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6 5/8" HP-6 Hydraulic Set High Angle Production Packer for 24-28 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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Ultra High Density Power Supply for Subsea
Unleash Unrivaled Power: Ultra High Density Power Supplies for Subsea Exploration In the mesmerizing depths of the ocean, where the most critical subsea missions take place, a reliable and efficient power supply can be the difference between success and failure. We take pride in introducing our latest breakthrough innovation - the Ultra High Density Power Supplies. Designed to thrive in the most challenging subsea environments, our power supplies empower your ROVs and subsea equipment to achieve unparalleled performance, even at depths of up to 400 meters. Harness the Power of Innovation As pioneers in subsea robotics, we understand the unique demands of the underwater world. That's why we have poured our expertise and passion into crafting the Ultra High Density Power Supplies. These cutting-edge power solutions are engineered to deliver optimal performance while meeting the strictest safety and reliability standards. Power Up Your Subsea Missions With our Ultra High Density Power Supplies, you can unleash the full potential of your subsea equipment. Whether you are conducting deep-sea research, underwater inspections, or oil and gas exploration, these power supplies will be the backbone of your mission's success. Compact, Yet Powerful Size and weight are crucial considerations in subsea operations. Our Ultra High Density Power Supplies are meticulously designed to maximize power output while maintaining a compact and lightweight form factor. This ensures seamless integration with your existing ROV or subsea systems, allowing for more efficient deployment and operation. Built for the Depths Operating in the deep ocean is no easy feat. Our power supplies are rigorously tested and rated for depths of up to 400 meters, providing you with the confidence to tackle the most challenging subsea missions. No matter how extreme the conditions, our power supplies will deliver unwavering performance. Safety and Reliability Above All Safety is our top priority. Our Ultra High Density Power Supplies are engineered with advanced safety features, ensuring protection against voltage spikes, short circuits, and overloads. You can trust that your equipment and personnel are safeguarded during every underwater operation. The Advantage Our power supplies are the result of meticulous research, engineering expertise, and a passion for pushing the boundaries of what's possible beneath the waves. Experience the Future of Subsea Power Are you ready to take your subsea missions to new depths of success? Embrace the power of innovation with Ultra High Density Power Supplies. Whether you are an oceanographer, offshore engineer, or underwater explorer, our power supplies will be the driving force behind your mission's achievements. Explore the Depths Join the ranks of leading subsea explorers. Our Ultra High Density Power Supplies are the key to unlocking the full potential of your subsea ventures. Contact us today to elevate your underwater capabilities and embark on a journey of endless possibilities beneath the waves. 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
7" HP-6 Hydraulic Set High Angle Production Packer for 20-26 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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Needle Valves Integral Bonnet Series – Tube OD – 6000 PSI – ASME B16.34 / MSS-SP-99 / ASME B31.3
Integral Bonnet Tube OD needle valves feature a one-piece construction where the bonnet is integrated with the valve body, eliminating welded joints and providing enhanced strength and safety. This design ensures durability and reliable performance in high-pressure applications, minimizing the risk of leaks or failures.
The Tube OD connections allow secure attachment to tubing while providing precise flow control, making these valves ideal for instrumentation lines, pressure measurement, and process control systems. The design supports consistent, repeatable shut-off and smooth operation, even under demanding conditions.
These valves are particularly suitable for oil and gas applications where high-pressure resistance, leak-free performance, and ease of maintenance are critical. Additional features such as rolled stem threads and mirror-finished stems reduce wear, lower operating torque, and extend service life, ensuring dependable operation in both standard and critical environments.
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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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The Ballycatter Model WC-ESP Packer – Cut to Release Version is a high-performance hydraulic-set production packer designed for completions requiring an electric submersible pump (ESP) below the packer. This single-mandrel, dual-bore packer features a pass-through section, enabling an electric cable to run through the packer, delivering power to the ESP for efficient fluid production.
The packer is hydraulically set by applying tubing pressure against a plugging device, and once engaged, it is mechanically locked in place with an internal slip mechanism. The bi-directional barrel slips secure the packer against well pressures from above and below, ensuring reliable performance in demanding well conditions. Additionally, it is equipped with NPT chemical injection ports and a vent valve port, providing operational flexibility for chemical treatment and pressure regulation.
