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MS-32 Multistage Steam Turbine
Introducing the Kessels MS-32 Multistage Steam Turbine: Your Ultimate Back-Pressure Solution In the dynamic world of industrial steam turbines, efficiency, reliability, and flexibility are paramount. At Kessels Steam Turbines, we understand the unique needs of the oil and gas industry, where the demand for steam is relentless. That's why we are proud to introduce our MS-32 Multistage Steam Turbine – the pinnacle of back-pressure turbine technology. The Power of Back Pressure Turbines Back pressure turbines have long been a cornerstone of industrial steam applications, and they come in both single-stage and multi-stage options. These turbines serve as the vital link between the boiler unit and the process steam header. In environments where a copious amount of steam is required, back pressure turbines shine. Straight-Back Pressure for Maximum Efficiency What sets back pressure turbines apart is their straight-back pressure nature. This design allows for the efficient utilization of exhaust steam to meet process demands. The electrical power generated during the process is consumed precisely as needed, making it an energy-efficient choice. Applications Galore Our MS-32 Multistage Steam Turbine is a versatile powerhouse, ideally suited for a wide range of applications: Drive Applications: Commonly employed in the oil and gas industry, sugar mills, sugar fibrizor systems, shredder drives, pump drives, and many more. Power Generation Applications: Utilized to generate electricity by powering generators, offering a clean and sustainable energy solution. Bleed Back-Pressure Steam Turbines For scenarios where controlled extraction of steam within a medium pressure range is necessary, our turbines come equipped with bleed points. This feature allows for steam extraction at low volume steam demands, making it perfect for applications with high tolerance for pressure variations. Extraction Back-Pressure Steam Turbines When the process steam demand volume is substantial, and tolerance for pressure variations is minimal, our steam turbines with controlled extraction vents step up to the plate. Operating under intermediate pressure levels, they ensure a consistent and reliable steam supply. Why Choose Kessels? When you choose Kessels Steam Turbines, you're choosing more than just a product – you're choosing a legacy of excellence. With a history spanning decades, we have continuously pushed the boundaries of steam turbine technology. Our MS-32 Multistage Steam Turbine is a testament to our unwavering commitment to innovation, performance, and customer satisfaction. Unmatched Benefits of the MS-32 Multistage Steam Turbine: Energy Efficiency: Our turbines maximize the use of exhaust steam, minimizing wastage and lowering energy costs. Reliability: Built with precision and rigorously tested, the MS-32 ensures uninterrupted operations, even in demanding environments. Versatility: From drive applications to power generation, this turbine adapts to your needs with ease. Eco-Friendly: Harnessing the power of steam for electricity generation reduces carbon emissions, contributing to a greener future. Responsive Support: Our team of experts is always at your service, ready to assist with installation, maintenance, and troubleshooting. Upgrade to Excellence Today In the competitive world of the oil and gas industry, every advantage counts. Make the smart choice by upgrading to the Kessels MS-32 Multistage Steam Turbine – the epitome of efficiency, reliability, and sustainability. Contact us today to learn more about how our turbine can revolutionize your operations and propel your success into the future. Your journey to unparalleled performance starts here, with Kessels Steam Turbines. View Details
5 Valve Manifolds Valve Manifold T Type – Pipe to Flange – 6000 PSI
The 5 Valve Manifold T Type, Pipe to Flange is engineered to connect impulse lines to differential pressure transmitters in industrial and oil and gas applications. It features 1/2” Female NPT Pipe to Flange connections set at 54mm (2-1/8”) centers, with a configuration consisting of two block valves, two equalizer valves, and one bleed valve. This design allows for efficient isolation, calibration, and maintenance of transmitters while maintaining process integrity.
The T Type configuration is especially useful because it provides a compact and organized valve layout that simplifies operations like bleeding and equalizing, reducing the risk of leaks and measurement errors. Using a 5 valve manifold ensures maximum operational flexibility, allowing operators to isolate the instrument, balance pressure, and vent safely without interrupting the main process.
Pipe to Flange connections are chosen when connecting transmitters or instruments to existing flanged piping systems, offering strong mechanical support and compatibility with industry-standard flanges. This combination of T Type, 5 valves, and pipe-to-flange connections ensures accurate, reliable, and safe pressure measurement and calibration in critical oil and gas operations.
