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7" Mech-1 Single Grip Mechanical Set Packer for 20-26 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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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.
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Electric Submersible Pump ESP Packer – 7" – 3,500 PSI
The 7" ESP Packer is a single-mandrel, dual-bore, hydraulic-set production packer set in place using hydraulic pressure applied through the tubing. The dual-bore configuration includes a pass-through section that allows the electric cable to reach the ESP pump below the packer while maintaining isolation between the tubing and the annulus, enabling reliable deployment and operation of the ESP system for artificial lift in oil and gas wells.
The packer has bi-directional, case-carburized barrel slips that anchor it securely against well pressures from both above and below, preventing movement during operation. It can be retrieved with a straight upward pull on the tubing string and is available in both straight-pull and cut-to-release configurations to suit different well conditions.
The packer has a nominal size of 7" and fits 7" casing weighing 26–32 PPF or 7-5/8" casing weighing 55.3 PPF. The outer diameter is 5.970", and the main bore inner diameter is 2.992". The assembly allows up to five feed-through lines for electric cables or injection lines, and the total length is 125".
The body is made from L80 material with HNBR elastomer seals, rated for pressures up to 3,500 PSI and temperatures from 70°F to 300°F. Connections include a 3-1/2", 9.2 PPF VAM TOP box at the top and a 3-1/2", 9.2 PPF VAM TOP pin at the bottom. The release weight is 68,800 lbs. The packer meets API Validation Grade V3 and Quality Level QL1 standards, providing reliable performance under standard service conditions.
These attributes make the ESP packer reliable for high-load applications, adaptable to various completion designs, and efficient in facilitating ESP deployment in oil and gas wells.
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Bigbore Wireline Retrievable Surface Controlled Subsurface Safety Valve 4.5 inch
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
3” Sleeve Style Gas Blowoff Valve
The Blowoff Valve is a 3-inch sleeve-style gas blowoff valve designed for use in aero-derivative industrial gas turbines. Its primary function is to isolate gas fuel during turbine shutdowns or emergency events, helping prevent overspeed conditions and damage caused by uncontrolled combustion.
This valve features a solenoid-pilot actuation system and operates with either 24 VDC or 95–140 VDC electrical input. It is designed with a 3-inch outlet flange and built entirely from stainless steel materials to ensure durability and compliance with NACE standards for sour gas environments.
Performance characteristics include a 110 millisecond full-stroke opening time and 1 second full-stroke closing time, meeting the rapid response requirements necessary for turbine protection. The valve is capable of withstanding heat soak temperatures up to 400°F, allowing it to function reliably in high-temperature turbine enclosures.
For safety in hazardous environments, the blowoff valve is certified to CE-ATEX Group IIA, Category 3, Zone 2, T3, supporting its use in oil and gas facilities with potentially explosive atmospheres.
This valve is often used in redundant pairs to provide dual isolation capability, increasing system reliability. Its application is critical to turbine safety systems, ensuring that fuel flow can be quickly and reliably shut off when required.
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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.
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High Density Fibre cable splicing
Enabling Seamless Connectivity through High-Density Fiber Cable Splicing at Nulux Network Solutions In the interconnected world of the oil and gas industry, where vast swaths of data traverse through networks, orchestrating the symphony of myriad operations, Nulux Network Solutions establishes itself as the maestro, ensuring every note, i.e., data byte, flows seamlessly, securely, and efficiently. The Core of Energy Sector: Data Transmission Navigating through the contemporary oil and gas sector necessitates not just the flow of energy, but the incessant, uninterrupted, and secure transmission of data. Nulux, proffering state-of-the-art products, solutions, and services across the comprehensive energy value chain, takes the lead in facilitating this vital data flow. Our commitment extends beyond providing robust solutions - we forge a pathway toward a more sustainable future, infusing every facet of your operations with technology that ensures your data travels not only with speed but also with uncompromised security. Nulux’s High-Density Fiber Cable Splicing: Where Technology Meets Excellence Fiber optic communication stands out as a linchpin in the modern digital world, especially within the realms of the oil and gas sector. Amidst the vast landscapes, both onshore and offshore, where operations unfold, ensuring that data connects every operational node is pivotal. Here, our High-Density Fiber Cable Splicing service comes to the forefront as a beacon of technological excellence and operational efficacy. Enhanced Connectivity: Our high-density fiber cable splicing ensures that your operations are interlinked with a network that offers enhanced, unfaltering connectivity, even in the most challenging terrains and under stringent conditions. Bandwidth Prowess: Harness the power of expanded bandwidth, facilitating the swift flow of large volumes of data across your operational network, ensuring every decision is backed by real-time data. Robust and Reliable: With a focus on durability and reliability, our fiber cable splicing ensures your network withstands the challenges, providing a robust platform for data transmission. Crafting Futures with Sustainable Data Management In the sprawling domains of the energy sector, where sustainability is progressively becoming a cardinal focus, enabling operations that are not only efficient but also eco-conscious is paramount. Our High-Density Fiber Cable Splicing embodies this