The 3/8" poppet type check valve with male × female NPT connections is designed for uni-directional flow control and backflow prevention in oil and gas systems. The poppet mechanism provides fast response to flow changes and a positive seal under pressure, ensuring protection of pipelines, pumps, and equipment from reverse flow or pressure transients.

The 3/8" size is suitable for small to medium diameter lines, instrumentation, sampling, and control applications. Male × female NPT connections allow secure inline installation, reducing potential leak points and enabling integration into existing piping without additional adapters.

The valve has a standard working pressure of 6000 psi, with optional configurations rated up to 10000 psi. Selectable cracking pressures range from 1/3 to 25 psi, allowing precise adjustment for system requirements. Construction materials include corrosion resistant SS 316, SS 316L, Duplex, Super Duplex, Hastelloy C276, Inconel 625, Monel 400, and Brass, providing durability in harsh oil and gas environments.

All valves are factory tested for cracking and reseal performance, with pneumatic testing at 1000 psig to verify seat integrity. Heat code traceability ensures material verification, and additional testing including vibration, temperature, and helium is available for critical applications requiring high reliability.

The Hex Nipple Pipe Fitting with Male NPT threads is a precision component used to connect two female-threaded pipes or fittings in instrumentation and process control systems. The male tapered threads create a tight, leak-resistant seal when engaged with a corresponding female NPT connection, making it suitable for high-pressure and high-temperature applications commonly found in the oil and gas industry.

Manufactured from high-quality bar stock, the fitting provides strength and durability. Threads are capped and carefully packed to prevent damage during transport. The fitting is marked with the manufacturer’s name, size, material, and heat code for traceability. The design ensures proper thread engagement, reliable sealing, and smooth flow of fluids or gases.

These fittings meet or exceed ASME B1.20.1 standards for NPT threads and are rated according to ASME B31.3 for process piping, supporting safe and consistent operation in industrial environments. The male NPT design allows easy installation while maintaining a durable, leak-tight connection over the life of the system.

The Ball Valve Lever Operated – 2-Way (Male × Female) is an isolation valve used to start, stop, or regulate fluid flow in oil and gas piping systems. Its 2-way design provides simple, reliable flow control, making it ideal for applications where full shut-off or bi-directional flow is required, such as upstream production lines, downstream processing, pipeline distribution, and injection systems.

The valve features a floating ball design for seat wear compensation and leak-proof performance under high-pressure conditions. It is manufactured and tested to ASME B16.34, meets ASME B31.3 pressure-temperature ratings, and is type-tested to MSS-SP-99. It supports bi-directional flow with a standard working pressure of 6000 psi (maximum 10000 psi on request) and a temperature range of –40 °F to 450 °F (–40 °C to 232 °C).

It operates via a quarter-turn lever with low torque. The stem is internally loaded with a shoulder to prevent blowout. Replaceable seats and packings extend service life, and the maximum orifice minimizes pressure drop. The valve is factory tested with nitrogen gas at 1000 psig (maximum leak rate 0.1 sec/min). Optional tests include vibration, temperature, and helium. It can also meet NACE MR0175 standards and fire-safe requirements, with heat code traceability for all components.

In conclusion, this 2-way ball valve provides reliable, leak-proof isolation for critical oil and gas operations, combining robust construction, high-pressure capability, and ease of operation to ensure safe and efficient flow control across the system.

Reducing adapters Female to Male NPT are used to connect pipes or instrumentation lines of different diameters in oil and gas systems. They allow a larger pipe or fitting to join with a smaller one without leaking, ensuring the flow of liquids or gases remains safe and controlled. These fittings are especially useful in situations where space is limited or existing piping needs to be adapted to new equipment.

They are made from high-quality materials such as stainless steel, brass, or carbon steel, which can handle pressures up to 10,000 PSI. The female NPT side threads internally to receive a male pipe, while the male NPT side threads externally to connect to a female fitting. This combination provides a secure, leak-resistant connection that is durable even under high pressure, vibration, or temperature changes.

Reducing adapters are widely used in oil and gas production, processing, and distribution systems.

They are ideal for connecting instrumentation, control systems, chemical injection lines, or any piping where size changes are required. Their compact design and simple installation make them a practical choice for engineers and technicians who need reliable connections in complex piping networks.

The Gauge Root Valve Bleed Valve with Vent Screw is designed for oil and gas applications where controlled pressure release is critical. It is installed on pressure gauges and instrumentation lines to provide a safe and easy way to vent trapped pressure. The vent screw allows operators to gradually release pressure without removing the valve, reducing the risk of sudden pressure surges that could damage equipment or compromise safety.

This valve is rated for 6000 PSI standard working pressure, with higher pressures available on request. It is built to ASME B16.34 standards and produced under ISO 9001, PED, and ATEX quality systems, ensuring reliability and compliance with industry requirements. The design includes a metal-to-metal seal for high-pressure and temperature applications, a durable vent screw that prevents leakage, and easy operation even in confined spaces. Its construction allows for long-term durability and minimal maintenance, providing safe and accurate operation for critical oil and gas instrumentation systems.