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DeltaV Backbone Infrastructure
Navigating Through the Digital Veins of the Oil and Gas Industry: Introducing DeltaV Backbone Infrastructure by Nulux Network Solutions In the ever-evolving arena of the oil and gas industry, where massive volumes of data traverse through the intricate digital veins of complex operational networks, the prowess of a robust, secure, and efficient backbone infrastructure stands undisputed. At Nulux Network Solutions, we comprehend the pulse of this digital heartbeat, presenting a bespoke service for engineering professionals in the sector: The DeltaV Backbone Infrastructure. A Symphony of Sustainable Solutions: Lighting the Path with Fiber Optics In an era where sustainability intertwines with technological advancements, Nulux unfurls a spectrum of products, solutions, and services across the comprehensive energy value chain. Endeavoring to illuminate your journey toward a sustainable future, our Fiber Optic solutions embody the quintessence of high-speed, reliable, and secure data transmission across your operational ecosystems, ensuring that your digital operations move with an unparalleled rhythm of coherence and efficiency. The DeltaV Backbone Infrastructure: Navigating through the Digital Nexus Our DeltaV Backbone Infrastructure is not merely a service but an orchestrated amalgamation of technology, expertise, and reliability, ensuring your operations in the oil and gas sectors are streamlined, secure, and synergistically attuned to the digital transformations permeating the industry. Robust Data Transmission: Ensuring that your operational data, ranging from real-time analytics to predictive maintenance insights, traverse securely and efficiently across the digital pathways. Enhanced Reliability: With a fiber-optic backbone, experience a network with minimal downtime and robust resistance against physical wear and tear, providing a perennial flow of vital operational data. Scalable Solutions: As your operations expand, so does our DeltaV Backbone Infrastructure, ensuring that your growing data demands are met with equal vigor and capacity. Intricate Weaving of Data and Operations The DeltaV Backbone Infrastructure meticulously intertwines with your operational nodes, ensuring that the massive data generated at every point is seamlessly integrated, analyzed, and utilized, providing a foundation upon which strategic decisions can be formulated and executed with precision. Safeguarding your Digital Pathways Ensuring that your data pathways are not just operationally optimized but also securely fortified, the DeltaV Backbone Infrastructure is built upon stringent security protocols, ensuring a secure digital environment wherein your data is shielded against potential cyber vulnerabilities. Embark on a Journey with Nulux Traverse through the digital corridors of the oil and gas industry with Nulux Network Solutions, where your data is not merely transmitted but is secured, analyzed, and utilized to sculpt a future where your operations resonate with sustainability, efficiency, and innovative prowess. With the DeltaV Backbone Infrastructure, you navigate through a digital nexus, where every byte of data, every decision and every operational stride is backed by the robust reliability, unparalleled speed, and secure pathways of our state-of-the-art fiber-optic solutions. Ensuring a Future where Data Drives Decision In an operational universe where data is the catalyst for decisions, ensuring its secure, reliable, and efficient transmission becomes paramount. Navigate with Nulux, where your data doesn’t just traverse; it drives your operations towards a future where every decision is data-driven, every operation is efficient, and where your journey towards sustainability is always illuminated by the reliable glow of our solutions. Your journey through the digital and operational landscapes of the oil and gas industry begins with Nulux – where your data finds its true pathway, and where your operations find their true rhythm. Let's sculpt a future, together, navigating through the digital veins of innovation, sustainability, and operational excellence. View Details
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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Inverter and Charger Combination
Multifunctional, with intelligent power management The MultiPlus is a powerful true sine wave inverter, a sophisticated battery charger that features adaptive charge technology, and a high-speed AC transfer switch in a single compact enclosure. Next to these primary functions, the MultiPlus has several advanced features, as outlined below. Two AC Outputs The main output has no-break functionality. The MultiPlus takes over the supply to the connected loads in the event of a grid failure or when shore-/generator power is disconnected. This happens so fast (less than 20 milliseconds) that computers and other electronic equipment will continue to operate without disruption. The second output is live only when AC is available on the input of the MultiPlus. Loads that should not discharge the battery, like a water heater for example, can be connected to this output (second output