Don't have an account? Join for free
Cart
The T5.4 thermocouple is a temperature-sensing probe used in LM2500 gas turbines to measure exhaust gas temperature (EGT). The label T5.4 refers to its specific position in the turbine\'s exhaust thermocouple array—zone T5 (turbine exhaust), sensor 4. These sensors are part of a system that monitors thermal conditions at multiple points in the exhaust stream.
This thermocouple operates in high-temperature environments, withstanding continuous exposure up to approximately 1100°C. It is built to maintain accuracy and reliability under the thermal stress and vibration typical in gas turbine applications.
T5.4 thermocouples are often used with flexible
harness systems. This allows operators to replace individual probes without removing the entire harness, improving maintenance efficiency and reducing downtime.
By providing real-time exhaust temperature data, the T5.4 thermocouple supports engine control, performance optimization, and safety monitoring in industrial gas turbine operations.
View Details
Surface-Controlled Safety Valves for 5” Casing Completion
Available sizes: 2 3/8”, 2 7/8”, 3 1/2”, 4”, 4 1/2”, 5”, 5 1/2'” and 7”.
The 5" SCSSSV (Surface-Controlled Subsurface Safety Valve) is used to shut in a well if there\'s a sudden loss of control—such as equipment failure or surface damage. Installed in the upper wellbore, it acts as a critical safety barrier, closing automatically if surface control pressure is lost. This helps protect people, equipment, and the reservoir from uncontrolled flow.
This valve is designed for 5" (127 mm) tubing and fits a 4.125" landing nipple. It’s rated for working pressures up to 5,000 psi and has a 2.38" internal bore, making it well-suited for high-rate production wells. The valve includes a self-equalizing feature that helps reduce pressure differences across the flapper during reopening, supporting smoother restarts and lowering mechanical stress.
Because it’s wireline-retrievable, the internal components can be serviced or replaced without pulling the tubing—saving time and reducing intervention costs. The flapper is machined from solid bar stock for durability, and the sealing surfaces are positioned out of the flow path when open, helping extend the life of the valve by reducing wear.
This size is typically chosen when both high flow capacity and reliable emergency shut-in protection are required.
View Details
9-5/8 inch Halliburton TR-SCSSSV SP
The SP™ tubing-retrievable safety valve (TRSV) is a single rod-piston non-elastomer flapper valve designed for hostile environments and extended life applications where ultimate reliability is required. Potential leak paths within the valve are minimized with the single rod-piston design. The piston achieves a metal-to-metal (MTM) seal at its uppermost and lowermost positions to seal well pressure from the control system. The SP valves incorporate flappers using spherical radius sealing surfaces that help greatly improve seal reliability. The spherical radius design provides full MTM sealing integrity. For applications where either the OD or ID is restrained, SP valves incorporate a contoured flapper. OD/ID relationships are improved by the contoured flapper design, which helps provide superior MTM sealing when compared to other forms of curved flapper technology. Applications » For applications requiring ultimate reliability and longevity, such as high-temperature/high-pressure, and subsea completions, or hostile well environments Features » Non-elastomer dynamic piston seals » MTM static seal at upper and lower piston positions » MTM body joints » Flow tube fluted guide » 100% MTM flapper » Concentric thrust bearing » Wiper ring on upper flow tube » Cleanout ports in flow tube’s upper end » Internal exercise profile » Flow tube shock absorber » MTM face seat at flow tube downstop » Setting depths to 9,000 ft (2743 m) » Critical components isolated from well debris with valve in open position » Area above flow tube free of solids buildup » Flow tube can be manipulated by slickline » Protected from high flow rate slam closures *information referenced from supplier catalog. View Details
Gas Check Valve for LM2500 Gas Turbine
The Gas Check Valve is a unidirectional valve used in LM2500 gas turbine systems to prevent the reverse flow of combustion gases into critical fuel and oil lines. Its primary function is to maintain the correct flow direction, ensuring that gases only travel toward the combustion chamber and not back into upstream components, where reverse flow could cause damage, safety risks, or system inefficiencies.
This check valve is engineered to operate under the high-pressure and high-temperature conditions typical of industrial gas turbine environments. It serves as a passive safety component, requiring no external power to function, and contributes to the overall reliability and integrity of the turbine system.
Commonly found in aero-derivative gas turbines used in oil and gas applications, the check valve is essential for maintaining proper system performance. Its inclusion in the turbine’s gas path helps ensure safe operation by minimizing the risk of combustion gas contamination in auxiliary systems.
View Details
3” Sleeve Style Hot Air Purge Valve
The 3-inch sleeve-style hot air purge valve is designed for aero-derivative industrial gas turbines to control the flow of hot compressor bleed air used in critical purge operations. This valve is normally closed and solenoid-pilot actuated, available in two- or three-inch sizes with elbow sleeve design. It operates on 24 or 125 VDC power and is constructed with ANSI B16.5 Class 600 raised face flanges.
Key specifications include a physical size of approximately 7.5 inches wide and 25 inches high, weighing between 84 to 91 pounds. It can handle line pressures up to 500 psig and actuation pressures between 80 and 125 psig. The valve is rated to operate in fluid temperatures ranging from 32°F to 1100°F (bleed air), and can withstand ambient temperatures between –20°F and 240°F with heat soak up to 400°F for 1 to 2 hours when de-energized.
Performance characteristics include a flow capacity of about 1.2 pounds per second of compressor bleed air with a maximum pressure drop of 0.70 psi across normal operating conditions. Internal leakage is minimal, rated at 0.00025 pounds per minute. The valve features a rapid full stroke response time of 1 second for both opening and closing cycles. It includes a position indicating switch and supports continuous duty operation.
