Overview of Anionic Surfactant

Anionic surfactants are a class of surface-active agents characterized by their negatively charged hydrophilic (water-loving) head groups. These surfactants are widely used in various applications, including detergents, cleaning agents, and personal care products. They excel at removing dirt and oils due to their strong emulsifying and foaming properties. Common types include sodium lauryl sulfate (SLS) and linear alkylbenzene sulfonates (LAS).

Features of Anionic Surfactant

Emulsification: Effective at breaking down oils and fats into smaller droplets, making them easier to wash away.

Foaming Properties: Generate rich, stable foam that enhances cleaning efficiency.

Detergency: Strong ability to lift and remove dirt and grease from surfaces.

Solubility: Highly soluble in water, facilitating easy rinsing and dispersion.

Stability: Stable under a wide range of temperatures and pH levels, ensuring consistent performance.

Compatibility: Often compatible with other surfactants and additives, allowing for versatile formulations.

Cost-Effectiveness: Generally more affordable compared to other types of surfactants, making them popular in mass-market products.

(Good Anionic Polyacrylamide with High Viscosity PAM Polyelectrolyte in Oil as Plugging Polymer-Surfactant.)

Specifications of Good Anionic Polyacrylamide with High Viscosity PAM Polyelectrolyte in Oil as Plugging Polymer-Surfactant.

This Great Anionic Polyacrylamide offers high viscosity. It functions well in oil fields as a plugging polymer-surfactant. Its main job is managing water flow underground. It quits water from moving through the wrong rock paths. This improves oil healing.

The item has a solid negative fee. This is called high anionicity. The cost level is generally in between 20% and 30%. This fee aids the polymer adhere to rock surfaces. Rocks are frequently favorably charged. Revers draw in. This sticking power is essential for plugging pores.

Its viscosity is extremely important. This polymer makes water much thicker. Thick water can stagnate conveniently with small rock holes. It blocks the courses water likes to take. This forces water and chemicals in the direction of oil zones. Even more oil gets pressed out. The viscosity remains high even in tough problems. It works in salty water and at high temperatures.

The polymer liquifies quickly in water. Quick dissolution saves operational time. It forms a clear service. There are no swellings. This ensures also plugging performance down the opening. The molecular weight is very high. Long polymer chains develop the needed thickness. This high molecular weight offers strong viscosity.

It functions efficiently with surfactants. Surfactants help in reducing oil-water stress. The polymer assists the surfactant reach a lot more oil. With each other they enhance oil cleaning performance. The plugging effect maintains the surfactant where it functions best. This synergy enhances oil recuperation rates significantly.

Using this polymer is cost-effective. It lowers the amount of water created. Much less water means reduced handling expenses. It prolongs the useful life of oil wells. It takes full advantage of the oil recuperated from existing storage tanks. This conserves money over time. Its efficiency is dependable and regular.

(Good Anionic Polyacrylamide with High Viscosity PAM Polyelectrolyte in Oil as Plugging Polymer-Surfactant.)

Applications of Good Anionic Polyacrylamide with High Viscosity PAM Polyelectrolyte in Oil as Plugging Polymer-Surfactant.

This high viscosity anionic polyacrylamide (PAM) is an effective polymer option for challenging oil healing work. It thickens water substantially. This thick water is pumped deep underground. The objective is to push caught oil in the direction of production wells. The polymer’s essential task is enclosing simple courses, called burglar zones. Water naturally moves through these easiest courses, leaving oil behind. This polymer changes that.

Its high thickness makes the water thick like syrup. This thick fluid struggles to move through small rock pores and fractures. It connects them up effectively. This compels the injected water to discover new paths. It presses into areas still holding oil. This boosts the overall move of the storage tank. Even more oil obtains called and relocated. This is called uniformity control. It repairs unequal water circulation triggered by various rock types or fractures.

This anionic PAM also works extremely well with surfactants. Surfactants help launch oil adhered to rock surfaces. They decrease the stress in between oil and water. This lets the water flush the oil out much easier. But surfactants alone can direct with burglar zones too fast. They obtain lost. Including this thick PAM modifications that. The polymer traps the surfactant in the thick remedy. This keeps the surfactant where it’s needed most– in the oil-rich areas. The polymer-surfactant combination works better than either alone. The polymer obstructs the easy paths. The surfactant after that efficiently cleanses the oil from the harder-to-reach rock. This team effort recoups considerably more oil. It makes the entire flooding procedure a lot more efficient and affordable.

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).

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

5 FAQs of Good Anionic Polyacrylamide with High Viscosity PAM Polyelectrolyte in Oil as Plugging Polymer-Surfactant.

Here are 5 FAQs about Good Anionic Polyacrylamide with High Viscosity PAM Polyelectrolyte in Oil as a Plugging Polymer-Surfactant:

What makes this anionic PAM good for plugging oil zones? Its high molecular weight creates very thick, sticky solutions. This thick solution flows into high-permeability zones in the oil reservoir. It blocks the pathways for water. This reduces water production significantly. The negative charge helps it spread well in the formation.

How does the high viscosity help plug water channels? The thick PAM solution resists flowing easily. It prefers to enter the bigger pores where water flows fastest. Once inside, the polymer chains expand and tangle. This physically blocks the water paths. Less water gets through the formation.

Why use this PAM with a surfactant? The surfactant helps the polymer work better. It makes the polymer solution mix easily with the oil in the reservoir. This ensures the polymer reaches the target water zones. The surfactant also helps the polymer spread out uniformly. Better coverage means more effective plugging.

What concentration works best? The right amount is crucial. Normally we use 0.1% to 0.5% polymer in water. Too little polymer won’t build enough viscosity to plug effectively. Too much polymer wastes money and might cause injection problems. Field tests determine the exact best concentration.

Does temperature affect this PAM? High temperatures can be a problem. Very hot reservoirs can break down the polymer chains over time. This reduces viscosity and weakens the plug. This specific anionic PAM is chosen for better heat resistance. It holds its viscosity longer under typical oilfield temperatures.

(Good Anionic Polyacrylamide with High Viscosity PAM Polyelectrolyte in Oil as Plugging Polymer-Surfactant.)