Model EJWA | Flanged
Adjustable Choke
EZ Flow Control
The EZ Flow Control Model EJWA is a flanged adjustable choke engineered for higher pressure applications requiring precise control and robust construction. Available in pressure classes up to 15,000 PSI, the EJWA is designed for demanding wellhead and production environments.
The adjustable stem design allows for real-time flow control, enabling operators to manage production rates and pressure conditions effectively. With multiple flange sizes and pressure ratings available, the EJWA provides flexibility for integration into high-pressure systems.
Built for durability and severe service, the EJWA delivers consistent performance in challenging oil and gas applications.
Typical Applications:
High-pressure wellhead systems, production control, injection systems, and severe service applications
Key Features
- Flanged adjustable choke design
- Available in 2-1/16” and 1-13/16” configurations
- Working pressures up to 15,000 PSI
- Orifice sizes: 3/4” to 1”
- Stem-controlled adjustable flow
- Indicator in 64ths for precision adjustment
- Trim options: alloy steel, stainless steel, SS tungsten carbide
- Available in carbon steel or stainless steel body
- Designed for high-pressure service
- Multiple flange configurations available
- Replaceable seat and trim components
- Field serviceable bonnet assembly
- NACE / H2S configurations available
- Built for severe service applications
PERFORMANCE ADVANTAGES
Why the EJWA Performs Where It Counts
HIGH-PRESSURE PERFORMANCE FOR
SEVERE APPLICATIONS
Designed to operate reliably in systems up to 15,000 PSI, making it suitable for critical wellhead and production environments.
PRECISE FLOW CONTROL UNDER
EXTREME CONDITIONS
Adjustable stem allows accurate control even in high-pressure, high-flow scenarios.
DURABILITY IN EROSIVE & HIGH
VELOCITY FLOW
Trim material options protect against wear, extending service life in severe service.
FIELD MAINTENANCE FOR
CONTINUOUS OPERATION
Serviceable design minimizes downtime by allowing internal component replacement without full removal.