Overview
This series of drilling emulsifiers is engineered for oil-based (OBM) and synthetic-based (SBM) drilling fluid systems, supporting applications from conventional wells to deep and ultra-deep, complex formations. Built on optimized interfacial chemistry, the products deliver consistent and reliable emulsion stability under high-temperature, high-salinity, and high-solids conditions, ensuring overall system integrity throughout operations.

Technical Specifications
| Product Code | Function/Application | OBM/WBM | Temperature (°C) | Features | Availibility |
|---|---|---|---|---|---|
| GN DRIL S-FUN 01 | Primary Emulsifier | OBM | 180 | Shale/tight | Liquid / 55gal |
| GN DRIL S-FUN 02 | Secondary Emulsifier | OBM | 180 | Shale/tight | Liquid / 55gal |
| GN DRIL S-FUN C | Combo Emulsifier | OBM | 180 | Shale/tight | Liquid / 55gal |
| GN DRIL S-FUN W | Wetting Agent | OBM | 180 | Shale/tight | Liquid / 55gal |
| GN DRIL N-FUN 01 | Primary Emulsifier | OBM | 200 | Clay Free | Liquid / 55gal |
| GN DRIL N-FUN 02 | Secondary Emulsifier | OBM | 200 | Clay Free | Liquid / 55gal |
| GN DRIL N-FUN C | Combo Emulsifier | OBM | 200 | Clay Free | Liquid / 55gal |
| GN DRIL N-FUN W | Wetting Agent | OBM | 200 | Clay Free | Liquid / 55gal |
| GN DRIL H-FUN C | Combo Emulsifier | OBM | 260 | Extreme High Temperature | Liquid / 55gal |
| GN DRIL H-FUN W | Second Emulsifier & Wetting Agent | OBM | 260 | Extreme High Temperature | Liquid / 55gal |
Features
- Deliver robust and long-lasting emulsion stability in demanding environments
- Enhance rheological performance and cuttings carrying capacity for improved hole cleaning
- Strengthen resistance to water contamination and electrolyte intrusion
- Improve wellbore stability and reduce fluid loss risks
- Enable efficient, consistent, and predictable drilling performance
Applications
- Oil-Based Mud (OBM) systems
- Synthetic-Based Mud (SBM) systems
- Deep and ultra-deep well drilling
- High-temperature, high-salinity, and high-solids formations
- Operations requiring enhanced wellbore stability and fluid performance