Functionally, this valve plays a crucial role in purging residual fuels, such as diesel, from the combustor fuel lines when switching fuels, preventing deposits that can impair turbine performance or cause damage. The valve is often installed in pairs for dual redundancy to enhance safety and operational reliability. With millions of field operating hours, this design reflects high durability and precise control essential for efficient and safe turbine operation.
View Details
5 1/2" Mech-2 Double Grip Mechanical Set Packer for 15.5-20 PPF Casing
Ballycatter Mech-2 Double Grip Mechanical Packer
Available sizes: 5”, 5 1/2”, 6 5/8”, 7”, 9 5/8”, and 10 3/4”
The Ballycatter Mech-2 is a retrievable, compression-set double-grip mechanical packer designed for applications where pressure differentials from below are anticipated, such as combined stimulation and production operations. Featuring opposing slips above and below the packing element, the Mech-2 ensures secure bi-directional anchoring within the casing under varying well conditions.
The tool incorporates a built-in hydraulic hold-down system located beneath the face-seal bypass valve, enabling it to resist upward forces during stimulation treatments. A unique “Differential Lock” mechanism utilizes pressure from below the packer to actuate a balance sleeve, generating additional downward force that maintains bypass valve integrity and ensures a reliable seal.
The Mech-2 is mechanically set using a long-stroke mandrel and a J-slot mechanism. Once positioned, right-hand rotation and applied set-down weight close the bypass valve, engage both slip sets, and compress the sealing elements. The formation below the packer is then fully isolated and accessible only through the tubing. To retrieve, the tubing is raised the full packer length, automatically re-engaging the J-slot and reopening the bypass for pressure equalization and circulation.
With its dual-grip design, hydraulic hold-down, and controlled setting and release process, the Mech-2 offers a robust and dependable solution for demanding applications requiring secure annular isolation and enhanced downhole stability.
View Details
5" Mech-1 Single Grip Mechanical Set Packer for 11.5-15 PPF Casing
Ballycatter Mech-1 Single Grip Mechanical Packer
Available sizes: 5”, 5 1/2”, 6 5/8”, 7”, 9 5/8”, and 10 3/4”
The Ballycatter Mech-1 is a retrievable, compression-set mechanical packer designed for low-pressure production, casing integrity testing, and well intervention operations. Built with a long-stroke mandrel and a large bypass area, it allows unrestricted fluid circulation while running in hole. The bypass is controlled by a face-seal valve that automatically closes during setting, fully isolating the annulus once the packer is engaged.
Setting is achieved via a mechanical J-slot system using standard right-hand (or optional left-hand) rotation. Once the tool is positioned, applying set-down weight activates the slips and compresses the packing elements, sealing off the formation below. Retrieval is straightforward—lifting the tubing string engages the J-slot and reopens the bypass valve for safe circulation and recovery.
The Mech-1 features a rocker-type slip design for positive casing engagement and can be repositioned if required. Its straightforward operation, reliable sealing, and retrievability make it a practical solution for conventional production completions, casing leak diagnostics, and test operations where hydraulic setting is not required.
View Details
9 5/8" Mech-1 Single Grip Mechanical Set Packer for 47-53.5 PPF Casing
Ballycatter Mech-1 Single Grip Mechanical Packer
Available sizes: 5”, 5 1/2”, 6 5/8”, 7”, 9 5/8”, and 10 3/4”
The Ballycatter Mech-1 is a retrievable, compression-set mechanical packer designed for low-pressure production, casing integrity testing, and well intervention operations. Built with a long-stroke mandrel and a large bypass area, it allows unrestricted fluid circulation while running in hole. The bypass is controlled by a face-seal valve that automatically closes during setting, fully isolating the annulus once the packer is engaged.
Setting is achieved via a mechanical J-slot system using standard right-hand (or optional left-hand) rotation. Once the tool is positioned, applying set-down weight activates the slips and compresses the packing elements, sealing off the formation below. Retrieval is straightforward—lifting the tubing string engages the J-slot and reopens the bypass valve for safe circulation and recovery.
The Mech-1 features a rocker-type slip design for positive casing engagement and can be repositioned if required. Its straightforward operation, reliable sealing, and retrievability make it a practical solution for conventional production completions, casing leak diagnostics, and test operations where hydraulic setting is not required.
View Details
Firewater pump for offshore platforms and onshore installations
Fire pumps are an essential part of many water-based fire protection systems. They are used to increase the pressure (measured in psi and bar) of a water source when that source is not adequate for the system it's supplying. As part of a fire sprinkler system, a fire pump receives water from either an underground water supply or a water tank, lake, or reservoir, and is powered by electricity or diesel fuel. The high-pressure supplied by the pump distributes water through the sprinkler system and hose standpipes. Fire pumps are typically made with non-corrosive internal parts to avoid clogging due to corrosion. View Details
SP TR Surface Controlled Subsurface Safety Valve 6-5/8 inch
The SP™ tubing-retrievable safety valve (TRSV) is a single rod-piston non-elastomer flapper valve designed for hostile environments and extended life applications where ultimate reliability is required. Potential leak paths within the valve are minimized with the single rod-piston design. The piston achieves a metal-to-metal (MTM) seal at its uppermost and lowermost positions to seal well pressure from the control system. The SP valves incorporate flappers using spherical radius sealing surfaces that help greatly improve seal reliability. The spherical radius design provides full MTM sealing integrity. For applications where either the OD or ID is restrained, SP valves incorporate a contoured flapper. OD/ID relationships are improved by the contoured flapper design, which helps provide superior MTM sealing when compared to other forms of curved flapper technology. Applications » For applications requiring ultimate reliability and longevity, such as high-temperature/high-pressure, and subsea completions, or hostile well environments Features » Non-elastomer dynamic piston seals » MTM static seal at upper and lower piston positions » MTM body joints » Flow tube fluted guide » 100% MTM flapper » Concentric thrust bearing » Wiper ring on upper flow tube » Cleanout ports in flow tube’s upper end » Internal exercise profile » Flow tube shock absorber » MTM face seat at flow tube downstop » Setting depths to 9,000 ft (2743 m) » Critical components isolated from well debris with valve in open position » Area above flow tube free of solids buildup » Flow tube can be manipulated by slickline » Protected from high flow rate slam closures *information referenced from supplier catalog. View Details
Pipe Fittings Adapters Female to Male NPT are designed to connect a female-threaded pipe or fitting to a male-threaded pipe, providing a secure and leak-resistant joint. They are made from high-quality materials such as stainless steel, brass, and carbon steel to ensure durability and corrosion resistance in demanding environments.