available on models rated at 3kVA and more). Virtually unlimited power thanks to parallel operation Up to six Multis can operate in parallel to achieve higher power output. Six 24/3000/70 units, for example, provide 15kW / 18kVA output power with 420 Amps of charging capacity. Three phase capability In addition to parallel connection, three units can be configured for three-phase output. But that’s not all: with three strings of six parallel units a 45 kW / 54 kVA three phase inverter and 1260 A charger can be built. Split phase options Two units can be stacked to provide 120-0-120 V, and additional units can be paralleled up to a total of 6 units per phase, to supply up to 30 kW / 36 kVA of split phase power. Alternatively, a split phase AC source can be obtained by connecting our autotransformer (see data sheet on www.victronenergy.com) to a ‘European’ inverter programmed to supply 240 V / 60 Hz. PowerControl - Dealing with limited generator, shore side or grid power The MultiPlus is a very powerful battery charger. It will therefore draw a lot of current from the generator or shore side supply (nearly 20 A per 3 kVA MultiPlus at 120 VAC). With the Multi Control Panel a maximum generator or shore current can be set. The MultiPlus will then take account of other AC loads and use whatever is extra for charging, thus preventing the generator or shore supply from being overloaded. PowerAssist - Boosting the capacity of shore or generator power This feature takes the principle of PowerControl to a further dimension. It allows the MultiPlus to supplement the capacity of the alternative source. Where peak power is so often required only for a limited period, the MultiPlus will make sure that insufficient shore or generator power is immediately compensated for by power from the battery. When the load reduces, the spare power is used to recharge the battery. Four stage adaptive charger and dual bank battery charging The main output provides a powerful charge to the battery system by means of advanced ‘adaptive charge’ software. The software fine-tunes the three stage automatic process to suit the condition of the battery, and adds a fourth stage for long periods of float charging. The adaptive charge process is described in more detail on the Phoenix Charger datasheet and on our website, under Technical Information. In addition to this, the MultiPlus will charge a second battery using an independent trickle charge output intended for a main engine or generator starter battery. System configuring has never been easier After installation, the MultiPlus is ready to go. If settings have to be changed, this can be done in a matter of minutes with a DIP switch setting procedure. Even parallel and 3-phase operation can be programmed with DIP switches: no computer needed! Alternatively, VE.Net can be used instead of the DIP switches. And sophisticated software (VE.Bus Quick Configure and VE.Bus System Configurator) is available to configure several new, advanced, features. *information from manufacturer catalogue 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
SSV 4.51 inch for Water Injection Wells
The WI retrievable injection valve is a high-performance, high-flow rate injection valve. High throughput is achieved by a unique valve configuration that minimizes turbulent and potentially erosive flow. Operation is not dependent on a specific flow rate, pressure, or setting depth, thus negating the need for adjustment over time. The valve incorporates a metal-to-metal valve and seat energized by the combination of an integral spring and well pressure acting from below. The WI injection valve can be deployed on a wireline lock or through-tubing pack-off device, providing flexibility not available with alternative injection valve systems. As a result of the simple design with fewer parts, redress and repair costs are considerably lower than those for other injection valve systems. Applications The WI injection valve is primarily used in water injection applications as an alternative to conventional tubing or wireline-set safety valves. The valve is also commonly used as a retrofit solution in water injectors in which a tubing to annulus leak has occurred. The valve can be deployed below the leak point to eliminate uncontrolled annulus pressure increases when the injection stops. Features » Compatible with all known lock systems » Dedicated designs to suit Halliburton EB0 intervention packers » Enhanced internal flow profile » Simple design and construction » Flow-loop testing performed to establish pressure drop versus pump rate *information referenced from supplier catalog. View Details
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
9 5/8" HP-6 Hydraulic Set High Angle Production Packer for 40-47 PPF Casing
Ballycatter HP-6 High Angle Production Packer
Available sizes: 4 1/2”, 5”, 5 1/2”, 6 5/8”, 7”, 7 5/8”, and 9 5/8”
The Ballycatter HP-6 is a compact, hydraulically set production packer designed for low to medium-pressure applications in high-angle and horizontal wells. With a short body length and no tubing movement required for setting, the HP-6 is ideally suited for tight-radius deviations, stacked completions, and coiled tubing operations.
