SHN-A1110 anionic PAM delivers stable flocculation and dewatering in challenging water. A dependable High salty resistance polymer supplier option for polymer for high salinity groundwater and polymer for saline drilling fluids.
Process Fit for Saline-Impacted Separation Systems
SHN-A1110 is a high molecular weight anionic polyacrylamide engineered for operators who need predictable solid–liquid separation where ionic strength can disrupt conventional flocculants. Our company positions it as a practical High salty resistance polymer for EPC contractors, water-treatment plants, and field service teams supporting saline-impacted industrial effluent and make-up water. For customers sourcing at scale, we act as a High salty resistance polymer supplier with export-ready packaging and batch consistency suited to framework purchasing. The polymer dissolves to form a viscous solution that improves particle bridging and enhances sludge dewatering, helping reduce downstream load on presses, centrifuges, or clarifiers. It is selected when reliability and controllable dosing matter more than short-term spot performance.
Measured Specifications and Control Parameters
Quality and operability are defined by measurable targets: appearance as white powder/granules, solid content ≥89%, molecular weight 16–18 million, hydrolysis degree 20%–25%, residual monomer ≤500 ppm, insoluble matter ≤0.2%, and pH (0.1% solution) 7.0–8.0. These parameters support stable viscosity and repeatable floc formation even when chloride-rich streams challenge charge balance, making it suitable as a polymer for high salinity groundwater treatment trains. Typical dissolving time is 45–60 minutes under correct mixing and water temperature, enabling controlled solution make-down for continuous dosing. For projects where saline water intersects drilling operations, it can be evaluated as a polymer for saline drilling fluids conditioning aid, especially when solids management and fluid clarity are critical to site compliance and equipment protection.
Operational Value Across Industrial and Field Environments
In real operations, SHN-A1110 improves clarification, reduces turbidity, and increases cake solids, which directly lowers hauling volume and disposal cost. It is applied in paper and pulp wastewater, steel and mineral processing effluent, dyeing/textile color-laden streams, and aquaculture water management, with performance tuned via jar testing and charge demand. For coastal infrastructure and contractor-led dewatering packages, it supports near sea projects drilling use polymer needs by helping manage fines and suspended solids in return water before discharge or reuse. Where saline sources are unavoidable, teams deploy it as a High salty resistance polymer to maintain separation efficiency and stabilize unit operations. Procurement teams also value it as a supply-stable option from a High salty resistance polymer supplier aligned with long-term plant uptime targets.
Formulation and Supply-System Advantages for Consistent Deployment
SHN-A1110 is designed as a dry, free-flowing solid that simplifies storage, transport, and automated solution preparation compared with liquid flocculants. Packaging in 25 kg and 1000 kg bags supports both pilot dosing and continuous bulk consumption, enabling standardized logistics for multi-site programs—an advantage expected from a High salty resistance polymer supplier serving international projects. Its anionic architecture and high molecular weight provide a robust platform for tailoring to variable influent quality, including chloride-rich and mineralized water where a High salty resistance polymer is required to prevent performance collapse. The product’s controlled residual monomer and low insolubles support environmental and process compliance. For engineering teams integrating separation units into coastal construction packages, it can be specified within near sea projects drilling use polymer and water-treatment scopes without redesigning the entire chemical feed system.
Performance, Operability, and Cost-Control Benefits for End Users
In use, the polymer supports faster settling/float separation and improved dewatering response, often translating into lower coagulant demand and reduced polymer consumption through optimized dosing windows. It is particularly valuable as a polymer for high salinity groundwater pre-treatment where high TDS can interfere with floc structure, helping protect membranes, filters, and downstream polishing steps from solids overload. For sites evaluating it as a polymer for saline drilling fluids support additive, improved solids removal can reduce wear on pumps and handling equipment and improve recycle-water clarity. Because it delivers stable viscosity and predictable make-down behavior, operators can standardize SOPs for mixing, aging, and feed, which reduces operator variability and improves auditability. Overall, the combination of repeatable separation and controlled handling strengthens ROI in continuous industrial service.
Polyacrylamide also called PAM,Polymer,Flocculants,Polyelectrolytes.It is water-soluble polymers, insoluble in most organic solvents, has good flocculation, can reduce the frictional resistance between the liquids, according to the ionic character it has many types.