The adapters are suitable for a wide range of pressures, with standard ratings up to 10,000 psi, and conform to industry standards including ASME B1.20.1, SAE AS71051, ISO 7-1, and ISO 228.
These adapters are used extensively in oil and gas applications, instrumentation, and process control systems where it is necessary to adapt different thread types or sizes. Their precise threading ensures maximum engagement and leak-tight connections, making them reliable for high-pressure or critical systems.
Available in sizes ranging from 1/8 inch to 1 inch, these adapters support efficient and safe connections in pipelines, instrumentation panels, and chemical or petrochemical systems. Their compact design allows for installation in tight spaces without compromising performance, and they are free from burrs or debris to maintain smooth flow paths.
View Details
5" HP-6 Hydraulic Set High Angle Production Packer for 11.5-15 PPF Casing
Ballycatter HP-6 High Angle Production Packer
Available sizes: 4 1/2”, 5”, 5 1/2”, 6 5/8”, 7”, 7 5/8”, and 9 5/8”
The Ballycatter HP-6 is a compact, hydraulically set production packer designed for low to medium-pressure applications in high-angle and horizontal wells. With a short body length and no tubing movement required for setting, the HP-6 is ideally suited for tight-radius deviations, stacked completions, and coiled tubing operations. It can be run in single or multiple packer installations with sequential setting in a single trip, reducing rig time and complexity.
Rated to 7,500 psi and tested in Q125 casing, the HP-6 features a straight-pull release mechanism that is fully isolated from hydraulic pressure, allowing low shear-out force even under full differential pressure. Built-in bypass ports equalize pressure during retrieval, ensuring smooth release and reducing swab risk. The tool can be set using rig pumps, and its economical design allows for easy redress and reuse. Optional rotational release is available for added flexibility in challenging retrieval scenarios.
Engineered with materials and elastomers for hostile environments, the HP-6 delivers dependable performance in offshore operations, high-angle wells, and cost-sensitive completions requiring reliability without unnecessary complexity.
View Details
Close Nipples Male NPT are precision pipe fittings designed to connect two female NPT threaded pipes in oil and gas and process systems. Their short, compact design allows installation in tight spaces while providing a reliable and leak-tight connection. Manufactured from high-quality materials such as stainless steel, brass, or carbon steel, they offer corrosion resistance and durability for demanding industrial environments.
The fittings are produced with burr-free internal surfaces to ensure smooth flow and minimize pressure drop. All threads are tapered in accordance with ASME B1.20.1 and SAE AS71051 standards, allowing secure engagement and leak-free sealing when used with appropriate thread sealants. Close Nipples are suitable for instrumentation lines, pipelines, and other fluid or gas transfer systems where precise alignment and compact installation are required.
They are rated for pressures up to 10,000 PSI, depending on material and size, and are marked with manufacturer, size, material, and heat code for traceability. The fittings are thoroughly cleaned to remove oils, grease, and loose particles, ensuring safe use in sensitive applications. Their simplicity, high-pressure capability, and space-saving design make them a reliable choice for critical connections in oil and gas operations.
View Details
5 1/2" HP-6 Hydraulic Set High Angle Production Packer for 14-20 PPF Casing
Ballycatter HP-6 High Angle Production Packer
Available sizes: 4 1/2”, 5”, 5 1/2”, 6 5/8”, 7”, 7 5/8”, and 9 5/8”
The Ballycatter HP-6 is a compact, hydraulically set production packer designed for low to medium-pressure applications in high-angle and horizontal wells. With a short body length and no tubing movement required for setting, the HP-6 is ideally suited for tight-radius deviations, stacked completions, and coiled tubing operations.
It can be run in single or multiple packer installations with sequential setting in a single trip, reducing rig time and complexity.
Rated to 7,500 psi and tested in Q125 casing, the HP-6 features a straight-pull release mechanism that is fully isolated from hydraulic pressure, allowing low shear-out force even under full differential pressure.
Built-in bypass ports equalize pressure during retrieval, ensuring smooth release and reducing swab risk. The tool can be set using rig pumps, and its economical design allows for easy redress and reuse. Optional rotational release is available for added flexibility in challenging retrieval scenarios.
Engineered with materials and elastomers for hostile environments, the HP-6 delivers dependable performance in offshore operations, high-angle wells, and cost-sensitive completions requiring reliability without unnecessary complexity.
