Overview
The GeNeo-PCUT Series Gel Breaker is formulated with highly efficient oxidative active components as the core, combined with proprietary stabilizing and activating additives.
It is specially developed for high-viscosity systems such as polymer-containing oilfield wastewater, fracturing flowback fluid, shield tunneling slurry, and industrial colloidal wastewater. The product can rapidly destroy the polymer colloidal structure in the system, break high-molecular-weight chain segments, and achieve integrated treatment of viscosity reduction, gel breaking, flocculation, and sedimentation.
It can significantly reduce system viscosity and provide reliable support for subsequent solid-liquid separation and advanced treatment processes.
Technical Specifications
| ITEMS | SPECIFICATIONS |
|---|---|
| Appearance | Colorless to slightly yellow transparent liquid / white crystalline granules (customized on demand) |
| Effective oxidation component content(%) | Liquid: 27.5/30/50;Solid: ≥98 (customized on demand) |
| Stability(%) | ≥97(Liquid) |
| pH (25℃,1% water solution) | 3.0~5.0(liquid)/ 4.0~6.0(solid) |
Key Functions
- Break polymer chains and reduce system viscosity
- Destabilize colloidal systems and promote particle separation
- Improve solid-liquid and oil-water separation efficiency
- Enhance flowability for easier handling and processing
- Boost performance of downstream coagulation, flocculation, and dewatering
Features
- Fast-acting with strong viscosity reduction performance
- Effective for various polymers (e.g., polyacrylamide, guar gum)
- Stable performance across wide temperature and salinity ranges
- Good synergy with flocculants and coagulants
- Available in multiple types (oxidizing, enzymatic, blended systems)
- Customizable formulations based on wastewater characteristics and polymer type
Applications
- Polymer-containing wastewater (e.g., EOR produced water)
- Oilfield flowback and fracturing fluid treatment
- Oily sludge and high-viscosity sludge systems
- Pretreatment and viscosity reduction processes
- Enhancing downstream separation and dewatering efficiency