SHN-A1110 Polyacrylamide Classification
(1).SHN-A1110 Description:
SHN-A1110 is a synthetic, high molecular weight anionic polyelectrolyte supplied in dry solid form. It is completely miscible with water producing relatively high viscosity solutions for application.
SHN-A1110 Polyacrylamide Specification
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Item
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Specification
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Appearance
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White Powder or Granule
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Solid Content%
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≥89%
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Molecular Weight
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16-18 Million
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Hydrolysis Degree
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20%-25%
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Bulk Density (kg/m³)
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750±50
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Viscosity
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High
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Residual Monomer
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≤500ppm
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Insoluble Matter
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0.2% max
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Dissloving Time
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45-60 Minutes
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PH Value (0.1% Soultion)
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7.0-8.0
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Storage Period
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24 Months
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(1.) Paper Industry Wastewater Treatment.
(2.) Steel Industry Wastewater Treatment.
(3.) Dyeing Industry Wastewater Treatment.
(4.) Aquaculture Wastewater Treatment.
(5.) Mineral Processing Use.
(6.) Sludge Dewatering and Solid-Liquid Separation
1.25 kgs,1000 kgs bag.
2.Accpet bag design according to client's requirement.
3.Please store in cool and dry place.
Use Scenarios
Paper Mill Wastewater Clarification and Sludge Dewatering
In paper manufacturing, wastewater often contains fibers, fillers, inks, and dissolved salts from process additives and recycled feedstock. SHN-A1110 is dosed into flocculation and clarification stages to aggregate fine solids and improve capture before DAF, settlers, or disc filters, then used again to condition sludge for belt presses or centrifuges. Where salt levels vary, plants use it as a High salty resistance polymer to maintain floc strength and reduce carryover that drives COD/TSS excursions. For mills using mineralized well sources, it functions as a polymer for high salinity groundwater conditioning agent that stabilizes upstream solids removal and protects downstream equipment. As a High salty resistance polymer supplier, we support consistent batch delivery, enabling mills to lock recipes, track consumption, and maintain compliance documentation within their water-management system.
Coastal Construction Return-Water Treatment for Drilling Operations
In coastal foundations and marine-adjacent civil works, drilling and dewatering return water can be highly saline and heavily loaded with fines, making discharge or reuse difficult. SHN-A1110 is integrated into site treatment skids—mixing tank, polymer make-down, dosing pump, and lamella/settling unit—to accelerate floc formation and improve solid capture prior to filtration or permitted discharge. Contractors specify it for near sea projects drilling use polymer packages because it remains workable in chloride-rich conditions and can be evaluated as a polymer for saline drilling fluids support product when managing solids and fluid clarity on-site. Using a High salty resistance polymer supplier reduces procurement risk for long projects, while the polymer’s controlled dissolving behavior supports consistent operation across shifts, helping teams meet turbidity/TSS limits and keep water recycling loops stable.
What industries benefit most from using SHN-A1110?
We supply SHN-A1110 primarily for industries requiring efficient wastewater treatment such as paper manufacturing, steel processing, textile dyeing, and aquaculture. Its high molecular weight and anionic charge support solid-liquid separation and sludge dewatering, making it suitable for various industrial wastewater scenarios.
Can you customize the packaging of SHN-A1110 for large-scale projects?
Yes, we offer flexible packaging options including 25 kg and 1000 kg bags. For large or specialized projects, including near sea projects drilling use polymer, we customize bag design and logistics to fit your operational needs and ensure smooth delivery.
How does SHN-A1110 perform in high salinity environments?
Our SHN-A1110 shows excellent high salty resistance polymer characteristics, making it suitable for applications involving saline wastewater or groundwater. Its stable viscosity and effective flocculation allow it to function reliably in challenging conditions like saline drilling fluids.
What storage and handling measures ensure optimum performance of SHN-A1110?
To maintain SHN-A1110’s quality over its 24-month shelf life, store it in a cool, dry environment away from moisture. Proper handling in white powder or granule form preserves its flocculant efficiency, ensuring consistent performance in your wastewater treatment processes.