It can be run in single or multiple packer installations with sequential setting in a single trip, reducing rig time and complexity.
Rated to 7,500 psi and tested in Q125 casing, the HP-6 features a straight-pull release mechanism that is fully isolated from hydraulic pressure, allowing low shear-out force even under full differential pressure.
Built-in bypass ports equalize pressure during retrieval, ensuring smooth release and reducing swab risk. The tool can be set using rig pumps, and its economical design allows for easy redress and reuse. Optional rotational release is available for added flexibility in challenging retrieval scenarios.
Engineered with materials and elastomers for hostile environments, the HP-6 delivers dependable performance in offshore operations, high-angle wells, and cost-sensitive completions requiring reliability without unnecessary complexity.
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HP-3 Hydraulic Set High Angle 5 1/2" 13-15.5 PPF Packer
Ballycatter HP-3 High Angle Packer
Available sizes: 5 1/2”, 6 5/8”, 7”, and 9 5/8”
The Ballycatter HP-3 is a hydraulic-set packer engineered for high-angle and deviated well applications, where conventional mechanical or wireline-set tools are not feasible. This packer is particularly suited for single or multi-zone completions, offering flexible deployment in complex well trajectories.
Unlike mechanical systems, the HP-3 requires no tubing movement to set. This enables full well control throughout the operation, as the tubing can be landed and the wellhead installed prior to circulating or displacing fluids.
Key Features:
• Reliable Setting Mechanism: Utilizes dual balanced pistons—one actuates downward to anchor the bi-directional slips, while the other moves upward to compress a three-element packing system. This simultaneous action ensures a secure set and pack-off.
• Three-Element Seal: The packing system uses dual-durometer rubber elements to ensure long-term sealing integrity across a range of downhole conditions.
• Slips & Housing: One-piece, bi-directional slips are housed in a shear-pinned chamber, protected by a full-diameter guide to prevent damage during deployment.
• Release Options: Features a dual-method release system:
• Straight pull via shearing of pre-set screws.
• Right-hand rotation (approx. 8 turns), followed by straight pull.
• Equalization & Retrieval: Built-in equalizing valve opens automatically during release to balance pressures and enable safe retrieval. A large-diameter bypass within the mandrel allows fluid to flow during retrieval, reducing swab effects on the packing elements.
The HP-3 is engineered for reliability, operational flexibility, and full well control—making it a practical choice for complex wellbore geometries.
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5" Mech-1 Single Grip Mechanical Set Packer for 11.5-15 PPF Casing
Ballycatter Mech-1 Single Grip Mechanical Packer
Available sizes: 5”, 5 1/2”, 6 5/8”, 7”, 9 5/8”, and 10 3/4”
The Ballycatter Mech-1 is a retrievable, compression-set mechanical packer designed for low-pressure production, casing integrity testing, and well intervention operations. Built with a long-stroke mandrel and a large bypass area, it allows unrestricted fluid circulation while running in hole. The bypass is controlled by a face-seal valve that automatically closes during setting, fully isolating the annulus once the packer is engaged.
Setting is achieved via a mechanical J-slot system using standard right-hand (or optional left-hand) rotation. Once the tool is positioned, applying set-down weight activates the slips and compresses the packing elements, sealing off the formation below. Retrieval is straightforward—lifting the tubing string engages the J-slot and reopens the bypass valve for safe circulation and recovery.
The Mech-1 features a rocker-type slip design for positive casing engagement and can be repositioned if required. Its straightforward operation, reliable sealing, and retrievability make it a practical solution for conventional production completions, casing leak diagnostics, and test operations where hydraulic setting is not required.
