The HDI 3300 Temperature Gauge System is an intrinsically safe, battery-powered electronic temperature measurement device commonly used in oil and gas operations requiring precise temperature monitoring. Typical applications include high-pressure nitrogen pumping, geothermal and mud-based drilling, well control manifolds, flare stacks, and bulk liquid storage.

The system consists of a digital gauge display, sensor assembly, and interconnecting cable. The sensor, usually a Resistance Temperature Detector (RTD), is housed in a durable stainless steel case with various mounting options like 2-inch Male NPT, hammer unions, or flanges, allowing flexible installation near the temperature source.

The display features an LCD with numeric and analog bar graph outputs, providing temperature readings with 0.1-degree resolution and ±0.5% full-scale accuracy over a range of -50 to 150°C (-50 to 300°F). Users can switch between Celsius and Fahrenheit. It includes 4-20mA and 0-1 VDC output options for integration with remote monitoring, data logging, or control systems, and supports external power inputs.

Designed for ease of maintenance, the system is field-repairable with a replaceable battery pack. The sensor and display are factory-matched and calibrated, requiring recalibration if components are replaced. The gauge fits standard 6-inch panel cutouts and supports multiple mounting patterns. Cable lengths are customizable up to 200 feet or more.

The system operates reliably in temperatures from -40°C to +70°C and is certified for hazardous environments, with a rugged stainless steel sensor housing to withstand harsh field conditions.

The 3300 is well-suited for environments requiring precise, continuous temperature monitoring, including high-pressure drilling, well control, and fluid storage applications. Its intrinsically safe design provides dependable operation in hazardous locations without compromising safety. The solid-state electronics and durable construction reduce maintenance and downtime, while versatile mounting options allow placement close to the measurement point for accurate readings. Featuring clear numeric and bar graph displays along with remote output capabilities, the system supports timely decision-making and integrates easily with larger monitoring setups, enhancing process control and operational safety in demanding conditions.

The Double Block & Bleed Valve – Flange x Flange – Ball x Ball with Needle Drain is a high-performance isolation and venting solution designed specifically for oil and gas applications. This valve combines two independent ball isolation valves and a centrally located needle drain valve within a single, compact body, ensuring reliable double isolation and safe pressure relief or venting.

Manufactured in compliance with ASME B16.34, API 6D, and ISO 17292 standards, it offers assurance of global quality and safety benchmarks. The design accommodates line sizes ranging from ½” to 2”, with pressure ratings from Class 150 up to Class 2500, making it suitable for both standard and high-pressure operations.

The flange x flange connections provide secure installation and easy integration into piping systems, while the ball x ball configuration guarantees tight shut-off. The needle drain allows for controlled venting, sampling, or pressure equalization, enhancing operational safety and efficiency.

The valve is well-suited for critical applications such as pipeline isolation, meter calibration, instrumentation, and maintenance operations in oil and gas facilities. Its compact, space-saving design reduces potential leak paths compared to conventional multi-valve assemblies, lowering installation costs and improving reliability.

The Ball Valve Lever Operated 3-Way Female × Female Side Entry is a high-performance valve designed to control or divert fluid flow in oil and gas piping systems. Its 3-way configuration allows flow to be directed between multiple pipelines, making it ideal for applications such as flow diversion, sampling lines, injection systems, or process line bypasses.

The valve supports split flow and is suitable for pressures up to 6000 PSI (maximum 10000 PSI on request) and temperatures from –40 °F to 450 °F (–40 °C to 232 °C).

The female × female connections enable secure inline installation without the need for male fittings, simplifying assembly and reducing potential leak points. The valve features a floating ball design for seat wear compensation, ensuring consistent, leak-proof shut-off under high-pressure conditions.

It is manufactured and tested to ASME B16.34 standards, pressure-temperature rated to ASME B31.3, and type-tested to MSS-SP-99, providing verified performance and reliability in industrial environments.

Operation is efficient and reliable with a quarter-turn lever, allowing fast control with low torque. The internally loaded stem with shoulder prevents blowout, enhancing safety, while replaceable seats and packings extend service life. Fire-safe designs and optional compliance with NACE MR0175 standards are available, and heat code traceability ensures material verification.

Built for demanding industrial environments, the valve is suitable for a wide range of oil and gas applications where flow control, diversion, and durability are critical.

The Gauge Root Valve Male x Female with Lagging Extension is designed for controlling and isolating pressure instruments on pipelines where insulation is applied. The lagging extension allows the valve handle to extend above the insulation, ensuring operators can access and operate the valve safely without removing or damaging the insulation. This design maintains the integrity of the insulated pipeline while providing reliable valve operation.

The valve is manufactured to ASME B16.34 standards and meets ISO 9001, PED, and ATEX requirements, ensuring quality and compliance for industrial and oil and gas applications. It is rated for a standard working pressure of 6000 PSI and can be supplied for higher pressures upon request. The temperature range of the valve spans from -50°C to 230°C, with higher temperature options available with graphite sealing. A metal-to-metal body bonnet seal provides high-pressure and high-temperature sealing without the need for O-rings.

The valve features a back-seated stem for added security, a self-centering non-rotating tip for consistent shutoff, and a simple adjustable gland retainer for stable packing. The rolled stem threads and mirror-finished stem through the packing allow smooth operation, reduce packing wear, and provide long-lasting performance. The removable “T” handle and dust cap on the stem further enhance ease of use and protection.

This valve is particularly suitable for applications where pipelines are insulated, allowing for accurate gauge measurement, safe operation, and minimal disruption to insulation.

The 2 Valve Manifold T Type – Pipe to Flange 1/2” Female NPT is designed to provide a reliable and compact solution for connecting impulse lines to pressure transmitters and gauges. This manifold allows operators to safely isolate instruments from the process for maintenance, calibration, or testing, without the need to shut down the system. The T-type configuration features two valves that control flow to and from the instrument, enabling efficient block, bleed, and vent operations.

The pipe-to-pipe design ensures a direct connection to the piping system, which reduces potential leak points and simplifies installation. It is suitable for high-pressure applications, with a standard working pressure of 6000 PSI and options available for higher pressures. The manifold is built with a metal-to-metal body and bonnet seal for enhanced durability and temperature resistance, with materials that can comply with NACE MR 01 75 standards for corrosion resistance.

Additional features include a removable T-handle for low-torque operation, self-centering non-rotating stems for consistent shutoff, and a dust cap to prevent contamination. Packing is positioned below the stem threads to isolate the threads from the process media, and the stem’s rolled threads provide smooth operation and long life. The manifold is 100% factory tested for leakage and performance, ensuring reliable operation in critical oil and gas applications.