effectively.

The polymer functions by binding to suspended bits. It counteracts their adverse costs. This causes fragments to glob together. Bigger globs create, which sink much faster. This action lowers the time needed for solid-liquid separation. Clearing up storage tanks or filters after that get rid of the sludge quickly.

PAM additionally improves sludge dewatering. Ceramics wastewater sludge holds a lot of water. Conventional approaches battle to remove this moisture. Adding PAM alters the sludge framework. It ends up being extra permeable, allowing water getaway swiftly. This lowers sludge quantity. Reduced quantity indicates less costly transportation and disposal.

Reusing cured water is an additional benefit. Ceramics manufacturing facilities need big amounts of water. Recycling treated wastewater conserves expenses. PAM guarantees the water meets high quality standards. It removes turbidity and unsafe compounds. Cleanser water re-enters production cycles securely.

The polymer adapts to different wastewater conditions. Ceramics plants often adjust manufacturing processes. Wastewater composition differs therefore. PAM remains effective across pH levels and temperature levels. Employees can modify dose quantities quickly. This flexibility keeps therapy reliable.

PAM is secure for devices. It does not rust pipelines or tanks. Maintenance costs remain low. The polymer itself breaks down in time. Ecological dangers are very little. Correct handling ensures no secondary air pollution.

Ceramics manufacturing facilities encounter strict ecological policies. Making use of PAM aids fulfill discharge limitations. Authorities examination for put on hold solids and chemical oxygen need. Dealt with wastewater with PAM passes these examinations. Fines or shutdowns are stayed clear of.

Operators prefer PAM for its cost-effectiveness. Small amounts provide solid results. Storage space is straightforward, as the polymer is available in powder or fluid form. Educating personnel to use it takes little time.

The procedure integrates efficiently with existing systems. Manufacturing facilities do not need major upgrades. Adding PAM application devices is simple. Automation alternatives are offered. This decreases manual labor.

pH modification occasionally couple with PAM treatment. Ceramics wastewater can be acidic or alkaline. Neutralizing pH first increases PAM efficiency. The mixed approach ensures optimum results.

Company Introduction

Welcome to Robocup, a premier global supplier of high-quality surfactants. Our extensive range includes anionic, cationic, nonionic, and amphoteric surfactants, catering to industries such as personal care, textiles, cleaning, and industrial applications. With advanced manufacturing facilities and rigorous quality control, we ensure that our products meet the highest international standards. We pride ourselves on our commitment to innovation, sustainability, and customer satisfaction. Our dedicated team provides tailored solutions to meet your specific needs. Partner with us for reliable, high-performance surfactants that drive your business forward. Explore our offerings and discover the difference today.

If you have any questions, please feel free to contact us(nanotrun@yahoo.com).

Payment Methods

T/T, Western Union, Paypal, Credit Card etc.

Shipment Methods

By air, by sea, by express, as customers request.

5 FAQs of Good Polyelectrolyte Cationic Polymer Polyacrylamide PAM for Ceramics Wastewater Treatment

What is cationic PAM? How does it work in ceramics wastewater?
Cationic PAM is a water-soluble polymer with a positive charge. It works by attracting negatively charged particles in ceramics wastewater, like clay or silica. This makes the particles clump together into larger masses. The larger masses settle faster, separating solids from water. This process improves water clarity and reduces treatment time.

Why choose cationic PAM over other polymer types?
Ceramics wastewater often contains fine, negatively charged particles. Cationic PAM bonds better with these particles compared to anionic or non-ionic polymers. The positive charge neutralizes the negative particles, creating stronger flocs. This makes solid-liquid separation more efficient. Other polymers might not achieve the same results.

What is the recommended dosage for cationic PAM?
The dosage depends on wastewater characteristics like particle concentration and pH. Start with small amounts, typically 0.1-5 parts per million. Test different doses in lab trials first. Adjust based on settling speed and clarity. Overdosing wastes product and may cause re-stabilization of particles. Follow supplier guidelines for optimal results.

Does cationic PAM affect safety or the environment?
Cationic PAM is safe when handled properly. Use protective gear to avoid skin or eye contact. The polymer itself is non-toxic but can form slippery surfaces. Follow local regulations for disposal. It breaks down naturally over time without leaving harmful residues. Store it in a dry, cool place away from direct sunlight.

How do I measure the effectiveness of cationic PAM?
Check turbidity levels before and after treatment. Lower turbidity means better particle removal. Monitor sludge volume—smaller, denser sludge indicates good flocculation. Track settling time; faster settling improves system efficiency. Conduct jar tests regularly to compare performance. Adjust the dosage or mixing speed if results decline.

(Good Polyelectrolyte Cationic Polymer Polyacrylamide PAM for Ceramics Wastewater Treatment)