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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
CSA 36 unit Locking FAST charger rack
Enhance Charging Security and Efficiency with the CSA 36 Unit Locking FAST Charger Rack from Provix Provix is proud to offer the CSA 36 Unit Locking FAST Charger Rack (Part # NWI-NWCR-36BLC), an advanced charging solution designed to cater to the needs of mining, construction, and industrial professionals. This charger rack is an ideal blend of speed, security, and capacity, perfect for medium to large-scale operations. Swift Charging for Continuous Operations The CSA 36 Unit Charger Rack is engineered for quick and efficient charging, reducing downtime to a minimum. It boasts a charging time of just 4 hours for the WISE LITE2 and 5 hours for the LAMP3A/4A models. This rapid charging capability ensures your team's equipment is promptly ready for use, enhancing overall productivity. Secure Locking Mechanism for Added Safety With its locking feature, the CSA 36 Unit Charger Rack provides an extra layer of security, safeguarding your valuable equipment during charging. This is especially crucial in environments where the risk of theft or tampering is a concern. The locking mechanism ensures that the equipment remains secure, offering peace of mind and improved safety in the workplace. Space-Efficient Design for Organized Workspaces Despite its capacity to charge 36 units, this charger rack is designed with space efficiency in mind. Its compact form factor makes it an excellent fit for equipment rooms and charging stations where space is at a premium, helping maintain an organized and clutter-free environment. Durable Construction for Industrial Environments Built to withstand the harsh conditions typical of mining and industrial settings, the CSA charger rack is both durable and reliable. Its robust construction ensures it can endure daily wear and tear, offering long-term, dependable performance. Ideal for Varied Operational Needs Whether you’re managing a mining operation, a construction site, or an industrial facility, the CSA 36 Unit Locking FAST Charger Rack is an excellent choice. It accommodates a considerable number of units, making it suitable for operations that require efficient and secure charging solutions. Upgrade Your Charging Setup with Provix Invest in the Wisdom CSA 36 Unit Locking FAST Charger Rack to streamline your charging processes and enhance the security of your equipment. Visit Provix at www.provix.net to learn more about this high-capacity, secure charging solution and explore our range of specialized mining equipment. View Details
The Monoflange SBB Double Block and Bleed Valve with Flange x Thread connections features an OS&Y isolation valve and a needle drain, providing dual isolation in a single compact assembly. It is designed for oil and gas applications where safe venting of trapped pressure between isolation points is required, such as instrument or gauge isolation, chemical injection, and sampling lines.
The valve’s monoflange design integrates both isolation and venting functions in one unit, reducing the number of joints and potential leak paths while saving space and simplifying installation. The OS&Y isolation valve offers clear visual indication of open or closed status, allowing operators to quickly verify valve position. The needle drain provides controlled venting of pressure trapped between the isolation points, ensuring safe operation during maintenance or sampling procedures.
The valve is suitable for flange sizes from 1/2” to 2” and pressure classes from 150 to 2500, with options for reduced or full bore depending on process requirements. It is available in a variety of materials including stainless steel 316, 316L, duplex, super duplex, Hastelloy, Inconel, and Monel, and can be manufactured to meet NACE MR-0175 standards. The design complies with recognized standards such as ASME B16.34, API 6D, and ISO 17292, and is tested to low emission requirements.
This configuration is ideal for oil and gas operations requiring reliable dual isolation, precise venting, and compact installation in critical piping systems.
