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Surface Controlled Subsurface Safety Valve NE 2-3/8
The NE™ tubing-retrievable safety valve (TRSV) is a single rod-piston non-elastomer flapper valve designed for general production with enhanced reliability and long life. The valve includes the non-elastomer hydraulic actuator design from the highly reliable SP™ line of safety valves. Along with the metal-to-metal (MTM) body joints and closure mechanism, the actuator places this valve in the premium category while keeping costs economical. The simple, compact design enhances the valve’s overall reliability and provides for trouble-free operation. Applications » General production completions » Hostile well environments incompatible with elastomers Features » Non-elastomer dynamic piston seals » Simple compact design » 100% MTM well containment in closed position » Positive debris barrier at both ends of flow tube » No construction seals used in the lockout and communication system » Unique flow tube construction prevents debris from settling on top of flow tube *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
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
Capacitance Discharge Stud Welder CAD 101
Revolutionize Your Welding Experience with the Canaweld CAD 101 Stud Welding System! When it comes to precision and efficiency in stud welding, the Canaweld CAD 101 is a true game-changer. Harnessing the cutting-edge technology of Capacitor Discharge (CD) stud welding, this welding system offers unparalleled speed, accuracy, and versatility, making it the ultimate choice for welders in the oil and gas industry. The Power of Precision - Capacitor Discharge Stud Welding With a direct-current arc from a capacitor and weld times as quick as 1 to 6 milliseconds, the Canaweld CAD 101 delivers precision like no other. You'll achieve flawless welds without burn-through on the opposite side, even with very thin metals. Ideal for smaller diameter studs and pins, as well as non-standard materials, this system ensures accuracy in every weld. Unmatched Welding Capacity - Ready for Any Task The Canaweld CAD 101 boasts a full 3/8” (M10) welding capacity, making it a powerhouse in the stud welding world. Its compact design enables benchtop or automated applications with Canaweld's auto feed welding head, providing unmatched flexibility and convenience. Plus, it's compatible with any of Canaweld's hand guns, ensuring seamless integration into your welding process. Innovation at Its Core - Advanced Microcontroller Equipped with a cutting-edge microcontroller, the CAD 101 is continually up to date, delivering the latest in stud welding technology. The 15-pin subminiature interface allows for remote triggering, ready signals, and reload circuitry, making automation a breeze. Experience welding efficiency like never before with the CAD 101's industry-leading capacitance-to-weight ratio. The Canaweld Advantage - Unrivaled Features Take a look at the exceptional features of the Canaweld CAD 101: • Weld Range: Accommodates US Stud Size #6 – 3/8”, Metric Stud Size (M3-M10), Stud diameter 0.125″ – 0.375″ • Input Power 1~115/230, 50/60Hz (internally switchable) • 162,000uf Capacitance for powerful and rapid welds • Portable and Lightweight: Weighing only 37 lbs., it's easy to transport and use on-site • Microprocessor Controlled: Ensures precise and consistent welding performance • Remote Triggering: Added convenience for seamless operation • 3.5” Color Display: Easy-to-read and user-friendly interface • Programmable Pre-sets: Save your preferred welding settings for quick access • Resettable Weld Counter: Monitor and track your welding progress • Stepless Voltage Control: Achieve optimal welding settings with ease • Safety Shutdown: Provides protection in case of internal faults • Chuck Saver: Prevents double firing for flawless welds Embrace the Future of Stud Welding with Canaweld CAD 101! At Canaweld, we strive to empower welders with innovative solutions that excel in performance and efficiency. The CAD 101 exemplifies our dedication to excellence and commitment to meeting your welding needs. Upgrade your welding experience and achieve unmatched precision with the Canaweld CAD 101 Stud Welding System. Elevate your welding game with Canaweld - Your Partner in Welding Excellence! 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
The 6″ Butterfly Bleed Air Valve is designed to regulate the flow of compressed bleed air from the compressor section of large gas turbines, such as the LM2500. This valve uses a butterfly-shaped disc permanently attached to a robust shaft, allowing precise control over airflow to reduce pressure and temperature within the turbine system.