The Monoflange Single Body Double Block and Bleed Valve combines two isolation points and a vent in a single compact body, providing safe and reliable isolation in oil and gas and process systems. It features a ball isolation mechanism for leak-proof shut-off and a needle drain to safely vent the cavity between the isolation points. This design is particularly suitable for instrument or gauge isolation, chemical injection, sampling, and piping interface applications, where compact size and reduced leak paths are critical.

It's monoflange construction reduces weight, footprint, and the number of potential leak points compared to traditional multi-valve assemblies. The valve accommodates sizes from 1/2” to 2” and pressure classes from 150 to 2500, with both reduced and full bore options to suit different process requirements.

Manufactured from high-quality materials including SS 316, SS 316L, Duplex, Super Duplex, Hastelloy, Inconel, and Monel, the valve can be supplied with NACE-compliant materials for corrosive environments. All units are designed, tested, and certified in accordance with EEMUA 182, API 6D, ISO 17292, and ASME B16.34 standards and are factory tested to ensure reliable dual isolation and controlled cavity venting.

The Square Body Needle Valve Female x Female is engineered for precise flow control in high-pressure fluid systems commonly found in the oil and gas industry. Its design features a robust square-shaped body, which provides stability during installation and operation, reducing the risk of leaks and mechanical stress. The female x female configuration allows the valve to connect two female-threaded pipes or instrumentation components directly, eliminating the need for additional adapters and simplifying system layout.

The valve operates with a fine-threaded stem that provides smooth, accurate regulation of fluid flow, enabling controlled start, stop, and throttling functions. A metal-to-metal body bonnet seal ensures reliable sealing at high pressures and temperatures, while the back-seated stem and self-centering tip deliver consistent, leak-free shutoff.

These valves are suitable for a range of applications, including instrumentation, process monitoring, sampling, and control systems, where precise flow control and reliable operation are critical. The square body design also facilitates easy wrench access and torque application, making installation and maintenance straightforward in complex piping arrangements.

The HDI 2522 Choke Position Indicator System is a 4-inch solid-state electronic device used to precisely monitor the position of chokes in oil and gas operations. It provides position readings in 1% increments from fully closed (0%) to fully open (100%). The system supports a variety of choke types by interfacing with linear, rotary, or retractable potentiometers, making it adaptable to different choke designs commonly used in the industry.

This indicator eliminates the need for pneumatic air lines traditionally used for position sensing, improving reliability and reducing maintenance requirements. The gauge features a liquid crystal display (LCD) with both a numeric readout and an analog bar graph for quick visual interpretation of choke position. It includes a low battery indicator to ensure continuous operation.

The system is battery powered with a field-replaceable 3.6 Vdc power pack rated for one year of continuous operation. The internal battery powers the gauge electronics but not optional 4-20mA output loops. The 2522 supports up to two additional slave gauges for remote position displays, allowing flexible monitoring setups across control rooms.

Its robust, impact-modified polycarbonate/PBT alloy case is UV stabilized and sealed with gaskets to protect the electronics. The device operates within a temperature range of -40°F to 176°F (-40°C to 80°C) and is suitable for harsh oilfield environments.

Installation is straightforward, with recommended cable lengths up to 1,500 feet between the gauge and potentiometer, and customizable cable options available to fit specific site needs. Each system is factory matched and serialized, supplied with a signed calibration certificate, ensuring accuracy to within ±1% full scale.

Overall, the 2522 system provides a reliable, accurate, and low-maintenance solution for real-time choke position monitoring, enhancing operational control and safety in oil and gas production.

The Gauge Root Valve Female x Female connection is designed to control and isolate pressure instruments in process systems, particularly in oil and gas applications. It is rated for a standard working pressure of 6000 PSI, with the option for higher pressures upon request.

The valve is type-tested to MSS-SP-99 and designed according to ASME B16.34 for pressure-temperature ratings, ensuring reliable performance under demanding conditions.

The valve features a metal-to-metal body and bonnet seal, providing high-pressure and temperature sealing without the need for O-rings. It can operate in temperatures from -50°C to 230°C, with graphite sealing available for applications up to 500°C. The stem has a backseat for added security, and a self-centering, non-rotating tip ensures consistent shutoff and leak-free performance.

The packing is located below the stem threads, isolating the threads from process media, and the gland retainer is easily adjustable for maximum packing stability. The valve includes a removable T-handle for low-torque operation and a dust cap to prevent contamination. All valves are factory-tested with nitrogen at 1000 PSI to verify seat and packing leakage, with a maximum allowable leak rate of 0.1 sec/min.

Materials can be supplied to meet NACE MR 01-75 standards, and heat code traceability is provided. Additional tests, including vibration, temperature, and helium, are available on request. This design ensures long-lasting, reliable operation while protecting connected instruments and maintaining safety in high-pressure systems.