One of the standout features of the WC-ESP Packer is its Cut to Release function, which enhances retrieval efficiency and simplifies intervention operations. Unlike conventional packers that rely solely on straight pull release, this cut-to-release mechanism ensures controlled retrieval even in wells where high overpull may be a concern. This design reduces the risk of damage to the tubing string and downhole equipment, improving operational safety and reducing intervention costs. The field-adjustable straight pull release allows for on-site modifications, ensuring adaptability across different well environments. The single-piece mandrel construction and Acner Array Packing Element further enhance its durability, making it suitable for hostile downhole conditions while maintaining a reliable seal.
The WC-ESP Packer is furnished with a universal 1.900” API NU connection for penetrators, ensuring compatibility with all major cable pack-off or feed-thru devices. Its bi-directional barrel-slip design provides high loading capacity, ensuring a uniform transfer of load while maintaining structural integrity. With single-trip capability, operators can efficiently set the packer while minimizing rig time and operational complexity.
Whether deployed in standard or high-pressure, high-temperature wells, the Ballycatter WC-ESP Packer – Cut to Release Version offers unparalleled reliability, ease of retrieval, and superior performance for ESP completions.
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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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Wireless Communication Tower Construction
Soaring Above Communication Challenges: Nulux Network Solutions Pioneers in Wireless Tower Construction for the Oil and Gas Industry Exploration, extraction, and operational activities in the oil and gas industry are intrinsically bound to the formidable environments - remote locations, vast distances, and oftentimes, challenging terrains. Navigating through these physical barriers to establish a stable, secure, and scalable communication network necessitates innovative and robust solutions. This is where Nulux Network Solutions ascends, bridging the communication divide with unparalleled expertise in Wireless Communication Tower Construction. Pillars of Communication: Why Tower Construction Matters The landscape of the oil and gas sector demands the creation of a network that is not only extensive but also exceptionally reliable. Communication towers become the veritable backbone, linking disparate operations, ensuring data flow, and maintaining a coherence that is vital for smooth functionalities and decision-making processes. Constructing these towers, especially in the arduous terrains that characterize the oil and gas industry, requires a blend of engineering expertise, practical experience, and an acute understanding of wireless communication nuances. Nulux’s Distinction: A Synthesis of Experience and Innovation With an illustrious history in designing and implementing an array of wireless systems and infrastructures, Nulux has emerged as a leader in wireless tower construction and rigging, ensuring that the tapestry of communication across your operations, be it P2P or Multipoint networks, remains uninterrupted and secure. Adaptivity and Scalability: As your operations evolve, so does your communication network. Our towers are constructed with a forward-looking approach, ensuring they are capable of adapting to technological advancements and scalable to accommodate your expanding operational horizons. Reliability in Rigorous Environments: Our construction protocols and strategies are molded by our extensive experience in various terrains and environments, ensuring that the towers stand resilient in the face of geographical and meteorological challenges. A Mesh of Connectivity: Whether linking the executive decisions from central offices to the far-reaching extraction sites or facilitating data-driven operations across the entire network, our towers ensure that every node remains perpetually connected. Navigating Through P2P and Multipoint Networks Understanding and integrating varied network configurations such as P2P and Multipoint networks into our tower construction strategy, we ensure that the specific communicational and operational prerequisites of your business are met. End-to-End P2P Solutions: For secure, dedicated, and high-speed communication between two points, our P2P network solutions, enabled by strategically positioned towers, ensure that your data travels securely and swiftly. Expansive Multipoint Configurations: When the operational framework demands centralized communication with multiple nodes, our towers facilitate a sturdy and coherent multipoint communication network. Your Partner in Progress: Nulux Network Solutions As we stride into the future, where the fusion of technology and operations will become even more intrinsic, Nulux stands as your partner, ensuring that the wireless communication networks powering your operations are not just contemporaneous but also future-ready. Connect with us, and let’s architect a communication network that empowers, enhances, and ensures the seamless functionality of your operations in the oil and gas industry, traversing through the present and into the future. View Details
Packing O-Ring for Gas Turbine
The Packing O-Ring is a sealing made from durable fluorocarbon rubber, designed for use in high-temperature and chemically harsh environments. Commonly used in gas turbines such as the LM2500 series, it provides a tight seal between components to prevent the leakage of fluids or gases.