View Details
WellStar Tubing Retrievable Surface Controlled Subsurface Safety Valve 2-7/8 inch Halliburton
The WellStar® tubing-retrievable safety valve (TRSV) is a general production, hydraulically operated, downhole TRSV. The rugged hydraulic actuator of the WellStar safety valve provides durability and isolates the internal workings from well fluids through its unique construction. The metal-to-metal (MTM) sealing integrity in the body joints and closure mechanism places it in a premium valve category while featuring an economical price. Proven through years of installations, the simple, compact design enhances the valve’s overall reliability and provides for trouble-free operation. Applications » General production completions Features » Simple, compact design » Complete MTM well containment in the closed position (body/seat connections and flapper) » MTM flapper sealing (no resilient seal required) » Unique hydraulic actuation (single-piece piston/ flow tube) » Hydraulic chamber construction isolates the majority of the internal valve components and exposes them to clean hydraulic fluid » Positive debris barrier at both ends of flow tube in full open position » Maximized piston area and spring force » Flow tube construction prevents well solids and debris from settling on top of the piston *information referenced from supplier catalog. View Details
HP-3 Hydraulic Set High Angle 6 5/8" 20-24 PPF Packer
Ballycatter HP-3 High Angle Packer
Available sizes: 5 1/2”, 6 5/8”, 7”, and 9 5/8”
The Ballycatter HP-3 is a hydraulic-set packer engineered for high-angle and deviated well applications, where conventional mechanical or wireline-set tools are not feasible. This packer is particularly suited for single or multi-zone completions, offering flexible deployment in complex well trajectories.
Unlike mechanical systems, the HP-3 requires no tubing movement to set. This enables full well control throughout the operation, as the tubing can be landed and the wellhead installed prior to circulating or displacing fluids.
Key Features:
• Reliable Setting Mechanism: Utilizes dual balanced pistons—one actuates downward to anchor the bi-directional slips, while the other moves upward to compress a three-element packing system. This simultaneous action ensures a secure set and pack-off.
• Three-Element Seal: The packing system uses dual-durometer rubber elements to ensure long-term sealing integrity across a range of downhole conditions.
• Slips & Housing: One-piece, bi-directional slips are housed in a shear-pinned chamber, protected by a full-diameter guide to prevent damage during deployment.
• Release Options: Features a dual-method release system:
• Straight pull via shearing of pre-set screws.
• Right-hand rotation (approx. 8 turns), followed by straight pull.
• Equalization & Retrieval: Built-in equalizing valve opens automatically during release to balance pressures and enable safe retrieval. A large-diameter bypass within the mandrel allows fluid to flow during retrieval, reducing swab effects on the packing elements.
The HP-3 is engineered for reliability, operational flexibility, and full well control—making it a practical choice for complex wellbore geometries.
View Details
In oil and gas well operations, the 2 ½” Tubing End Locator plays a critical role in confirming the exact depth at which production tubing terminates within the wellbore. Accurately identifying the tubing endpoint is essential during various well intervention activities, including maintenance, workovers, and the installation or retrieval of downhole tools and equipment.
During operations such as setting packers, deploying plugs, running logging tools, or performing fishing jobs to recover stuck equipment, precise knowledge of tubing length ensures that tools are positioned correctly. This prevents accidental over-pumping or tool deployment beyond the tubing into the open hole section of the well, where damage to equipment or tool loss can occur.
The 2 ½” Tubing End Locator is designed specifically to fit tubing with an outer diameter of approximately 2 ½ inches. It features a compact maximum outside diameter of around 1.750 inches, allowing it to pass easily within the tubing without causing obstruction. The tool employs a spring-loaded finger mechanism that activates mechanically upon reaching the tubing bottom. This signal does not rely on electronic sensors or depth measurement devices, making the tool highly reliable even in harsh downhole environments where electronics may be compromised by pressure, temperature, or fluid conditions.
Standardized threaded connections on the tool—typically a 15/16 - 10 UN pin on the top and a 1 - 11 1/2 NPT box on the bottom—enable it to be seamlessly integrated into a wide range of intervention toolstrings. These common connection types ensure compatibility with existing downhole equipment and facilitate quick assembly and deployment.
Manufactured from high-strength alloy steel or similar materials, the tubing end locator is built to withstand typical downhole conditions, including high pressure, elevated temperatures, and corrosive fluids commonly found in oil and gas wells. Its purely mechanical design minimizes maintenance requirements and reduces the risk of failure compared to electronic alternatives.
This tool is particularly valuable in wells where tubing length may have changed due to wear, repairs, or previous interventions, offering an essential measure of control and confidence in complex well environments.