With an effective flow area of 19.1 square inches max, this valve accommodates higher volumes of bleed air, making it suitable for turbines with greater airflow requirements. It features a fast response time—less than 320 milliseconds for a full stroke—ensuring timely adjustments to changing operating conditions. The valve’s bearings are engineered for high cycle service, providing durability and reliability even under frequent opening and closing cycles.
The 6″ valve helps protect turbine components by managing thermal loads and maintaining optimal compressor performance, which in turn improves overall turbine efficiency and extends equipment life. It is commonly used in oil and gas applications where maintaining safe, efficient, and reliable turbine operation is critical. This valve also serves as a drop-in replacement in existing turbine systems, requiring no hydraulic or electrical modifications, simplifying installation and reducing downtime.
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Check Valve Poppet Type – Male x Female 1/2" NPT – 6000 PSI – ISO 9001
The 1/2" poppet type check valve with male × female NPT connections is designed to allow fluid flow in one direction while preventing backflow in oil and gas systems. Its poppet mechanism provides fast response and a positive seal under pressure, protecting pipelines, pumps, and equipment from reverse flow and pressure fluctuations.
The 1/2" size is suitable for medium diameter lines, instrumentation, sampling, and control applications where reliable uni-directional flow is required. Male × female connections enable secure inline installation and integration into existing piping systems without additional fittings, reducing potential leak points and simplifying system layout.
The valve has a standard working pressure of 6000 psi, with optional configurations up to 10000 psi. Selectable cracking pressures range from 1/3 to 25 psi, allowing precise adaptation to system requirements. Construction materials include corrosion-resistant SS 316, SS 316L, Duplex, Super Duplex, Hastelloy C276, Inconel 625, Monel 400, and Brass, ensuring durability in demanding 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 quality and material verification, and additional testing including vibration, temperature, and helium is available for critical applications requiring high reliability.
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7" Mech-1 Single Grip Mechanical Set Packer for 32-35 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.
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Slickline Swabbing Mandrel Assembly
Optimize Your Well Performance with HOCA Oil Tools' Swabbing Mandrel Assembly In the specialized field of downhole operations within the oil and gas industry, the demand for high-quality, efficient, and reliable tools has never been higher. At HOCA Oil Tools, we stand at the forefront of downhole innovation, providing our clients with advanced solutions designed to optimize well performance and enhance operational efficiency. One such innovation is our Swabbing Mandrel Assembly, a key component in maintaining well pressure and fluid levels. Introducing HOCA's Swabbing Mandrel Assembly: Precision and Efficiency Downhole The HOCA Swabbing Mandrel Assembly is engineered for optimal performance in fluid lifting and wellbore cleaning operations. Designed with the end-user in mind, our Swabbing Mandrels are built from high-grade materials to withstand the rigors of the downhole environment, ensuring durability and long-term service. Compatible with a variety of tubing sizes, our assemblies are tailored to meet the specific requirements of your well operations. Elevating Downhole Operations with HOCA Oil Tools At HOCA Oil Tools, we are committed to advancing the capabilities of the oil and gas industry through our innovative downhole solutions. Our Swabbing Mandrel Assembly is a testament to this commitment, offering a blend of precision, efficiency, and reliability that sets new standards for well performance and maintenance. Integrating HOCA’s Swabbing Mandrel Assembly into your downhole operations means investing in the future of your wells. Not only do our tools enhance operational efficiency, but they also contribute to the overall safety and sustainability of your operations. With HOCA, you're not just purchasing a tool; you're acquiring a partner in downhole success. Unlock the full potential of your downhole operations with HOCA Oil Tools. Experience unparalleled performance, efficiency, and reliability with our Swabbing Mandrel Assembly, and take the first step towards optimized well performance and operational excellence. Choose HOCA Oil Tools for your downhole needs and join the ranks of satisfied clients who have experienced the difference our solutions can make. Elevate your operations with the precision and quality of HOCA’s downhole solutions – where excellence meets innovation. View Details
9 5/8" HP-6 Hydraulic Set High Angle Production Packer for 40-47 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.