This O-ring has an inside diameter of 27/64 inches, a thickness of 5/64 inches, and a hardness of 75 Shore A. It is built to handle operating temperatures from -20°F to 400°F, making it suitable for sealing joints in systems exposed to fuels, oils, and high pressures.
Its compact size and resistance to compression set and fluid exposure make it ideal for use in shafts, housings, and valve assemblies where reliable sealing is critical to turbine performance and safety.
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7" Mech-2 Double Grip Mechanical Set Packer for 20-26 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.
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Gauge adapters with a female ISO parallel thread to male NPT are small but essential components used to connect measurement instruments, such as pressure gauges or transmitters, to piping systems in industrial and oil and gas applications.
The female ISO thread screws directly onto the instrument, while the male NPT thread connects securely to the pipe or tube, creating a tight and leak-resistant connection.
These adapters are made from high-quality materials such as stainless steel or brass, which makes them durable and resistant to corrosion, even in harsh environments. They are designed to handle high pressures, up to 10,000 PSI, ensuring that instruments provide accurate readings without risk of failure.
They follow international thread standards including ASME B1.20.1, SAE AS71051, ISO 7-1, and ISO 228, which guarantees compatibility with other equipment and ensures reliable performance in critical systems. This makes them a practical and dependable choice for monitoring and controlling fluids.
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Remote Operated Vehicle (ROV) Training Courses
Dive into the Depths: Introducing Subsea ROV Training Courses We believe that the true potential of subsea exploration lies in the hands of skilled professionals. That's why we are excited to announce our comprehensive Subsea ROV Training Courses, designed to equip aspiring ROV operators and seasoned professionals alike with the knowledge and expertise needed to master the art of underwater robotics. Unleash Your Subsea Potential Subsea robotics and Remote Operated Vehicles (ROVs) are revolutionizing the way we explore and interact with the underwater world. Our ROV training courses are crafted to empower individuals with the skills required to navigate ROVs with precision and confidence, ensuring safe and efficient operations beneath the waves. Experience and Expertise The instructors have worked on diverse projects worldwide, ranging from offshore oil and gas installations to scientific research and environmental surveys. Comprehensive Curriculum Our Subsea ROV Training Courses cover a wide range of topics, catering to both beginners and advanced learners. From the fundamentals of ROV piloting and navigation to advanced techniques, troubleshooting, and maintenance, our courses leave no stone unturned in providing a well-rounded education in subsea robotics. Hands-On Learning We understand that practical experience is the key to mastering ROV operations. That's why our training courses feature hands-on learning opportunities with our cutting-edge ROV systems. Participants get to operate ROVs in simulated real-world scenarios, honing their skills under the guidance of our seasoned instructors. Tailored to Your Needs Whether you are an individual looking to kickstart your career in subsea robotics or a company seeking to train your ROV operators, our courses can be tailored to meet your specific needs. We offer both individual and group training options, ensuring that you get the most out of your learning experience. A Gateway to New Opportunities Completing our Subsea ROV Training Courses opens the door to exciting career opportunities in the subsea industry. As the demand for skilled ROV operators continues to grow, our certified graduates are well-prepared to embark on rewarding careers in offshore exploration, marine research, salvage operations, and more. Join the Academy Are you ready to dive into the depths of subsea robotics and ROV operations? Join the Academy and unlock the potential of underwater exploration. Our Subsea ROV Training Courses provide the knowledge, skills, and confidence you need to excel in the world of subsea robotics. Invest in Your Future Invest in your future and become a part of the cutting-edge subsea robotics industry. Contact us today to learn more about our Subsea ROV Training Courses and take the first step toward a fulfilling and adventurous career beneath the waves. The subsea world awaits your exploration! View Details
Fiber Network Backbone Installation