principle, ensuring your data management is not only optimal but also leans toward sustainability. Navigating Through the Digital Terrain Together At Nulux, we do not merely offer a service; we extend a partnership. A partnership wherein your aspirations for operational efficiency, data security, and sustainable practices are realized through our technological solutions. Our High-Density Fiber Cable Splicing is more than a service – it is a commitment to ensuring your data flows through a network that is as steadfast, secure, and efficient as the operations it facilitates. Conclusion In a world where data permeates every operational stratum, ensuring it flows through a network that epitomizes reliability, security, and efficiency is crucial. Navigate the intricate digital landscapes of the oil and gas industry with Nulux, where your data is transmitted through networks forged from technological excellence and a commitment to sustainability. Join hands with Nulux Network Solutions, and let’s traverse through the digital journey towards a sustainable, data-driven future together. Because at Nulux, your data is not merely transmitted; it is cared for, safeguarded, and facilitated through a network where every byte is crucial in crafting a sustainable future. Let's illuminate the path towards a robust, interconnected, and sustainable operational future, together. 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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FH Hydrostatic Retrievable Packer
The FH™ is the industry-standard, hydrostatic-set and shear-release single-string retrievable packer. It can be used in the following applications: production, injection, and zonal isolation; single-string selective completions or dual-string completions with multiple packers; deviated wells or other applications when rotation for installation or removal is not beneficial; when it is beneficial to displace and set packers after the well is flanged up; when testing the tubing string before packer setting or to independently set and test individual packers in multiple packer completions is beneficial. The FH packer is hydraulically activated by applying tubing pressure against a plugging device below the packer. The packer requires only straight pull to release. The FHL™ is the large-bore version of the FH packer. Features, advantages and operational procedures are the same as those for the FH packers Accessories A tubing-plugging device must be positioned below the packer for actuation: E™ hydraulic-trip sub (Product Family No. H79928); CMU(D)™ sliding sleeve (Product Family Nos. H81079 and H81080) with blanking plug; Baker Hughes low-control seating nipple with blanking plug; hydraulic-setting devices (Product Family Nos. H46921, H79928 and H75917) View Details
5.5 inch Depthstar Surface Controlled Subsurface Safety Valve
Unlike other TRSVs, the DepthStar valve functions completely independent of well pressure; therefore, it is able to operate at consistently low hydraulic pressures, making it an ideal solution for deepwater completions. The DepthStar® tubing-retrievable safety valve (TRSV) is a revolutionary concept in the realm of surface controlled subsurface safety valves. Previously, solutions to wellbore isolation of the piston required additional seals and/or gas-charged chambers where their reliability is heavily dependent on elastomeric seals and the permanent, long-term containment of a dome charge. The DepthStar valve, through the use of a revolutionary magnetic coupler, allows for positioning the hydraulic actuator completely out of the tubing wellbore. By repositioning the hydraulic actuator outside the tubing wellbore, the DepthStar valve becomes the world’s first 100% metal-to-metal (MTM) safety valve that contains no moving seals within the tubing wellbore. This reduction in seals combined with an intrinsically simple design makes the DepthStar TRSV inherently reliable. The DepthStar TRSV operates with a low operating pressure, making it an ideal solution for deep-set applications. Features » No moving seals exposed to the tubing wellbore » 100% MTM sealing within the tubing wellbore » Less than 5,000-psi maximum valve opening capability regardless of setting depth or pressure » Minimized number of body connections » Proven MTM, non-elastomer hydraulic actuator » Isolated flow tube *information referenced from supplier catalog. View Details
Cement Truck for delivery of constuction concrete in high reliability environments
The cement truck has a drum that turns while the truck is moving to keep the concrete agitated and in a liquid state until it’s ready for delivery to the right location. Inside the drum is a multi-purpose blade and reversing the blade then allows the concrete to be lifted out of the drum. View Details
MC Injection Safety Valve 3-1/2 inch
MC (flapper-type) injection valves are used in injection wells to automatically shut-in the tubing string when injection stops or flow reverses. MC injection valves are spring-loaded, wireline-retrievable valves with large bores. The MC injection valves also feature sealing areas that are out of the direct flow path. These valves are designed to be held open by injection pressure for fluid passage. If injection flow becomes static or reverses for any reason, the spring and/or reverse flow causes the valves to close. These valves are designed to remain closed until pressure differential across the valves is equalized and injection is resumed. Applications » Injection wells Features » MC valves have sealing areas that are out of the direct flow path *information sourced from manufacturer View Details
Tubing Hanger Coupling - 4 ½” to 2 7/8”
The 4 ½ x 2 7/8” Tubing Hanger Coupling is a specialized connection component used in oil and gas wellhead systems to join two different sizes of upset tubing—4 ½-inch and 2 7/8-inch. This size combination is commonly selected when there is a need to transition from a wider tubing hanger profile to a smaller production string, without significantly restricting flow or compromising mechanical strength. The slightly larger 2 7/8” production tubing allows for greater internal flow area than smaller alternatives, making this configuration well-suited for completions that aim to support moderate to high production rates.