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HDI 3300 Temperature Gauge System
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.
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HDI 2200 Choke Position Indicator System
The HDI 2200 Choke Position Indicator System is a battery-powered, intrinsically safe solid-state electronic gauge designed to monitor choke valve positions in oil and gas operations with high accuracy. It displays choke position in 1% increments from fully closed to fully open (0% to 100%) using a three-digit numeric readout alongside an analog bar graph segmented into 101 divisions for both precise measurement and quick visual trend analysis.
The system interfaces with linear, rotary, or retractable potentiometers housed in stainless steel enclosures. This flexibility allows for straightforward adaptation across many choke configurations without the need for onsite customization. The sealed stainless steel housing and solid-state electronics enable the 2200 to operate reliably in harsh field conditions, including high vibration environments typical in land and offshore drilling.
Its compact display unit measures approximately 8 by 8 by 4 inches and weighs around 5 pounds. The system is powered by an intrinsically safe 3.6V DC battery pack, with a low battery indicator to ensure timely maintenance and uninterrupted operation. Field-repairable components minimize downtime and allow for easy servicing. The system supports dual sensors for integration with human-machine interfaces (HMI) or programmable logic controllers (PLC), enabling remote monitoring and automation. The 2200 system replaces traditional pneumatic indicators, eliminating the need for air lines and reducing maintenance complexity, while offering a simple calibration interface to facilitate setup and ongoing adjustments.
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The 5 Valve Manifold R Type – Pipe to Pipe is designed for high-pressure oil and gas applications where differential pressure transmitters or gauges need to be connected, calibrated, and maintained safely. This manifold provides two block valves, two equalizer valves, and one bleed valve in a single assembly, allowing operators to isolate the transmitter, equalize pressure between impulse lines, and safely vent pressure when required.
The R Type configuration is particularly suitable when multiple valve functions are needed in a compact layout. By combining all five valves in one manifold, it reduces the number of separate components, minimizes potential leak points, and saves installation space compared to using individual valves.
This manifold is ideal for environments where reliability and safety are critical, offering 6000 PSI standard working pressure, metal-to-metal sealing for high-pressure and temperature performance, and compatibility with NACE MR 01 75 materials. Its design ensures smooth operation, low torque handling, and long-term durability, making it the preferred choice for complex measurement and control systems in oil and gas operations.
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7 5/8" HP-6 Hydraulic Set High Angle Production Packer for 33.7-39 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.
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Bigbore 9-5/8 inch Surface Controlled Subsurface Safety Valve Wireline Retrievable
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
5 1/2" Mech-1 Single Grip Mechanical Set Packer for 13-15.5 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.
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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
Fuel Nozzle for LM2500 Gas Turbine
The 2-cup Fuel Nozzle is a precision-engineered component used in gas turbines, specifically in the oil and gas industry. Its primary function is to inject liquid fuel into the combustion chamber in a fine, atomized spray, allowing for optimal mixing with air and efficient ignition. This ensures stable combustion, better fuel efficiency, and reduced emissions—key performance factors in industrial turbine applications.
The “2-cup” design refers to the nozzle’s dual flow passages, which help balance fuel distribution across the combustion zone. This promotes more uniform flame stability and lowers the risk of hot spots that can cause thermal stress to the turbine hardware. The nozzle is typically used on “base” engines and is suited for continuous-duty operations.
The L47197P05 variant is known for its compatibility with LM2500 turbine configurations and is built to endure harsh operating environments. It features durable materials and a design that withstands high temperatures and pressures commonly found in oil and gas turbine systems.
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5 1/2" HP-6 Hydraulic Set High Angle Production Packer for 13-15.5 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.