Illuminating the Pathway to Enhanced Connectivity with Nulux: Pioneering Fiber Network Backbone Installation for the Oil & Gas Sector In the intricate labyrinth of the energy sector, wherein seamless data transmission forms the spinal cord of operational efficacy, establishing a robust, secure, and unfettered network backbone becomes imperative. At Nulux Network Solutions, our objective transcends beyond offering mere solutions; we are your partners in navigating through the convoluted pathways of data connectivity and communication within the oil and gas industry, ensuring that the artery of your operations pulsates with vigor, reliability, and sustainability. Sustaining the Future with Fiber Optics Nulux emerges as a beacon of sustainable advancements, offering an array of products, solutions, and services that cascade across the entirety of the energy value chain. We are steadfast in our commitment to guiding our partners in the oil and gas industry towards a future that not only resonates with sustainability but is also interwoven with technological prowess and innovation. Our Fiber Optic solutions symbolize this commitment, ensuring your journey towards a more sustainable future is always illuminated by the consistent, reliable, and efficient transmission of data. The Nulux Fiber Network Backbone Installation The oil and gas industry, characterized by its voluminous data generation, necessitates a network backbone that can shoulder the hefty demands of data transmission with unbridled efficiency and security. Our Fiber Network Backbone Installation service is not merely a technological provision but an embodiment of our expertise, experience, and dedication to ensuring your operations are always in sync with the digital pulse of the industry. Reliable Data Transmission: An uninterrupted flow of operational data is ensured, empowering your operations with real-time analytics, diagnostics, and vital decision-driving data. Fortified Security: Guarding your data against potential breaches and vulnerabilities with a fiber network that is securely fortified, ensuring a safe and secure environment for your data to traverse. Scalability: Our fiber network infrastructure scales in tandem with your operational expanse, ensuring that as your data demands burgeon, our network is always a step ahead in meeting those requirements with equal efficiency and reliability. A Tapestry of Operational Excellence Our Fiber Network Backbone Installation forms the intricate tapestry that interlaces your operational nodes, ensuring that the voluminous data generated is seamlessly integrated, conveyed, and utilized, forming the substrate upon which vital operational strategies and decisions are cultivated and realized. Safeguarding Your Data, Ensuring Its Journey is Unhindered At Nulux, we ensure that the conduit through which your data traverses is not merely operationally optimized but also securely shielded against potential cyber threats and vulnerabilities, fortifying your operational data against breaches and ensuring it navigates through a secure pathway. Join Hands with Nulux Embark on a journey where your operational data is not merely transmitted but is safeguarded, scrutinized, and utilized to shape a future wherein your operations echo with sustainability, operational excellence, and technological advancement. With our Fiber Network Backbone Installation, steer through the digital realms of the oil and gas industry with Nulux, where every bit of data, every decision, and every operational stride is backed by the stalwart reliability and security of our fiber-optic solutions. In a realm where data propels decisions, ensuring its secure, efficient, and unfettered transmission is paramount. Traverse with Nulux, where your data is not merely communicated but empowers your operations towards a future where every decision is data-driven, every operation is efficient, and your journey towards sustainability is continually illuminated by the steadfast glow of our solutions. Your journey towards an operationally efficient and sustainable future begins with Nulux. Let’s navigate through the digital corridors of the oil and gas industry together, ensuring your data navigates through the most secure, reliable, and efficient pathways, crafting a future where technology and sustainability converge to form a symphony of operational excellence. Let’s craft this future, together, with Nulux. 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.
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Surface Controlled Subsurface Safety Valve FRN 6-5/8 inch
The FRN 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, tubing pressure slightly higher than the well pressure below the closed flapper is applied. Once well pressure is equalized across the closed flapper, hydraulic pressure is applied to the piston, which pushes the flapper open. The flapper hinge assembly is designed so 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 FRN 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 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 » New completions » Deep set » High pressure Features » High-strength rod-piston actuation » Non-equalizing flapper closure » Solid construction flapper made from bar stock » Spherical radius seat on flapper improves seal reliability » Sealing and seating surfaces are out of flow path of well production when valve is in open position » Designed for easy field servicing *information referenced from supplier catalog. 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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5-1/2 inch Wireline Retrievable FXE SCSSV
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
LM2500 Wrench for HPT Coupling Nut
The LM2500 Wrench – Horizontal/Vertical HPT Coupling Nut is a specialized maintenance tool designed for the LM2500 gas turbine engine. This wrench is used to install and remove the High Pressure Turbine (HPT) coupling nut, a critical component that secures the HPT rotor to the turbine shaft.