View Details
Electric Submersible Pump (ESP) systems for oil and geothermal applications
The electrical submersible pump is an efficient and reliable artificial-lift method for lifting moderate to high volumes of fluids from wellbores with volumes rates from 150 B/D to as much as 150,000 B/D (24 to 24,600 m3/d). A complete ESP system can be designed and supplied to meet the requirements from individual wells. The ESP system is comprised of; intake, pump, motor, seal section, cable, feed-through, surface electrical and any sensors, software and variable frequency drives (VFD's). ESP's can be used onshore, offshore, subsea, or in relatively high gas saturations. View Details
SSV 4.51 inch for Water Injection Wells
The WI retrievable injection valve is a high-performance, high-flow rate injection valve. High throughput is achieved by a unique valve configuration that minimizes turbulent and potentially erosive flow. Operation is not dependent on a specific flow rate, pressure, or setting depth, thus negating the need for adjustment over time. The valve incorporates a metal-to-metal valve and seat energized by the combination of an integral spring and well pressure acting from below. The WI injection valve can be deployed on a wireline lock or through-tubing pack-off device, providing flexibility not available with alternative injection valve systems. As a result of the simple design with fewer parts, redress and repair costs are considerably lower than those for other injection valve systems. Applications The WI injection valve is primarily used in water injection applications as an alternative to conventional tubing or wireline-set safety valves. The valve is also commonly used as a retrofit solution in water injectors in which a tubing to annulus leak has occurred. The valve can be deployed below the leak point to eliminate uncontrolled annulus pressure increases when the injection stops. Features » Compatible with all known lock systems » Dedicated designs to suit Halliburton EB0 intervention packers » Enhanced internal flow profile » Simple design and construction » Flow-loop testing performed to establish pressure drop versus pump rate *information referenced from supplier catalog. View Details
TIG AC/DC 301 Pulse Welding Machine
Discover Precision Welding with the TIG AC/DC 301 Pulse! At Canaweld, we take pride in providing welding solutions that are powerful, intelligent, and reliable. The TIG AC/DC 301 Pulse is no exception – a welding machine that exemplifies precision and performance. Designed to meet the diverse needs of professionals in the oil and gas industry, this welding powerhouse offers unparalleled versatility and ease of use. Versatile Welding Capabilities The TIG AC/DC 301 Pulse is a welding marvel, capable of both AC and DC TIG welding, including stainless, mild steel, and aluminum, as well as Stick welding. Whatever the application, our advanced TIG welding parameters enable you to fine-tune the welding process, delivering exceptional results every time. From intricate welding tasks to heavy-duty projects, the AC/DC 301 Pulse rises to the occasion, giving you the flexibility to tackle any welding challenge. Power Meets Intelligence Built with intelligence and efficiency in mind, the AC/DC 301 Pulse features digital control of all welding parameters. This intuitive interface empowers you to tailor the welding settings precisely to your needs, ensuring flawless welds with ease. Additionally, the easy-to-use pulse mode, complete with the "easy-pulse" function, simplifies your welding experience, providing maximum control over your welds. Durable and Portable Design Designed for the rigors of the oil and gas industry, the TIG AC/DC 301 Pulse boasts a compact and innovative design. The shock-proof fiber compound front panel and control panel protection safeguard the machine against accidental impact, ensuring long-lasting performance even in challenging environments. The robust handle integrated into the chassis makes it easy to carry, offering mobility and convenience when moving between welding tasks. Efficient and Reliable Performance With a high duty cycle, the AC/DC 301 Pulse proves to be a workhorse, perfect for production TIG welders who demand the best all day, every day. Its exceptional TIG welding characteristics, paired with automatic compensation for power fluctuations, guarantee consistent and reliable performance in every weld. Unmatched Control and Customization Take control of your welding with the TIG AC/DC 301 Pulse. Special TIG torches enable remote control of welding parameters directly from the torch, giving you the flexibility to fine-tune your welds while working. Furthermore, optional software customization offers added features and tailored settings, enhancing your welding experience even further. Experience the Canaweld Advantage As with all Canaweld products, the TIG AC/DC 301 Pulse is backed by our commitment to quality and customer satisfaction. We stand by the durability and reliability of our welding machines, offering a comprehensive 3-year warranty for your peace of mind. Elevate your welding capabilities with the TIG AC/DC 301 Pulse. Discover precision welding like never before and let Canaweld be your partner in achieving excellence in every weld. Embrace the power of intelligence with the TIG AC/DC 301 Pulse - Welding Perfected! View Details
FXE 2-7/8 inch Wireline Retrievable Surface Controlled Subsurface Safety Valve
The FXE wireline-retrievable flapper valve, which is normally closed, is held open by hydraulic control pressure from the surface. The valve operates on a hydraulic piston principle. To open, hydraulic pressure slightly higher than the well pressure is applied to move the piston downward. This pressure unseats the secondary seat, allowing pressure to enter through equalizing ports. Then, as additional hydraulic pressure is applied to the piston, it continues downward movement, pushing the flapper open. The flapper hinge assembly is designed such that the force on the piston is not applied directly on the hinge pin. Upon loss of hydraulic pressure in the control line, the valve’s large spring serves to lift the hydrostatic head of the control fluid. The flapper spring is designed to close the valve when the piston moves up past the flapper. Opening Prong Nose Seal The FXE valve uses the valve housing as the downstop for the opening prong. This metal-to-metal (MTM) interface is designed to prevent flow from passing between the valve housing and the opening prong. The MTM interface isolates the flapper and seat from fluid flow while the valve is open. This design creates an MTM interface with the full force exerted by the hydraulic piston, minus the spring compression force, holding the two metal faces in contact. Radius of Curvature at Flow Entrance Halliburton conducted a study with various curvatures on the entrance to the valve. The study tested abrasive fluids flowing through different test subs and examined the resulting wear patterns. As a result, an optimum radius of curvature was determined and implemented on the valve housings of all wireline-retrievable safety valves. Applications » General production completions Features » Equalizing-type flapper closure » Solid construction flapper made from bar stock » Spherical radius seat on flapper improves seal reliability » Sealing and seating surfaces are out of the well production flow path when valve is in the open position *information referenced from supplier catalog. View Details
