All Clear AN80P is a kind of anionic polyacrylamide with ultra high molecualr weight and medium hydrolysis degree,mainly used for mineral processing and water treatment ,Chinafloc A2520 can replace of it totally with good performanace.

What is anionic polyacrylamide (APAM)

Anionic polyacrylamide (often abbreviated APAM or simply “anionic PAM”) is a water-soluble polymer whose macromolecular chain bears negatively charged (anionic) functional groups. 

Because of its charge and long molecular chain, it can act as a flocculant, a coagulant aid, soil‐conditioner, erosion control aid, water clarifier, and more.

Key features include:

• High molecular weight, giving the polymer long chain length and bridging capacity. 

• Negative (anionic) charge along the polymer chain, which makes it suitable for treating particles that are positively charged or neutral in suspension. 

• Water solubility (or at least water dispersibility) so that the polymer can be applied in aqueous systems. 

Because you referenced “All Clear AN80P0”, I assume this is a specific commercial grade of an anionic polyacrylamide (or functionally similar polymer) offered under the All Clear brand (or variant). While I could not locate a public, full specification for this exact grade (AN80P0) in available open literature, the generic applications for APAM apply, and can be tailored to that grade’s molecular‐weight, charge‐density and formulation.

How it works — Mechanisms of action

When added to a suspension (soil in water, sediment‐laden runoff, industrial wastewater, etc.), APAM acts by two primary mechanisms:

1. Bridging: The long polymer chains adsorb onto multiple suspended particles, linking them into larger aggregates (“flocs”) which settle or filter more easily. 

2. Charge neutralization / destabilization: Although APAM is negatively charged, its presence can aid in destabilizing colloidal particles (depending on their surface charge) and encouraging aggregation when used in conjunction with coagulants, or under the right pH/ionic conditions. 

3. the result: Fine suspended solids, clay particles, organic colloids, etc., that would remain dispersed, instead aggregate, settle, or are easier to separate. This leads to improved clarity of water or reduced soil loss from erosion and runoff.

Key application areas for APAM

Here are typical application areas where APAM (such as All Clear AN80P0) is used, along with the rationale for each.

1. Water & wastewater treatment (industrial, municipal)

• In industrial wastewater (metallurgy, coal wash‐plants, mineral processing, steel plants) APAM is used to flocculate fine solids and improve settling, reducing turbidity and improving solids/liquid separation. 

• In municipal water treatment, APAM may be used as a flocculant aid after a coagulant step for removal of suspended solids, colloids, algae, etc. 

• In sludge dewatering processes, APAM can help thicken the sludge, reduce water content, thereby improving disposal or further handling. 

• In stormwater or construction runoff settings, APAM can help clarify turbid water by accelerating settling of fine silt and clay. N

2. Erosion & sediment control (soil stability)

• APAM is applied to exposed soils (construction sites, irrigation, stockpiles) to reduce soil erosion by binding fine particles, improving infiltration, reducing crusting and runoff velocity. 

• For irrigated fields prone to irrigation‐induced erosion (especially where irrigation water has low sodium adsorption ratio), APAM can be applied to the soil surface or injected via irrigation water. 

3. Mining / mineral processing

• As a flocculant in mining operations (ore beneficiation, tailings thickening, water reuse), APAM assists in settling fine mineral particles, clarifying process waters, reducing load on filtration or settling systems.

4. Oil & gas / drilling fluids / enhanced oil recovery

• In the oil field, APAM is used in drilling fluids (to control viscosity, fluid loss), in secondary or tertiary oil recovery (mobility control) and in treating produced water. 

5. Paper & pulp, textiles, manufacturing auxiliaries

• APAM as a retention aid and drainage aid in paper manufacturing: improves filler retention, reduces raw‐material losses, improves paper strength. 

• In textiles, printing/dyeing, APAM may be used as a sizing or finishing aid, improving leveling or uniformity of dyes/coatings.

6. Soil improvement / agriculture

• APAM may be used in agriculture for soil conditioning: reducing erosion, improving infiltration, improving stability of soils that otherwise crust or seal. 

What to consider/why it’s beneficial

Here are the benefits and operational considerations when using APAM (and by extension All Clear® AN80P0) in practice.

Benefits

• Higher efficiency: Because of the bridging and charge‐interaction mechanism, APAM can often achieve good separation/clarification at relatively low dosages compared to less advanced polymers. 