Removing and installing the coupling nut is necessary during major maintenance activities like rotor inspections, repairs, or when replacing key turbine components. Proper removal allows technicians to safely separate the rotor from the shaft, while correct installation ensures the rotor is securely fastened for reliable engine operation.
What makes this wrench stand out is its ability to work with both horizontal and vertical engine positions. This means technicians can use it easily no matter how the engine is set up, making maintenance simpler and more flexible.
Built to precise standards and made from tough materials, the wrench ensures the right amount of force is applied when tightening or loosening the coupling nut. This careful control helps protect the engine’s important parts from damage.
By using this wrench, maintenance teams can complete their work faster and with confidence, reducing downtime and keeping the turbine reliable. It’s an essential tool that supports the smooth operation of the LM2500 engine.
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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
9 5/8" Mech-1 Single Grip Mechanical Set Packer for 29.3-36 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 Double Block & Bleed Valve – Flange x Flange – Ball x Ball with Needle Drain is a high-performance isolation and venting solution designed specifically for oil and gas applications. This valve combines two independent ball isolation valves and a centrally located needle drain valve within a single, compact body, ensuring reliable double isolation and safe pressure relief or venting.
Manufactured in compliance with ASME B16.34, API 6D, and ISO 17292 standards, it offers assurance of global quality and safety benchmarks. The design accommodates line sizes ranging from ½” to 2”, with pressure ratings from Class 150 up to Class 2500, making it suitable for both standard and high-pressure operations.
The flange x flange connections provide secure installation and easy integration into piping systems, while the ball x ball configuration guarantees tight shut-off. The needle drain allows for controlled venting, sampling, or pressure equalization, enhancing operational safety and efficiency.
The valve is well-suited for critical applications such as pipeline isolation, meter calibration, instrumentation, and maintenance operations in oil and gas facilities. Its compact, space-saving design reduces potential leak paths compared to conventional multi-valve assemblies, lowering installation costs and improving reliability.
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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 R Type 2 Valve Manifold Integral Mount 1/2” Female NPT is a compact and robust solution for connecting impulse lines directly to pressure transmitters or gauges. It features a simple two-valve arrangement that allows operators to block process pressure, safely bleed trapped pressure, and calibrate transmitters without the need for additional piping. This configuration ensures quick and efficient maintenance and reduces potential leak points.
Its integral mount design allows the manifold to be attached directly to the transmitter, eliminating the need for extra brackets or complex assemblies. This not only saves space but also provides a secure and stable connection, which is particularly useful in oil and gas applications where reliability under high-pressure conditions is critical.
The manifold is constructed with a metal-to-metal body and bonnet seal to handle pressures up to 6000 PSI, with higher pressure options available upon request. It is fully factory tested for seat and packing leakage, and materials can be supplied to meet NACE MR 01 75 standards. The R Type is suitable for a wide temperature range and is designed to provide smooth operation, long-term durability, and leak-free performance even in demanding field conditions.
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Gauge Root Valve Bleed Valve with Vent Screw – 6000 PSI – ASME B16.34 / ISO 9001 / PED / ATEX
The Gauge Root Valve Bleed Valve with Vent Screw is designed for oil and gas applications where controlled pressure release is critical. It is installed on pressure gauges and instrumentation lines to provide a safe and easy way to vent trapped pressure. The vent screw allows operators to gradually release pressure without removing the valve, reducing the risk of sudden pressure surges that could damage equipment or compromise safety.
This valve is rated for 6000 PSI standard working pressure, with higher pressures available on request. It is built to ASME B16.34 standards and produced under ISO 9001, PED, and ATEX quality systems, ensuring reliability and compliance with industry requirements. The design includes a metal-to-metal seal for high-pressure and temperature applications, a durable vent screw that prevents leakage, and easy operation even in confined spaces. Its construction allows for long-term durability and minimal maintenance, providing safe and accurate operation for critical oil and gas instrumentation systems.
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FXE Wireline Retrievable SCSSSV 5 inch
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
2.5″ Butterfly Bleed Air Valve
The 2.5″ Butterfly Bleed Air Valve is a critical component in the LM2500 gas turbine, responsible for regulating the flow of bleed air—compressed air extracted from the turbine’s compressor stage. This valve helps control internal pressures and temperatures, which is essential to maintain safe and efficient turbine operation.