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Wireline Retrievable Surface Controlled Subsurface Safety Valve 5-1/2 inch Bigbore
The manufacturer has applied the same stringent testing used on its maximum reliability tubing-retrievable safety valves (TRSV) to its BigBore™ wireline-retrievable safety valve (WLRSV). This valve offers the durability and reliability of TRSVs through metal-to-metal (MTM) sealing of the contoured flapper, enhanced body connections, and debris isolation. The contoured flapper provides a large ID compared to other valve designs, while providing enhanced flapper sealing. Another significant feature of this valve is its ease of on-location servicing. The construction of the upper end of the valve provides for easy access to the valve’s external packing. Once the lock is removed, the packing retainer sleeve can be removed and serviced. The savings made possible by an enlarged ID, enhanced performance, and ease of service have made it an excellent choice for replacing equipment currently installed in existing completions. Applications » New completions » Replacement of existing WLRSVs to provide increased ID and reliability Features » MTM sealing contoured flapper closure with large ID » High-strength rod-piston actuation » Dual-sealing minimized body connections » Enhanced debris isolation through MTM interface of flow tube/bottom sub » Radius of curvature at flow entrance » Equalizing feature available » Designed for easy field servicing » Setting depths to 9,000 ft (2743 m) *information referenced from supplier catalog. View Details
MS-42 EB Multistage Steam Turbine
Unleash Power and Precision with the Kessels MS-42 EB Multistage Steam Turbine: Your Ultimate Back-Pressure Solution In the high-stakes world of the oil and gas industry, precision and performance are non-negotiable. That's why, at Kessels Steam Turbines, we're proud to introduce our cutting-edge MS-42 EB Multistage Steam Turbine – a powerhouse engineered to redefine excellence in back-pressure turbine technology. Mastering Back-Pressure Turbines Back pressure turbines have been the workhorses of industrial steam applications for decades, and our MS-42 EB takes their capabilities to new heights. Whether it's single-stage or multi-stage options, these turbines serve as the critical bridge between the boiler unit and the process steam header, revolutionizing steam utilization and power generation. Efficiency Redefined Our MS-42 EB Multistage Steam Turbine boasts the hallmark of back pressure turbines: their straight-back pressure nature. This design ensures the efficient harnessing of exhaust steam, meeting process demands with unparalleled precision. Every ounce of electrical power generated is consumed as per the process steam demand, offering unmatched efficiency. Applications Beyond Boundaries At Kessels, we understand that diverse industries have unique demands. That's why our MS-42 EB Multistage Steam Turbine excels in a wide range of applications: Drive Applications: Embrace the power of our turbine in oil and gas operations, sugar mills, sugar fibrizor systems, shredder drives, pump drives, and more. Wherever drive power is needed, Kessels delivers. Power Generation Applications: Elevate your sustainability game by using our turbine to generate electricity, powering generators with clean and efficient steam energy. Bleed Back-Pressure Steam Turbines Our commitment to versatility is evident in the design of the MS-42 EB. With built-in bleed points, uncontrolled extraction vents enable steam extraction within a medium pressure range. This feature proves invaluable in situations where bleeding steam is required at low volume steam demands and when there's a high tolerance for pressure variations. Kessels turbines seamlessly blend the best of both bleed and back-pressure mechanisms. Extraction Back-Pressure Steam Turbines When your process steam demand volume is substantial, and you can't compromise on pressure variations, our steam turbines with controlled extraction vents come to the rescue. These turbines operate under intermediate pressure levels, ensuring a steady and reliable steam supply that your operations can depend on. Why Choose Kessels? Choosing Kessels Steam Turbines means choosing a legacy of excellence, innovation, and reliability. Our MS-42 EB Multistage Steam Turbine is the embodiment of these principles, offering you: Unmatched Efficiency: Maximize steam utilization and minimize wastage with our precision-engineered turbine. Reliability Redefined: Rigorously tested and built with unwavering precision, the MS-42 EB ensures your operations run seamlessly. Unparalleled Versatility: Adapt to changing needs effortlessly, whether it's drive applications or eco-friendly power generation. Sustainability at Its Core: Harness the power of steam for electricity generation, reducing your carbon footprint and contributing to a greener future. Expert Support: Our team of specialists is always at your service, ready to assist with installation, maintenance, and troubleshooting. Empower Your Future with Kessels In the fiercely competitive oil and gas industry, every advantage matters. Step into a future of efficiency, reliability, and sustainability with the Kessels MS-42 EB Multistage Steam Turbine. Contact us today to discover how our turbine can revolutionize your operations and lead you towards a future of success. Kessels Steam Turbines – Powering Progress, Powering You. View Details
HP-3 Hydraulic Set High Angle 6 5/8" 28-32 PPF Packer
Ballycatter HP-3 High Angle Packer
Available sizes: 5 1/2”, 6 5/8”, 7”, and 9 5/8”
The Ballycatter HP-3 is a hydraulic-set packer engineered for high-angle and deviated well applications, where conventional mechanical or wireline-set tools are not feasible. This packer is particularly suited for single or multi-zone completions, offering flexible deployment in complex well trajectories.
Unlike mechanical systems, the HP-3 requires no tubing movement to set. This enables full well control throughout the operation, as the tubing can be landed and the wellhead installed prior to circulating or displacing fluids.