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Solar Panel capable of providing power to typical industrial monitoring and control systems
A solar panel, or solar module, is one component of a photovoltaic system. They are constructed out of a series of photovoltaic cells arranged into a panel. They come in a variety of rectangular shapes and are installed in combination to generate electricity. Solar panels are comprised of several individual solar cells which are themselves composed of layers of silicon, phosphorous (which provides the negative charge), and boron (which provides the positive charge). Solar panels absorb the photons and in doing so initiate an electric current. The resulting energy generated from photons striking the surface of the solar panel allows electrons to be knocked out of their atomic orbits and released into the electric field generated by the solar cells which then pull these free electrons into a directional current. This entire process is known as the Photovoltaic Effect. View Details
2 9/16" Coiled Tubing Hanger, Rated 5M
The 2 9/16” 5M Coiled Tubing Hanger is a tool designed to securely hold coiled tubing in place during well operations where pressure can be high—up to 5,000 psi. It is built to support heavy coiled tubing and the equipment attached to it when performing tasks deep inside the well.
This hanger works with coiled tubing sizes of 1 inch, 1¼ inches, 1½ inches, and 1¾ inches in outside diameter, making it suitable for a range of tubing types used in different well operations. It connects to the wellhead using standard flanged connections.
A special feature of this hanger is its wireline entry sub. This part acts as an extra seal around the tubing to maintain pressure control in the well while allowing wireline tools to pass safely through the tubing. The wireline entry also prevents the tubing from moving upwards during operations, which helps protect the equipment and maintain well safety.
The hanger is powered by electricity, which supports reliable operation in the field. Overall, the 2 9/16” 5M Coiled Tubing Hanger helps keep the tubing stable, maintain well pressure, and allow tool access during important tasks like cleaning the well, stimulating production, or running diagnostic tools.
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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.
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Tubing Retrievable Surface Controlled Subsurface Safety Valve 2-7/8 inch 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
NE Safety Valve, Surface Controlled 4-1/2 inch
The NE™ tubing-retrievable safety valve (TRSV) is a single rod-piston non-elastomer flapper valve designed for general production with enhanced reliability and long life. The valve includes the non-elastomer hydraulic actuator design from the highly reliable SP™ line of safety valves. Along with the metal-to-metal (MTM) body joints and closure mechanism, the actuator places this valve in the premium category while keeping costs economical. The simple, compact design enhances the valve’s overall reliability and provides for trouble-free operation. Applications » General production completions » Hostile well environments incompatible with elastomers Features » Non-elastomer dynamic piston seals » Simple compact design » 100% MTM well containment in closed position » Positive debris barrier at both ends of flow tube » No construction seals used in the lockout and communication system » Unique flow tube construction prevents debris from settling on top of flow tube *information referenced from supplier catalog. View Details
HP-3 Hydraulic Set High Angle 6 5/8" 28-32 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.
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Off-Engine Electrical Cable Harness – E3/E17 for LM-Series Turbines
The E3/E17 off-engine electrical cables are designed for resilience in the toughest of applications. To protect the critical wiring components from exposure to harsh environmental conditions, these cables incorporate rugged materials and advanced protective features.
Used with LM2500 gas turbines, these cables are located outside the engine and serve as essential links between the turbine’s internal control systems and external instrumentation, control panels, and auxiliary equipment.
Built to withstand vibration, moisture, extreme temperatures, and chemical exposure, E3/E17 cable harnesses include stainless steel connectors, rubber or fluoropolymer over-molding, and electromagnetic interference (EMI) shielding to maintain signal integrity and durability.
The E3/E17 classifications indicate different cable configurations and connector types tailored for specific LM turbine system requirements. Both ensure reliable transmission of electrical power and control signals critical to turbine operation, safety, and performance monitoring.
Manufactured with custom materials and protective coatings, these cables comply with hazardous location standards such as ATEX and UL/CSA certifications. Their robust design provides long service life with minimal maintenance, supporting high fleet availability and operational reliability.
In oil and gas applications, where equipment is exposed to extreme environments and strict safety regulations, the E3/E17 off-engine cables offer dependable, durable connectivity. Their rugged construction and certification for hazardous locations make them ideal for maintaining safe, continuous turbine operation in demanding field conditions.