The valve has an effective flow area of 2.5 square inches, allowing it to manage airflow precisely in smaller turbine setups or space-restricted environments. Its butterfly-shaped disc is permanently attached to the shaft, which ensures consistent movement and reliable control of air flow with minimal play or slippage.
One important feature is its fast response time—less than 320 milliseconds to complete a full open or close stroke. This quick action enables the turbine control system to rapidly adjust pressure levels, preventing overheating and reducing mechanical stress on turbine components.
The valve’s bearing shaft is robustly designed to handle frequent small movements, known as dither cycles, without premature wear. The bearings themselves are specifically engineered to support these high-cycle conditions, improving the valve’s durability and lifespan.
By efficiently managing bleed air, this valve helps protect the turbine from excessive pressure build-up and thermal stress, which can otherwise lead to damage or reduced efficiency. Its design also allows installation without requiring changes to the turbine’s hydraulic or electrical systems, making it suitable for retrofits or upgrades on existing LM2500 turbines.
In summary, the 2.5″ Butterfly Bleed Air Valve plays a vital role in controlling compressor bleed air in LM2500 turbines, balancing safety, performance, and durability within compact or smaller turbine applications.
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The Needle Valves Hex Body Series Male x Female are industrial valves designed for precise flow control in high-pressure systems. The hexagonal body allows for standard wrench access, facilitating installation and maintenance. Male and female NPT connections enable integration into various piping systems, commonly used in instrumentation, process control, and oil and gas applications.
These valves are manufactured according to ASME B16.34 standards and type-tested to MSS-SP-99. They have a standard working pressure of 6000 PSI, with options for higher pressures. The metal-to-metal body and bonnet seal provides reliable sealing under high pressure and temperature conditions. Materials can comply with NACE MR 01 75, and the valves operate over a temperature range of -50°C to 230°C, with graphite seals available up to 500°C.
Each valve undergoes factory testing for seat and packing leakage using nitrogen gas at 1000 PSI. The valves feature a back-seated stem, rolled threads, and a mirror-finished stem through the packing, ensuring consistent and smooth operation. The removable T-handle reduces torque requirements during operation, and a dust cap protects the stem threads. The hex body and male-female connections provide a standard interface for connection while maintaining secure and leak-resistant operation.
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9 5/8" Mech-2 Double Grip Mechanical Set Packer for 29.3-36 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.
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O-rings and Gaskets for various applications including re-dress of downhole equipment
An O-ring, also known as a packing or a toric joint, is a mechanical gasket in the shape of a torus; it is a loop of elastomer with a round cross-section, designed to be seated in a groove and compressed during assembly between two or more parts, forming a seal at the interface. View Details
The 4” Tubing End Locator is designed specifically for use with larger production tubing strings common in wells that require greater flow capacity or enhanced mechanical strength. This size is typically found in wells with higher production rates or more demanding operational requirements, where accurate depth confirmation becomes even more critical.
This model is specifically sized for 4-inch outer diameter tubing, featuring a maximum outside diameter that fits comfortably within the tubing’s internal dimensions. This sizing ensures that the locator can move smoothly without obstruction while maintaining effective contact to detect the tubing end. The core mechanism involves a spring-loaded finger that extends outward upon contacting the tubing bottom. This movement translates into a tactile signal felt at the surface, eliminating the need for complex electronic systems and reducing the risk of failure in harsh downhole environments.
Equipped with standardized threaded connections—commonly a 1-9/16 - 10 UN pin on the top and a 1 - 11 ½ NPT box on the bottom—the tool integrates easily into typical slickline, wireline, or coiled tubing toolstrings. The fully mechanical design enhances reliability, making it well-suited for use in conditions of high pressure, elevated temperatures, and corrosive fluids often found in oil and gas wells.
The 4” Tubing End Locator is especially valuable in wells with larger tubing sizes where accurate depth confirmation is critical to avoid operational errors. By providing a straightforward and dependable method to locate the tubing end, it supports safe and efficient well intervention, helping to reduce downtime and operational risks.
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7" Mech-2 Double Grip Mechanical Set Packer for 32-35 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.
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