Model EH2P | Flanged
Positive Choke
EZ Flow Control
The EZ Flow Control Model EH2P is a flanged positive choke designed for high-capacity, fixed flow control in medium to high-pressure applications. Utilizing a replaceable flow bean, the EH2P delivers consistent and repeatable flow rates in systems where stability is critical.
Designed with larger body sizes and orifice capabilities up to 2”, the EH2P supports higher flow volumes than standard positive chokes. Available in multiple flange sizes and pressure classes up to 10,000 PSI, it integrates into a wide range of production and pipeline systems.
The EH2P can also be converted to an adjustable configuration, providing flexibility as system requirements evolve.
Typical Applications:
High-flow production systems, pipeline flow control, separator systems, and fixed flow applications
Key Features
- Flanged positive choke design
- Flow controlled by replaceable flow bean
- Large body design for higher flow capacity
- Available flange sizes including 2-1/16”, 2-9/16”, and 3-1/8”
- Working pressures up to 10,000 PSI
- Orifice sizes up to 2”
- No adjustment required during operation
- Convertible to adjustable choke configuration
- Trim options: alloy steel, stainless steel, SS tungsten carbide
- Available in carbon steel or stainless steel body
- Designed for high-volume flow applications
- Replaceable internal components
- Compact flanged configuration for its class
- NACE / H2S configurations available
PERFORMANCE ADVANTAGES
Why the EH2P Performs Where It Counts
HIGH-CAPACITY FLOW WITH CONSISTENT PERFORMANCE
Supports larger flow volumes while maintaining fixed, repeatable output through flow bean sizing.
IDEAL FOR STABLE, HIGH-VOLUME SYSTEMS
Eliminates variability in systems where flow conditions remain constant, improving operational predictability.
FLEXIBILITY THROUGH CONVERTIBLE DESIGN
Can be converted to an adjustable choke, allowing adaptation to changing production requirements.
RELIABLE PERFORMANCE IN DEMANDING CONDITIONS
Built for durability in high-flow, high-pressure environments common in oil and gas production.