The coupling is designed with a union nut mechanism, which enables installation without rotating the Christmas tree or disturbing other surface equipment. This simplifies operations, especially in space-limited or sensitive surface environments. Both the top and bottom threads of the coupling can be manufactured to meet specific customer requirements, ensuring compatibility with a range of tubing string designs. Additionally, the coupling is threaded to accommodate a back pressure valve, offering an important safety feature by allowing well pressure to be managed during maintenance or pressure control procedures.
Constructed from high-grade steel and compliant with API standards, the 4 ½ x 2 7/8” Tubing Hanger Coupling offers high durability, corrosion resistance, and the mechanical integrity required for challenging downhole conditions. By supporting a secure, pressure-tight connection between tubing sizes, it plays a key role in maintaining well integrity and operational efficiency in various oil and gas production scenarios.
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2 9/16" Coiled Tubing Hanger - 10M Pressure Capacity
The 2 9/16” 10M Coiled Tubing Hanger is used to suspend coiled tubing during well intervention and workover operations in high-pressure environments. It is rated for a working pressure of up to 10,000 psi and is typically installed as part of the wellhead assembly to maintain well control during live operations.
Coiled tubing (CT) is a continuous length of small-diameter steel pipe deployed into a well without the need for threaded connections. It allows operators to perform various tasks—such as cleaning out debris, stimulating production zones, or running diagnostic tools—without removing existing production tubing. This makes CT a common method for non-invasive well maintenance.
The hanger supports coiled tubing sizes from 1” to 1¾” outer diameter. It connects to the surface system using standard API 6B or 6BX flanges. A wireline entry sub is included, which serves two functions: it guides wireline tools into the tubing and provides a secondary annular seal to help control pressure and prevent tubing movement.
This component is part of the broader coiled tubing unit and is required to safely manage tubing and tool access while maintaining pressure integrity. It is typically used in wells where continuous intervention work is needed without shutting in the well, especially in high-pressure or deeper formations.
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ESP Straight Pull 7" HS Packer
The Ballycatter Model WC-ESP Straight Pull 7” Packer is a hydraulic-set production packer built for ESP completions in 7” casing, offering secure wellbore isolation and efficient ESP deployment. Its pass-through section ensures uninterrupted power delivery to the ESP unit, while the bi-directional slips anchor the packer against pressure fluctuations and tubing movement. Designed for high-pressure and high-temperature wells, its single-piece mandrel construction and Acner Array Packing Element provide exceptional durability and sealing reliability.
The WC-ESP Straight Pull 7” Packer is set hydraulically by pressurizing the tubing against a plugging device, locking the packer in place for long-term performance. The straight pull retrieval mechanism enables fast and hassle-free removal, reducing intervention time and operational costs. Compatible with all major cable pack-off or feed-thru devices, this packer is a versatile, high-performance solution for ESP completions in medium-sized casing applications.