• Versatility: Use across various industries and diverse treatment scenarios (industrial, municipal, mining, soil erosion) due to adjustable molecular weight and charge density. 

• Better clarity / solids control: For water treatment, results in lower turbidity, improved settling and filtration performance.

• Soil erosion reduction: Improves infiltration and reduces runoff in irrigation and exposed‐soil situations. 

Key operational considerations & limitations

• Selection of polymer grade: Charge density, molecular weight, and form (powder, emulsion, granules) must match the application (particle size, suspension chemistry, pH, ionic strength). Using wrong grade can reduce effectiveness and increase risk of discharge of polymer. 

• Dissolution and mixing: Proper dissolution is critical. For example, an article recommends dissolving granular APAM in clean water at stirring ~100‐300 rpm, using 0.1–0.3% solution, avoiding saline water, and adjusting pH if needed. 

• pH/ionic conditions: The performance of APAM can be sensitive to pH, presence of salts, and temperature. For example, erosion control guide shows that performance improved above ~11°C and pH / soil type matter. 

• Application rate and uniformity: Over‐application may not improve performance and may even reduce infiltration (in soil applications) because of too much polymer film or blocking effects. For instance, in the USDA standard for APAM in irrigation: “Use rates must not exceed X…” 

• Environmental & safety issues: While anionic PAM is generally less toxic than cationic polymers for aquatic systems, safe handling, correct dosage, and attention to residual monomer (acrylamide) are required.

• Integration with other practices: In soil‐erosion control, APAM is not a stand‐alone solution; it is meant to be used alongside other erosion control measures (vegetation, mulch, slope stabilization). 

Typical usage scenarios for All Clear® AN80P0

While the exact specs for “AN80P0” are not publicly available (in the sources I found), here are plausible usage scenarios based on standard APAM practice, adapted to what one might expect for a polymer grade of that designation.

1. Construction site runoff treatment: Use AN80P0 to dose a sediment basin or clarification pond where stormwater containing fine silts and clays is being discharged. The polymer is pre‐dissolved in clean water, dosed into the runoff, flocs form and settle, clarified water is discharged.

   • Dosage might be optimized via lab jar test on site water.

   • The product would be part of a Best Management Practice (BMP) for managing turbid runoff.

2. Soil erosion control on irrigated lands: Apply AN80P0 (via irrigation water or surface spray) to a newly cultivated field that is subject to irrigation‐induced erosion. The polymer binds surface fine particles, reduces runoff, improves infiltration and reduces soil loss.

   • Application rates must follow guidelines (e.g., for irrigation systems, not exceed certain lbs/acre) as per USDA standard. 

   • Good for soils where establishing vegetation is delayed or where cover is inadequate.

3. Industrial wastewater clarification: Use AN80P0 in a metal‐finishing plant’s wastewater stream laden with suspended solids, oil, or colloids. The polymer helps aggregate suspended solids so they can be sedimented or filtered more readily, reducing turbidity and downstream treatment load.

   • Jar testing to find optimum dosage.

   • Effective especially when pH is near neutral or slightly alkaline and suspended solids are fine. 

4. Mining tailings thickening: Use AN80P0 in a tailings thickener to enhance settling of fine mineral particles, increasing the rate of water recovery and reducing tailings pond volume.

   • High molecular weight, low charge density grade might be used.

   • Clarified overflow water returns to process.

5. Drilling fluids / oil field water treatment: Possibly use AN80P0 to treat drilling‐mud cuttings or produced water by flocculating fine solids, or for enhanced oil recovery applications (mobility control).

   • Requires compatibility with oilfield brine chemistry.

Summary

In summary, anionic polyacrylamide such as All Clear® AN80P0 is a versatile, high‐molecular‐weight, negatively charged polymer that can be used across a wide range of industries for flocculation, sedimentation, erosion control, soil stabilization, clarity improvement and more.

When selecting or using such a product, ensure:

• The grade (molecular weight, charge density) suits your application.

• Proper preparation (dissolution, mixing) and dosing are followed.

• Water chemistry (pH, salts, temperature) is appropriate.

• Application methods are optimized (uniform distribution, correct dosage, integrated with other practices).

• Environmental, safety and regulatory guidelines are respected (especially when used near natural waters or for discharge).