Offshore Electric Line Services
Navigating the Depths: InWaTec Combined's Advanced Offshore E-Line Services In the challenging and complex world of offshore operations, precise and dependable wellbore data transmission is not just beneficial—it's crucial. At InWaTec Combined, our Offshore Electric Line (E-Line) services are the cornerstone of our well diagnostics and intervention solutions, designed to conquer the unique demands of the offshore environment. An E-Line, in its simplest form, is a robust electric cable. Yet, when deployed by InWaTec Combined, it becomes an integral part of offshore operations, a sophisticated tool that delves into the wellbore's mysterious realms. Our E-Line services excel in transmitting real-time data about the wellbore's conditions back to our offshore experts, ensuring that critical decisions are made with the utmost information at hand. Our E-Line's forte lies in its versatility and utility in conducting a plethora of logging activities essential for evaluating the well's integrity, formation properties, and hydrocarbon potential. These activities enable a comprehensive understanding of the well, providing insights necessary for optimizing production and ensuring the safety of offshore operations. The offshore environment poses unique challenges with its unpredictable nature and the sheer scale of operations. InWaTec Combined's E-Line services are designed to be resilient and adaptable, capable of withstanding the high pressures and corrosive elements found in the deep sea. Our commitment to innovation means that our E-Line technology is continuously evolving, pushing the boundaries of what is possible in offshore data gathering. By choosing InWaTec Combined's Offshore E-Line services, our clients receive more than just data—they gain a strategic advantage. With our advanced technology and expert analysis, we provide the insights necessary to maximize well performance, extend the life of offshore assets, and enhance the overall safety and efficiency of offshore operations. In an industry where the margin for error is slim and the consequences significant, InWaTec Combined stands as a beacon of reliability and excellence. Our Offshore E-Line services are not just a component of your operations—they are a pivotal part of your success story, deep beneath the waves. View Details
AV Annulus Safety Valve 9-5/8 inch
The AV annulus safety valve is a fully retrievable high performance annulus safety system packer with integral annulus safety valve. The system provides annular bypass through a hydraulically operated poppet valve. The AV system is run in a single trip in conjunction with a setting sub that can be shifted for hydraulic tubing-set or can be alternatively control-line set from surface. Applications The AV system is used for controlling annulus fluids in gas lift applications, monitoring of annulus pressures in critical situations, and in one- or two-trip annulus safety system completions. The completion can be run to depth and set with the surface tubing hanger flanged up. It can also be used in completions in which spacing out against a subsurface tubing hanger is required (i.e., no elastomeric expansion joint necessary). The tailpipe can be left in either tension or compression. The system can be used where high tensile loads and pressure differentials exist with the completion anchored in unsupported or poor condition casing. Features » Interlock system prevents preset » Tubing test facility while running » Hydraulically set in one trip on tubing with no mandrel movement » Annulus-mounted release mechanism » Internal/external components rotationally locked together » Element anti-extrusion system » One-trip system allows multiple control-line bypass » Premium thread connections — no elastomeric seals tubing to annulus » Primary release method is applied tubing pressure using dedicated punch release tool on slickline » Secondary release method available with simple tubing cut *information collected from manufacturer literature View Details
Fiber Optic Splice on Connectors
Solidifying Your Fiber Optic Networks with Nulux’s Splice-On Connectors In the vast and dynamically intricate world of the Oil and Gas industry, where every drop of energy and every byte of data pulsates through extensive networks, ensuring stability, reliability, and durability in communication is pivotal. In this domain of seamless connectivity, Nulux Network Solutions, proudly presents its stellar service of Fiber Optic Splice-On Connectors, a vital link in fortifying and enhancing your fiber optic networks. Unveiling the Potency of Splice-On Connectors Splice-on connectors employ the refined technology of fusion splicing to facilitate the installation of standard fiber optic connectors even amidst the rigors of the field. In essence, they provide exceptionally low-loss terminations, becoming a fundamental component, particularly in sprawling and multifaceted fiber optic networks where every decibel of loss is critical. Not just a technological solution, splice-on connectors, when adeptly utilized in the right environments, endow the network with a termination that is not only highly durable but can also stoically endure the harsh and often unyielding conditions, so synonymous with the oil and gas sector. Nulux’s Splice-On Connectors: A Synthesis of Technology and Reliability Nulux Network Solutions, steeped in its unwavering commitment to providing products, solutions, and services across the entirety of the energy value chain, seeks to uplift and support the Oil and Gas sector by ensuring that every bit of your data, every communication, is transmitted with absolute integrity. Choosing Nulux for your Fiber Optic Splice-On Connectors means: Embarking on Sustainable Connectivity: Our services go beyond mere installations and solutions; we are your partners in charting a course towards a sustainable future, ensuring that every connection, every splice, is a step towards enhanced operational and environmental efficacy. Optimizing Network Performance: Our splice-on connectors, renowned for their low-loss terminations, ensure that your complex networks are bolstered with optimal performance, minimizing loss and maximizing data transmission integrity. Enduring Harsh Realities: The rugged durability of our splice-on connectors assures that even amidst the most austere and challenging conditions, your terminations remain steadfast, ensuring continuous, unimpeded connectivity. Forge Ahead with Confident Connectivity In an industry where data and communication flow with an undercurrent of criticality akin to the resources being extracted, processed, and transmitted, Nulux Network Solutions stands as a beacon of reliable, sustainable, and superior quality connectivity solutions. Join us in a journey where every splice is a testament to robust, unyielding, and impeccable connectivity, ensuring that every bit of data courses through your networks with precision and reliability, even in the most stringent of environments. Navigate through the pulsating veins of your operations with Nulux’s Fiber Optic Splice-On Connectors – because when it comes to connecting the vital lifelines of your operations, we ensure that every connection counts. View Details
SCSSSV – 2 3/8” Surface-Controlled Safety Valve
Available sizes: 2 3/8”, 2 7/8”, 3 1/2”, 4”, 4 1/2”, 5”, 5 1/2'” and 7”.
