Model E-N60 | Threaded Adjustable Choke
EZ Flow Control
The EZ Flow Control Model E-N60 is a threaded adjustable choke designed for high-pressure wellhead and production applications requiring precise flow control. Rated for working pressures up to 5,000 PSI, it provides reliable performance in demanding oil and gas environments.
The adjustable stem design allows operators to fine-tune flow rates in real time, making it ideal for systems where pressure and production conditions fluctuate. With trim options including hardened steel, stainless steel, and tungsten carbide, the E-N60 can be configured for both standard and erosive service.
Built as a field-proven choke solution, the E-N60 delivers consistent control, durability, and serviceability in high-pressure applications.
Typical Applications:
Wellhead choke service, production flow control, test lines, and high-pressure oil and gas systems
Key Features
- Threaded adjustable choke design
- 2” FLP x 2” MLP connections
- Working pressure up to 5,000 PSI
- Orifice sizes: 3/4” and 1”
- Stem-controlled adjustable flow
- Indicator in 64ths for precise adjustment
- Trim options: alloy steel, stainless steel, SS tungsten carbide
- Stem lubrication fitting for smooth operation
- Replaceable seat and trim components
- Bonnet assembly designed for field service
- NACE / H2S configurations available
- Suitable for gas and liquid service
- Field-proven design for high-pressure applications
PERFORMANCE ADVANTAGES
Why the E-N60 Performs Where It Counts
PRECISE FLOW CONTROL IN HIGH
PRESSURE SYSTEMS
Allows real-time adjustment of flow rates under pressures up to 5,000 PSI. Ideal for maintaining production efficiency in changing conditions.
CONFIGURABLE FOR EROSIVE &
CORROSIVE SERVICE
Multiple trim material options ensure durability in high-velocity and abrasive flow environments.
RELIABLE PERFORMANCE
IN DEMANDING APPLICATIONS
Designed for consistent operation in wellhead and production systems where pressure and flow conditions vary.
FIELD-SERVICEABLE DESIGN FOR EXTENDED LIFE
Bonnet and internal components can be replaced without full system removal, reducing downtime and maintenance costs.