Key Features:
• Reliable Setting Mechanism: Utilizes dual balanced pistons—one actuates downward to anchor the bi-directional slips, while the other moves upward to compress a three-element packing system. This simultaneous action ensures a secure set and pack-off.
• Three-Element Seal: The packing system uses dual-durometer rubber elements to ensure long-term sealing integrity across a range of downhole conditions.
• Slips & Housing: One-piece, bi-directional slips are housed in a shear-pinned chamber, protected by a full-diameter guide to prevent damage during deployment.
• Release Options: Features a dual-method release system:
• Straight pull via shearing of pre-set screws.
• Right-hand rotation (approx. 8 turns), followed by straight pull.
• Equalization & Retrieval: Built-in equalizing valve opens automatically during release to balance pressures and enable safe retrieval. A large-diameter bypass within the mandrel allows fluid to flow during retrieval, reducing swab effects on the packing elements.
The HP-3 is engineered for reliability, operational flexibility, and full well control—making it a practical choice for complex wellbore geometries.
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Lock Mandrels for Landing Nipples
Enhancing Downhole Operations with HOCA Oil Tools' Lock Mandrels for Landing Nipples In the intricate landscape of oilfield operations, achieving peak efficiency and maintaining well integrity are of utmost importance. HOCA Oil Tools, a leader in downhole slick line tools, introduces its Lock Mandrels for Landing Nipples, designed to meet these challenges head-on. These Lock Mandrels are crafted for precision, reliability, and durability, ensuring they meet the diverse needs of modern downhole activities. HOCA's Lock Mandrels for Landing Nipples: Tailored for Excellence Our Lock Mandrels are engineered to be set into pre-positioned landing nipples within the wellbore, providing a secure and reliable platform for the deployment of various downhole tools and instruments. Available in multiple types such as 'ROTR', 'ROTRN', 'ROTX', and 'ROTXN', our Lock Mandrels cater to a wide range of downhole conditions and operational requirements. They can be selected based on the specific flow control accessory attached, making them either Selective or No-Go types to suit different operational strategies. Experience the HOCA Oil Tools Difference By integrating HOCA Oil Tools’ Lock Mandrels into your downhole toolkit, you're choosing a product backed by our commitment to quality, innovation, and customer service. These mandrels are not just tools but solutions designed to enhance the efficiency and safety of your downhole operations. Our Lock Mandrels for Landing Nipples represent the intersection of innovation and practicality, providing the reliability and performance essential for today's oilfield challenges. Choose HOCA Oil Tools for your downhole needs and experience the difference that quality and expertise can make in your operations. Embrace the future of downhole operations with HOCA Oil Tools, where technology meets tradition to drive success in the oil and gas industry. View Details
Water Injection Safety Valve 4.25 inch
The WI retrievable injection valve is a high-performance, high-flow rate injection valve. High throughput is achieved by a unique valve configuration that minimizes turbulent and potentially erosive flow. Operation is not dependent on a specific flow rate, pressure, or setting depth, thus negating the need for adjustment over time. The valve incorporates a metal-to-metal valve and seat energized by the combination of an integral spring and well pressure acting from below. The WI injection valve can be deployed on a wireline lock or through-tubing pack-off device, providing flexibility not available with alternative injection valve systems. As a result of the simple design with fewer parts, redress and repair costs are considerably lower than those for other injection valve systems. Applications The WI injection valve is primarily used in water injection applications as an alternative to conventional tubing or wireline-set safety valves. The valve is also commonly used as a retrofit solution in water injectors in which a tubing to annulus leak has occurred. The valve can be deployed below the leak point to eliminate uncontrolled annulus pressure increases when the injection stops. Features » Compatible with all known lock systems » Dedicated designs to suit Halliburton EB0 intervention packers » Enhanced internal flow profile » Simple design and construction » Flow-loop testing performed to establish pressure drop versus pump rate *information referenced from supplier catalog. View Details
G Compression set Retrievable Packer
The G™ packer is an economical, compression-set packer, intended for lower pressure production applications. It is set by one-quarter-turn right-hand rotation. Release is accomplished by straight pickup of the tubing. If it is necessary to move the packer further downhole after release, one-fourth-turn left-hand rotation will put the tool back into the running position. C-1 Single Grip Invertible Packer The C-1™ packer can be run as a conventionally set packer or, when run upside down, it can be set in compression. Emergency releases are provided for tension and compression operations. View Details
Fuel Nozzle for LM2500 Gas Turbine
The 2-cup Fuel Nozzle is a precision-engineered component used in gas turbines, specifically in the oil and gas industry. Its primary function is to inject liquid fuel into the combustion chamber in a fine, atomized spray, allowing for optimal mixing with air and efficient ignition. This ensures stable combustion, better fuel efficiency, and reduced emissions—key performance factors in industrial turbine applications.