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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
Onshore Electric Line Services
Revolutionizing Wellbore Diagnostics with InWaTec Combined's Onshore E-Line Services In the world of oil and gas exploration and production, knowledge is power—and power lies in the data. At InWaTec Combined, we understand that the foundation of effective well servicing is the precision and reliability of information obtained from deep within the Earth. That's where our Onshore Electric Line (E-Line) services come into play, a game-changer in the realm of wellbore diagnostics. An E-Line is, in essence, an electric cable capable of performing extraordinary tasks. Lowered into the wellbore, this lifeline serves as a crucial conduit between the heart of the well and the watchful eyes of our engineers. Its primary function is to transmit data regarding wellbore conditions, a task it performs with exceptional efficiency and accuracy. The brilliance of the E-Line service lies in its simplicity and its capability. As it descends through the geological layers, the e-line gathers critical data through logging activities, painting a clear and comprehensive picture of the well's status. This information is not just data; it is a narrative of the well's health, productivity, and potential. Our E-Line services are not merely about data collection; they are about enabling informed decision-making that can lead to enhanced production efficiency, increased safety, and minimized environmental impact. With precise information, interventions can be smarter, quicker, and more effective, leading to a significant reduction in downtime and operational costs. InWaTec Combined's commitment to excellence in E-Line services is unwavering. We invest in cutting-edge technology and the continuous training of our specialists to ensure that our clients receive the most reliable and advanced diagnostic services available. We're not just service providers; we're partners in your quest to unlock the full potential of your assets. In a sector where every decision counts, InWaTec Combined's Onshore Electric Line services stand as your assurance of precision, reliability, and insight. Let us illuminate the depths of your wellbore with data that drives success. View Details
HDI 2100 Pump Stroke Counter System
The HDI 2100 Pump Stroke Counter System is an electronic device designed to monitor mud pump performance in oil and gas drilling operations by accurately counting and displaying the number of strokes and stroke rates of up to four pumps simultaneously. Mud pumps play a critical role in circulating drilling fluids (mud) through the wellbore, and monitoring their operation is essential to maintain drilling efficiency, detect malfunctions, and ensure safe operation.
This system provides real-time stroke data updated every second, allowing operators to track pump activity precisely. It consists of a stainless steel control head with an LCD display, a power pack, cables, and sensors (either microswitch or proximity types). The control head can be mounted on a control panel either from the front or back, offering flexibility for installation in existing drilling consoles.
The internal quartz crystal oscillator guarantees accurate stroke counting without drift, meaning the system does not require regular recalibration, reducing maintenance needs. The system is powered by a sealed 3.6V battery designed to last approximately 18 months under continuous operation. Field-replaceable processor boards simplify repair and troubleshooting without needing to replace the entire unit.
Operating in harsh environments common to both land and offshore drilling, the 2100 features a sealed stainless steel case and durable piezoelectric switches for long life even under high vibration conditions. It supports integration with Human Machine Interfaces (HMI) and Programmable Logic Controllers (PLC) through dual sensor outputs, enabling automated monitoring and control within drilling systems.
The stroke rate range covers 11 to 300 strokes per minute, with the total accumulated strokes displayed up to 65,535. Operating temperature ranges from -40°C to 100°C, making it suitable for a wide range of drilling environments. The system’s combination of rugged design, accurate measurement, and flexible installation makes it a reliable tool for real-time mud pump monitoring critical to maintaining drilling safety and operational efficiency.
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The LM2500 SAC Gas Turbine features a Single Annular Combustor (SAC) system—a type of combustion chamber where fuel and air are mixed and burned in a single, annular-shaped chamber. This design allows for efficient combustion with lower emissions and better fuel-air mixing. The turbine also supports dual-fuel capabilities, operating on both gas and diesel, offering greater flexibility in environments where fuel availability may vary.
Its open configuration is designed for accessibility, making maintenance tasks faster and more straightforward. This also allows for quicker engine removal or replacement, helping reduce downtime during service operations.
The LM2500 SAC is widely used across multiple industries, including electrical power generation, mechanical drive systems, and marine propulsion, due to its reliability, fuel flexibility, and proven performance in demanding conditions.
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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
The 3 Valve Manifold T Type – Pipe to Flange is specifically engineered to connect impulse lines to differential pressure transmitters, ensuring accurate measurement and reliable operation in industrial systems. Its T-type configuration features two block valves, one equalizer valve, and vent/test ports, allowing operators to isolate the transmitter, equalize pressure, and perform maintenance or calibration safely without disrupting the overall process. This setup is particularly useful in oil and gas, petrochemical, and process control applications where continuous operation is critical.
The manifold is built with 1/2” Female NPT Pipe to Flange connections set on 54mm (2-1/8”) centers, providing standardized and secure interfacing with pressure transmitters. High-quality construction includes metal-to-metal body and bonnet seals to withstand pressures up to 6000 PSI and temperatures ranging from -50°C to 230°C, with higher temperature ratings available using graphite materials. The design ensures leak-free performance through features such as self-centering, non-rotating valve tips, back-seated stems for added security, and rolled threads for smooth operation.
