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.

(Low Polyelectrolyte Cationic Polymer Polyacrylamide PAM for Municipal Wastewater.)

Specifications of Low Polyelectrolyte Cationic Polymer Polyacrylamide PAM for Municipal Wastewater.

This product is a low polyelectrolyte cationic polymer polyacrylamide (PAM) designed for municipal wastewater treatment. It works by neutralizing negatively charged particles in wastewater, forming flocs that settle easily. The process improves water clarity and reduces sludge volume. The product is effective in treating organic and inorganic contaminants commonly found in sewage.

Key specifications include a high molecular weight ranging from 8 to 12 million Daltons. The cationic charge density is between 10% and 40%, adjustable based on treatment needs. It dissolves quickly in water, achieving full solubility within 60 minutes under standard conditions. The recommended pH range for optimal performance is 4 to 10, making it suitable for diverse wastewater environments. Dosage varies from 0.1 to 5 parts per million, depending on pollutant concentration and system design.

The product appears as white granules or powder with a moisture content below 10%. It has a shelf life of 24 months when stored in a cool, dry place away from direct sunlight. Packaging options include 25-kilogram bags or custom bulk containers for large-scale operations. Safety guidelines emphasize avoiding direct skin contact and inhalation during handling.

This cationic PAM complies with international environmental standards, including ISO 9001 and ISO 14001 certifications. It contains no toxic additives, ensuring minimal ecological impact. The polymer reduces operational costs by lowering energy consumption in sludge dewatering. It also enhances filtration efficiency, cutting down processing time.

Municipal plants benefit from improved flocculation stability and faster sedimentation rates. The product resists breakdown under high shear conditions, maintaining performance in dynamic treatment systems. Compatibility with other water treatment chemicals allows flexible integration into existing processes. Regular use minimizes equipment fouling and maintenance requirements.

Testing confirms its effectiveness in removing suspended solids, heavy metals, and organic pollutants. Results show a reduction in chemical oxygen demand (COD) and biological oxygen demand (BOD) by up to 90%. The low viscosity of the solution ensures easy pumping and mixing without clogging pipelines.

Operators report consistent performance across seasonal temperature fluctuations. The polymer’s low residue levels meet discharge regulations for treated water. It supports sustainable wastewater management by enabling sludge reuse in agriculture or incineration.

(Low Polyelectrolyte Cationic Polymer Polyacrylamide PAM for Municipal Wastewater.)

Applications of Low Polyelectrolyte Cationic Polymer Polyacrylamide PAM for Municipal Wastewater.

Reduced polyelectrolyte cationic polymer polyacrylamide (PAM) plays a crucial function in metropolitan wastewater treatment. It improves efficiency by binding put on hold particles. This procedure speeds up solid-liquid separation. Wastewater plants make use of PAM to clarify water quicker. It lowers the moment required for resolving containers to work.

PAM works well for sludge dewatering. It makes sludge thicker and much easier to handle. This cuts down disposal prices. Machines like centrifuges or belt presses work much better with PAM. They remove much more water from sludge. Less moisture means lower transportation fees.

Municipal systems face high natural lots. PAM tackles this by trapping raw material. It forms bigger flocs that work out quickly. This protects against blocking in filters or pipelines. Treatment plants run smoother with less clogs.

Chemicals like phosphorus or heavy metals typically pollute wastewater. PAM aids eliminate them. The polymer attracts charged bits. It binds impurities for less complicated elimination. This makes treated water much safer prior to release.

PAM changes pH degrees in wastewater. It maintains the therapy procedure. Operators save money on extra pH-adjusting chemicals. Consistent outcomes issue for meeting environmental regulations.

Odor control is an additional advantage. PAM minimizes nasty scents by damaging down sulfur compounds. Close-by neighborhoods notice less grievances. Cleanser air enhances public fulfillment.

Dosage matters for economical usage. PAM requires small amounts for large outcomes. Overuse wastes sources. Underuse reduces performance. Automated systems assist apply the right dosage.

PAM matches numerous treatment stages. It operates in key, additional, or tertiary processes. Flexibility makes it a basic choice for cities. Operators depend on it for reputable efficiency.

Storage space and managing demand care. PAM comes as completely dry powder or liquid gel. Dry forms last much longer however need mixing. Fluid versions save prep time. Correct training guarantees personnel utilize it safely.

Environmental impact remains low. PAM breaks down after therapy. It leaves no dangerous deposits. Regulatory authorities approve its use in public systems.

Municipal wastewater demands efficient remedies. PAM meets these needs. It simplifies complicated therapy jobs. Cities save money and time. Cleanser water advantages everyone.

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 Low Polyelectrolyte Cationic Polymer Polyacrylamide PAM for Municipal Wastewater.

Low polyelectrolyte cationic polymer polyacrylamide (PAM) is widely used in municipal wastewater treatment. Below are answers to common questions about its application. What is low polyelectrolyte cationic PAM? It’s a water-soluble polymer with a low charge density. The structure allows it to bind effectively to suspended particles in wastewater. People use it mainly for coagulation and flocculation. This helps separate solids from water efficiently. How does it work in municipal wastewater treatment? The polymer’s positive charge attracts negatively charged particles like sludge or organic matter. This neutralizes particles, making them clump together. These clumps settle faster or get filtered out easily. The process improves water clarity and reduces treatment time. What are the benefits compared to other coagulants? It requires lower doses than traditional chemicals like alum or ferric salts. It produces less sludge, cutting disposal costs. It works well in a broad pH range, minimizing adjustments. It’s also less corrosive to equipment, extending machinery life. Is it safe for the environment and operators? Yes, when handled correctly. The polymer is non-toxic and biodegradable. Overdosing might cause residue, but standard doses break down safely. Operators should wear basic protective gear like gloves to avoid skin contact. Proper storage prevents moisture absorption, maintaining product quality. How is the dosage determined for different wastewater types? Dosage depends on factors like pollutant concentration, water flow, and system design. Testing jar tests or pilot trials helps find the optimal dose. Municipal plants often start with 0.1-5 parts per million. Adjustments are made based on real-time turbidity or sludge volume. Consulting suppliers or experts ensures accurate dosing for specific conditions.

(Low Polyelectrolyte Cationic Polymer Polyacrylamide PAM for Municipal Wastewater.)