The 2 3/8" Surface-Controlled Subsurface Safety Valve (SCSSSV) is designed to shut in a well in the event of uncontrolled flow caused by equipment failure or damage. Installed in the upper wellbore, it provides emergency closure of the producing conduits to isolate the wellbore if there is a failure or damage to surface production control systems.
This valve uses a self-equalizing, surface-controlled, flapper-type mechanism that closes reliably when hydraulic control pressure is lost. The flapper is made from solid bar stock and has sealing surfaces located outside the flow path when open, which helps reduce erosion and extends the valve’s service life. It is rated for working pressures up to 10,000 psi.
The valve fits 2 3/8" (60.33 mm) tubing and is installed in landing nipples with seal bore options of 1.710" or 1.875". Valve internal diameter options are 0.62" or 0.75", allowing selection based on flow requirements. The wireline retrievable design permits servicing or replacement of major valve components without pulling the entire tubing string, reducing intervention time and operational disruption.
This valve is typically used in wells with smaller tubing sizes that require dependable emergency shut-in capability. Its design balances reliability, durability, and ease of maintenance to provide effective well control in a variety of well conditions.
View Details
The HDI 9000 Choke Console System is an independently powered control console designed for critical well control operations in oil and gas drilling. It integrates multiple individual electronic gauge systems to provide precise monitoring of key parameters such as choke position, pump strokes, pressure, temperature, and mud gas separator status. This modular system typically includes pressure gauges, choke position indicators, pump stroke counters, mud gas separator monitors, and temperature gauges, all operating on a common platform.
Powered by an internal battery pack, the 9000 Console operates independently from rig power, ensuring reliable performance even in power loss scenarios. The system is designed for harsh drilling environments, offering robust, intrinsically safe components housed in durable enclosures. Its modular nature allows customization to meet specific client requirements, including sensor types, communication outputs, and display configurations.
The console supports long cable runs—up to 1500 feet—to accommodate various rig layouts and sensor placements. Displays provide clear visibility from distances up to 50 feet, with low power consumption enabling battery life between 12 and 18 months under continuous operation. Maintenance is simplified through field-replaceable components and minimal calibration needs.
Overall, the 9000 Choke Console System enhances operational safety and efficiency by consolidating critical monitoring functions into a centralized, battery-powered, and customizable platform suitable for both land and offshore drilling environments.
View Details
HDI 2522 Choke Position Indicator System
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.
View Details
Wireline Retrievable Surface Controlled Subsurface Safety Valve 5-1/2 inch Bigbore
The manufacturer has applied the same stringent testing used on its maximum reliability tubing-retrievable safety valves (TRSV) to its BigBore™ wireline-retrievable safety valve (WLRSV). This valve offers the durability and reliability of TRSVs through metal-to-metal (MTM) sealing of the contoured flapper, enhanced body connections, and debris isolation. The contoured flapper provides a large ID compared to other valve designs, while providing enhanced flapper sealing. Another significant feature of this valve is its ease of on-location servicing. The construction of the upper end of the valve provides for easy access to the valve’s external packing. Once the lock is removed, the packing retainer sleeve can be removed and serviced. The savings made possible by an enlarged ID, enhanced performance, and ease of service have made it an excellent choice for replacing equipment currently installed in existing completions. Applications » New completions » Replacement of existing WLRSVs to provide increased ID and reliability Features » MTM sealing contoured flapper closure with large ID » High-strength rod-piston actuation » Dual-sealing minimized body connections » Enhanced debris isolation through MTM interface of flow tube/bottom sub » Radius of curvature at flow entrance » Equalizing feature available » Designed for easy field servicing » Setting depths to 9,000 ft (2743 m) *information referenced from supplier catalog. View Details
Subsea X-mas Tree for subsea oil and gas developments
Subsea Christmas Trees, both standard and horizontal are available in current stock and can be shipped worldwide. The subsea x-mas tree is designed for the highest level of reliability with manual rov overrides and retrievable chokes these trees are ready for installation in the most demanding environments. If you require subsea trees, consider the time and cost savings of utilising our existing inventory. View Details
MS-52 Multistage Steam Turbine
Elevate Your Energy Solutions with the Kessels MS-52 Multistage Steam Turbine: Unleash Power, Precision, and Performance In the ever-evolving realm of steam turbine technology, Kessels Steam Turbines stands as a beacon of innovation and excellence. For the oil and gas industry, where power and precision are paramount, our MS-52 Multistage Steam Turbine is the ultimate solution – engineered to surpass expectations and redefine industry standards. Dominating Back Pressure Turbines Back pressure turbines, available in both single-stage and multi-stage configurations, serve as the vital link between boiler units and process steam headers. These turbines are the backbone of industries that demand a copious amount of steam, revolutionizing the utilization of steam and electricity generation. The Art of Efficiency At the heart of the MS-52 Multistage Steam Turbine is the hallmark of back pressure turbines: the straight-back pressure design. This engineering marvel ensures the seamless harnessing of exhaust steam, matching process demands with unparalleled precision. Every unit of electrical power generated is consumed as per the process steam demand, making it a pinnacle of efficiency. Applications Without Limits Our MS-52 turbine is not just a machine; it's a versatile workhorse ready to excel in various applications: Drive Applications: Whether in the oil and gas sector, sugar mills, sugar fibrizor systems, shredder drives, pump drives, or beyond, our turbine delivers power where it's needed most. Power Generation Applications: Take a giant leap towards sustainability by utilizing our turbine to generate electricity. It powers generators with clean and efficient steam energy, reducing your carbon footprint. Bleed Back-Pressure Steam Turbines At Kessels, we understand that adaptability is key. Our MS-52 turbine comes equipped with built-in bleed