Other Surface Equipment — API SPEC 6a COMPLIANT

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The test manifold is equipped with either fixed or adjustable choke valves and is installed in the surface testing flowline. 

It is designed for well control and production testing operations, ensuring safe and efficient pressure management during flowback and well testing processes.

The debris catcher manifold is equipped with dual filter chambers and is installed in the surface well testing flowline. 

Its primary function is to capture and filter out large rock cuttings and debris carried by the well fluids, effectively minimizing wear and impact on downstream equipment. This ensures smoother operations and prolongs the service life of critical components. 

The cyclonic desander is integrated with the debris catcher manifold and installed in the surface well testing flowline. 

It is designed to separate and filter fine sand particles carried within the produced fluids using centrifugal force. This process significantly reduces erosion and wear on downstream equipment, enhancing operational reliability and equipment longevity. 

The fracturing wellhead assembly, commonly known as a fracturing tree, consists of key components such as fracturing valves, fracturing heads, and high-pressure union flanges. 

Designed for high-performance stimulation operations, it serves as the critical interface between surface fracturing equipment and the wellbore. During fracturing, the assembly allows large volumes of proppant-laden fracturing fluid to be safely and efficiently pumped into the target reservoir through high-pressure lines. 

It is engineered to withstand extreme pressure and abrasive conditions, ensuring operational integrity throughout the fracturing process. 

The fracturing manifold system comprises fracturing valves, fracturing heads, high-pressure union flanges, and high-pressure piping. 

These components are interconnected through a high-pressure pipeline network that integrates multiple independent manifold modules into a unified system. Each module is individually connected to a specific fracturing wellhead, enabling efficient fluid channel switching. 

This setup allows operators to conduct sequential or simultaneous fracturing operations across multiple wellheads with enhanced speed and operational flexibility—minimizing downtime and maximizing stimulation efficiency.