QINGDAO SOCO NEW MATERIAL CO., LTD.
Add to Cart
MACRO SORB® SLUSORB Polymer is the high-efficient, cost-effective & eco-friendly choice for liquid waste treatment. You only need a small amount of it (usually 1% of the waste) to treat bulk liquid waste. The gel formed after absorption can firmly lock the water and prevent the liquid waste from leaking even under certain pressure, the volume expansion rate is less than 1%, which can reduce transportation and processing costs.
| Product model | MACRO SORB® SLUSORB Polymer |
| CAS No. | 9003-04-7 |
| Particle Size | Customizable |
| Place of Origin | Qingdao, China |
| Appearance | White Power/Granule |
| Absorption capacity in pure water(g/g) | ≥480 |
| Absorption in 0.9% Nacl(g/g) | ≥61 |
| PH value | 5.5-6.5 |
| Retention Capacity after Centrifugation | ≥36 |
| Certificate | ISO9001, SGS (non-toxic and harmless), SGS (no heavy metal residue), BV (degradable), REACH (SAPS with the lowest sulfate residue), etc. |
| Additive proportion(%) | 1% of the total weight of the processed material |
No releasing liquid, locking liquid under pressure, stronger stability.
Additional function like antibacterial and deodorizing can be added.
MACRO SORB® SLUSORB Polymer is extensively utilized to capture and immobilize free liquids, ensuring that waste complies with the Paint Filter Test (EPA 9095) for No Free Liquids. The hazardous liquids are securely trapped within the polymer matrix, preventing the release of harmful substances into the surrounding environment. This method simplifies the management of liquid waste, whether from spills or excess materials. Once treated, the waste can be safely transported and disposed of in a certified, engineered landfill.
1. Operational Efficiency Enhancement
lRapid Solidification: Instant absorption of water/organic fluids, reducing mixing time by ≥50% vs. traditional solidifiers
lEquipment Compatibility: Direct handling with standard excavators/trucks, eliminating specialized equipment costs
lLabor Optimization: Streamlines onsite workflows and mitigates labor-intensive risks
2. Lifecycle Cost Reduction
lWaste Volume Compression: <1% expansion rate, decreasing transportation frequency by 90%+
lDisposal Cost Savings: 35-60% reduction in total disposal fees through dual weight/volume reduction
lStorage Flexibility: Complies with non-hazardous landfill standards, minimizing specialized storage needs
3. ESG Performance Advancement
lContaminant Sequestration: Immobilizes heavy metals, hydrocarbons, and pollutants to prevent environmental leakage
lCircular Economy Integration: Compatible with industrial byproducts (slag, fly ash, etc.) to support resource recovery
lCarbon Footprint Reduction: Dual impact via transport emission cuts and energy conservation, aligning with net-zero goals
| Challenges | Pain points of traditional methods | SAP solutions |
| Leachate Risk | sawdust/cement leakage | chemical gel permanent solid-liquid |
| Disposal Cost | vacuum suction ($6000+/week) | low-dose SAP, reducing transportation costs |
| Equipment Maintenance | filter press requires professional operation and maintenance | only basic engineering machinery is required |
| Environmental Compliance Pressure | Incineration emissions, dust pollution | non-toxic, no secondary pollution |
| Solidified Volume | high expansion rate after use: cement 10-25%, sawdust 100%-200% | expansion rate is only 1% |
Superabsorbent Polymers (SAPs) are widely employed in industrial environments to solidify diverse forms of waste sludge, including wastewater treatment residues, industrial process slurries, and contaminated soils. This application enhances waste handling efficiency and supports environmental compliance.
In construction and demolition projects, SAPs are utilized to solidify slurry produced during activities such as concrete cutting, drilling, and structural dismantling. This process simplifies waste management, reduces disposal costs, and minimizes environmental impact.
SAPs are instrumental in the oil and gas sector for solidifying drilling muds and sludges. By transforming these materials into manageable solids, SAPs improve waste handling practices, reduce operational risks, and support sustainable drilling operations.
Municipalities leverage SAPs to solidify organic waste sludge, sewage slurry, and landfill leachate. This application not only streamlines landfill management but also effectively controls odors, contributing to cleaner and more efficient waste processing systems.
1. What is sludge & wastewater solidification polymer?
Sludge and wastewater solidification polymer is a specialized chemical formulation designed to bind and solidify liquid sludge, wastewater, or other liquid waste materials into a solid, manageable form. This process simplifies disposal, reduces environmental impact, and improves handling efficiency.
2. How does the solidification polymer work?
The polymer works by absorbing water molecules and forming a gel-like structure that binds solid particles together. This reaction transforms liquid or semi-liquid waste into a solid mass, making it easier to transport, dispose of, or repurpose.
3. Is the polymer cost-effective?
Yes, the polymer is highly cost-effective due to its high efficiency and ability to treat large volumes of waste with minimal product usage. It also reduces disposal costs by converting liquid waste into solid form, which is often cheaper to transport and dispose of.
4. How long does the solidification process take?
The solidification process typically begins within minutes of application, with complete solidification occurring within a few hours. The exact time depends on factors such as waste composition, temperature, and polymer dosage.