points, enabling uncontrolled extraction of steam within a medium pressure range. This feature proves invaluable when low-volume steam demands and high tolerance for pressure variations are the order of the day. Kessels turbines seamlessly blend the best of both bleed and back-pressure mechanisms. Extraction Back-Pressure Steam Turbines For industries with substantial process steam demand volumes and zero tolerance for pressure variations, our steam turbines with controlled extraction vents come to the forefront. Operating efficiently under intermediate pressure levels, these turbines ensure a steady and reliable steam supply that your operations can depend on. The Kessels Advantage Choosing Kessels Steam Turbines is more than a business decision; it's a choice of a partner committed to your success. Our MS-52 Multistage Steam Turbine embodies our unwavering dedication to innovation, performance, and customer satisfaction. Key Benefits of the MS-52 Multistage Steam Turbine: Unparalleled Efficiency: Maximize steam utilization while minimizing waste. Reliability Redefined: Built with precision and rigorously tested to ensure uninterrupted operations. Unmatched Versatility: Adapt effortlessly to changing needs, be it for drive applications or sustainable power generation. A Greener Future: Harness steam power for electricity generation, reducing your environmental impact. Dedicated Support: Our team of experts is at your service, ready to assist with installation, maintenance, and troubleshooting. Empower Your Future with Kessels In the competitive world of the oil and gas industry, every advantage matters. Step into a future of efficiency, reliability, and sustainability with the Kessels MS-52 Multistage Steam Turbine. Contact us today to discover how our turbine can revolutionize your operations and lead you toward a future of success. Kessels Steam Turbines – Powering Progress, Powering You. View Details
Voice, data, and video Services
Revolutionizing the Oil and Gas Industry: Nulux’s Superior Voice, Data, and Video Services In the fast-paced, high-stakes realm of the oil and gas industry, communication is not just vital; it's the pivotal axis around which safe and efficient operations revolve. The seamless interchange of data, unerring voice communication, and accurate video services are instrumental in ensuring that engineering professionals manage operations, diagnose issues, and implement strategies effectively. Welcome to Nulux Network Solutions, where we fortify your operational proficiency with unparalleled voice, data, and video services through our top-tier copper cabling network installations. The Nulux Distinction: Bridging Robust Communication with Operational Excellence Nulux, a name synonymous with excellence in telecommunications and networking, brings forth two decades of unmatched experience, especially in the realm of distributed control system (DCS) network upgrades for industrial projects across North America. Our commitment to high-quality networks is not just an offering; it’s a promise delivered consistently across projects, ensuring your communication channels remain unerring, reliable, and perpetually facilitating optimal operations. Engaging Every Facet of Communication with Comprehensive Solutions In the industrial expanses where engineering professionals of the oil and gas sector helm complex operations, Nulux's services in voice, data, and video become the unerring channels that ensure: Voice Services: Enjoy crystal-clear, uninterrupted voice communications that enable precise correspondence across various facets of your operations, ensuring every directive and update is communicated flawlessly. Data Services: Facilitate the impeccable transfer of crucial data with our high-bandwidth, reliable copper networks, ensuring real-time data transmission, storage, and retrieval without a hitch, keeping your operations, analysis, and decision-making well-informed. Video Services: Implement seamless video communication and surveillance across your operations, enabling real-time monitoring, engagement, and management, thereby ensuring safety, operational control, and effective remote management. Why Copper Networks are Integral to Your Communication Channels Nulux not only delivers impeccable voice, data, and video services but does so by leveraging the myriad benefits copper networks offer, such as: High-Bandwidth Transmission: Ensure that your data, voice, and video communications are facilitated with speeds up to 10 Gbps, ensuring real-time communication and data transfer. Long-Term Reliability and Durability: Experience uninterrupted services with a network that withstands the tests of time and operational demands, ensuring your communication channels remain perpetually robust. Ease of Installation and Cost-Effectiveness: With a network that is not only economically viable but also easy to implement, your operations gain the benefit of a communication network that is both, financially and operationally, advantageous. Connect with Nulux: Your Ally in Unerring Communication At Nulux, we understand networks, but more crucially, we comprehend the imperatives of seamless communication, especially in the demanding operational landscape of the oil and gas industry. With a team that encapsulates experience, expertise, and dedication, your network is not merely an infrastructure; it’s a relentless force propelling your operations towards unbridled success and communication clarity. Ensure your voice is heard, your data is transferred, and your visuals are seen with unmatched clarity. Engage with Nulux Network Solutions today, and let’s craft a communication network that becomes the unwavering backbone of your operational success and excellence. View Details
The L type 2 valve manifold is a compact and reliable solution designed for connecting impulse lines to pressure transmitters or gauges in industrial systems. Its primary purpose is to allow safe and efficient measurement of process pressures while providing the ability to isolate, vent, or calibrate instruments without disrupting the process.
The L type configuration refers to the layout of the two valves, arranged in an L shape, which allows for simple and intuitive operation. This design enables the user to block the process pressure, bleed off trapped pressure, and perform calibration on static pressure transmitters or gauges. The arrangement minimizes installation space while ensuring clear and accessible operation.
Pipe to pipe manifolds are designed to connect directly to process lines using standard piping connections. This allows for straightforward integration with impulse lines and reduces the need for additional fittings. The manifold provides a secure and leak-free connection while maintaining easy access for maintenance, calibration, and testing of instruments. Overall, the L type 2 valve manifold combines compact design, operational simplicity, and high reliability for critical measurement applications.
View Details