Additional operational benefits include easily adjustable gland retainers for maximum packing stability, removable T-handles for low-torque operation, and dust caps to protect actuating threads. Each valve is 100% factory tested, with traceable heat codes, and meets rigorous standards including ASME B16.34, MSS-SP-99, and ASME B31.3, making the manifold a robust and reliable solution for high-pressure industrial applications.
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The Hex Nipple Pipe Fitting with Male NPT threads is a precision component used to connect two female-threaded pipes or fittings in instrumentation and process control systems. The male tapered threads create a tight, leak-resistant seal when engaged with a corresponding female NPT connection, making it suitable for high-pressure and high-temperature applications commonly found in the oil and gas industry.
Manufactured from high-quality bar stock, the fitting provides strength and durability. Threads are capped and carefully packed to prevent damage during transport. The fitting is marked with the manufacturer’s name, size, material, and heat code for traceability. The design ensures proper thread engagement, reliable sealing, and smooth flow of fluids or gases.
These fittings meet or exceed ASME B1.20.1 standards for NPT threads and are rated according to ASME B31.3 for process piping, supporting safe and consistent operation in industrial environments. The male NPT design allows easy installation while maintaining a durable, leak-tight connection over the life of the system.
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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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Pressure and Temperature Memory Gauge Service
Enhancing Well Performance Insights with InWaTec Combined’s Memory Gauge Services At InWaTec Combined, we recognize that the quest for efficiency within the oil and gas sector hinges on the precision of data collected from the depths of the earth. This is precisely why we offer top-tier Pressure and Temperature Memory Gauge Services—a tool crucial for optimizing well productivity and ensuring operational integrity. Our electronic Memory Gauges are engineered to withstand the rigorous conditions of the downhole environment, providing accurate records of pressure and temperature. These robust instruments are the sentinels of the wellbore, vigilantly recording data that is vital for the evaluation of well performance and reservoir behavior. The utilization of Memory Gauges is central to gauging bottomhole pressures and temperatures across varying production rates. This data is instrumental in conducting build-up and drawdown tests, which are essential for assessing well productivity. With the insights garnered from these tests, operators can make informed decisions about stimulation, enhancement, and management of their well systems. InWaTec Combined’s Memory Gauges are not just instruments; they are the bearers of information that can significantly impact the economics of well operations. By accurately capturing downhole conditions, our gauges assist in pinpointing production issues, facilitating timely interventions that can forestall costly downtime and mitigate potential hazards. Our commitment at InWaTec Combined is to provide our clients with not just data, but solutions that translate into cost savings, increased safety, and environmental protection. Investing in our Memory Gauge Services means investing in the longevity and prosperity of your wells. Let us partner with you to harness the full potential of your reservoirs with precision, reliability, and expertise that you can trust. View Details
7" HP-6 Hydraulic Set High Angle Production Packer for 32-35 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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7" Mech-1 Single Grip Mechanical Set Packer for 26-29 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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The LM2500 exhaust system is an essential part of the LM2500 gas turbine, designed to handle the hot gases produced during turbine operation. Made from high-quality stainless steel, it is built to withstand extreme temperatures and harsh conditions, ensuring long-lasting durability.
The main purpose of the exhaust system is to safely direct these hot gases away from the turbine while reducing back pressure. Back pressure is the resistance the turbine faces when pushing out exhaust gases—lower back pressure means the turbine can run more efficiently, producing more power with less stress on its components.
This exhaust system is carefully designed to match the specific needs of the LM2500 turbine, ensuring smooth and efficient gas flow. It often works together with silencers or emission controls to release gases safely into the atmosphere while meeting environmental standards.
You would look for a new or replacement LM2500 exhaust system when installing a new turbine, upgrading to improve performance, replacing worn or damaged parts, or meeting updated environmental regulations. Choosing the right exhaust system is crucial because it directly affects the turbine’s performance, reliability, and maintenance costs. A well-designed exhaust system helps keep the turbine running efficiently and reduces the chance of costly downtime—critical factors for operations in oil and gas industries where reliability and efficiency are vital.
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Refinery capacity available for long term contracts in multiple geographic locations
Construction timelines for a modular refinery can range from 12 to 18 months from the start of a project to the first barrel of oil processed. It is time and cost efficient to utilise space in existing refining and storage facilities. View Details