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HDI V9000 Virtual Choke Console System
The HDI V9000 Virtual Choke Console System is a PLC-based control and monitoring platform that provides a digital representation of the traditional hydraulic choke console used in oil and gas operations. It integrates Human-Machine Interface (HMI) technology with electronic joysticks, enabling operators to monitor and control choke valves both locally and remotely.
This system supports flexible configurations to meet client requirements, including various console layouts and customizable language options. It is designed to interface not only with standard choke control components but also with additional monitoring equipment such as gate valve position indicators, mud gas separator pressure monitors, and environmental sensors for riser and sub-sea temperatures.
By digitizing choke control, the V9000 enhances operational oversight, allowing for precise valve positioning and real-time status feedback. Its modular architecture permits scalability and adaptation to complex wellsite setups, supporting improved safety and efficiency. The system\'s data logging and reporting features facilitate compliance tracking and operational analysis, making it a comprehensive solution for modern well control management.
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S-KWIK Control Line and Cable Protector
Cross coupling protectors are essential tools used in the oil and gas industry during the installation of completions in oil and gas wells. These protectors provide a variety of benefits that make them a necessary investment for any oil and gas company. Protects Control Lines: Cross coupling protectors help protect control lines from damage that can be caused by the installation process, environmental factors, and other external factors. By providing an extra layer of protection, the control line can last longer and reduce the need for costly repairs or replacements. Prevents Fluid Contamination in Cables: Cross coupling protectors prevent fluid contamination by keeping debris and other unwanted materials out of electrical cables during installation. This is particularly important in the oil and gas industry where contamination can lead to significant safety risks, equipment damage, and production losses. Reduces Maintenance Costs: The installation of cross coupling protectors can help reduce maintenance costs. By protecting control lines and cables the completion is less likely to require maintenance or repair. This can result in significant cost savings over the long-term. Improves Efficiency: Cross coupling protectors help to improve the efficiency of the installation process. By providing a secure connection and preventing contamination, the installation process can be completed more quickly and with fewer re-work. This can help to reduce downtime and increase productivity. Enhances Safety: Cross coupling protectors enhance safety by reducing the risk of equipment failure and fluid contamination. This can help to prevent accidents and injuries, and ensure that the installation process is completed safely. The use of cross coupling protectors is critical to the successful installation of tubing in oil wells. They provide numerous benefits including protecting tubing joints, preventing fluid contamination, reducing maintenance costs, improving efficiency, and enhancing safety. By investing in cross coupling protectors, oil and gas operators can ensure the long-term success of their operations while improving their bottom line. View Details
LM2500+G4 SAC 50Hz CC 2x1 Gas Turbine
The LM2500+G4 SAC 50Hz Combined Cycle 2x1 is a high-performance gas turbine system designed for large-scale, high-efficiency power generation, particularly suited to the needs of oil and gas operations. This configuration links two LM2500+G4 gas turbines with a single steam turbine in a combined cycle layout—capturing waste heat from the gas turbines to produce steam and generate additional power. This approach significantly improves overall thermal efficiency while maintaining operational flexibility.
The Single Annular Combustor (SAC) with optional water injection helps the system meet emissions rules while keeping combustion stable and efficient. The LM2500+G4 improves on the previous +G4 model by increasing airflow, using better materials, and adding improved cooling. This allows it to produce about 10% more power without reducing the lifespan of critical hot parts. It can be equipped with either a two-stage or six-stage power turbine to fit different needs. Even with the higher power output, the +G4 keeps its modular, two-spool design, which makes maintenance easier and ensures reliable performance in many environments.
In the 2x1 configuration, the system delivers approximately 41% more power than a single gas turbine unit. The use of combined cycle technology ensures better fuel utilization, helping to reduce overall emissions and lower lifecycle operating costs.
The LM2500+G4 SAC 50Hz Combined Cycle 2x1 offers higher power, improved efficiency, and a flexible design, making it well-suited for large-scale oil and gas operations that demand reliable and efficient power generation. Its “50Hz” designation means the turbine is specifically optimized to supply electricity to grids operating at 50 cycles per second, ensuring seamless integration with regional power systems.
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