The “2-cup” design refers to the nozzle’s dual flow passages, which help balance fuel distribution across the combustion zone. This promotes more uniform flame stability and lowers the risk of hot spots that can cause thermal stress to the turbine hardware. The nozzle is typically used on “base” engines and is suited for continuous-duty operations.
The L47197P05 variant is known for its compatibility with LM2500 turbine configurations and is built to endure harsh operating environments. It features durable materials and a design that withstands high temperatures and pressures commonly found in oil and gas turbine systems.
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Tubing Hanger Coupling – 6 7/8” to 4 1/2”
The 6 7/8” to 4 1/2” Tubing Hanger Coupling is a specialized connection used in oil and gas wellhead systems to join a large-diameter casing outlet—6 7/8 inches—with 4 1/2-inch upset production tubing. This configuration is typically applied in high-flow and high-pressure wells where maintaining structural integrity and maximizing production efficiency are critical.
The coupling serves as a transition component within a tubing hanger assembly, allowing the tubing to be securely suspended in the wellhead without the need to rotate the Christmas tree during installation. This is made possible by its union nut design, which permits tightening from the side, simplifying assembly in tight or restricted spaces.
The 4 1/2” end is designed for upset tubing, which features thickened ends to provide stronger threaded connections capable of withstanding axial loads and internal pressure. This enhances the mechanical performance of the joint, reduces the risk of fatigue failure, and helps maintain seal integrity over long service periods. The coupling is also threaded to accept a back pressure valve, an essential feature that provides well control during servicing, installation, or emergency conditions.
To meet a variety of operational needs, the top and bottom threads can be customized according to site or equipment specifications. The coupling is typically manufactured from high-strength, corrosion-resistant materials and in compliance with industry standards such as API 5CT, ensuring it performs reliably under harsh downhole conditions.
Overall, the 6 7/8 x 4 1/2” Tubing Hanger Coupling is chosen for its ability to support larger bore wellhead designs while maintaining compatibility with standard tubing strings. It offers a dependable solution in completions where mechanical strength, pressure containment, and ease of assembly are priorities.
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Tracked-hoe Excavator of various sizes and brands available to fit your needs
Excavators contain four major pieces - a boom, dipper, bucket, and cab, all of which are located on a rotating platform known as the house. Excavators are versatile pieces of equipment that can be used in the following applications (to name just a few); Digging trenches, holes, and foundations Demolition with hydraulic claws, cutters, and breaker attachments Mining, especially, but not only open-pit mining Driving piles, in conjunction with a pile driver Dredging rivers Drilling shafts and rock blasting Snow removal with snowplow and snow blower attachments Forestry mulching Handling materials Brush cutting with saws and mower attachments General landscaping Forestry work Construction View Details
2-3/8 inch Halliburton WellStar TR-SCSSSV
The WellStar® tubing-retrievable safety valve (TRSV) is a general production, hydraulically operated, downhole TRSV. The rugged hydraulic actuator of the WellStar safety valve provides durability and isolates the internal workings from well fluids through its unique construction. The metal-to-metal (MTM) sealing integrity in the body joints and closure mechanism places it in a premium valve category while featuring an economical price. Proven through years of installations, the simple, compact design enhances the valve’s overall reliability and provides for trouble-free operation. Applications » General production completions Features » Simple, compact design » Complete MTM well containment in the closed position (body/seat connections and flapper) » MTM flapper sealing (no resilient seal required) » Unique hydraulic actuation (single-piece piston/ flow tube) » Hydraulic chamber construction isolates the majority of the internal valve components and exposes them to clean hydraulic fluid » Positive debris barrier at both ends of flow tube in full open position » Maximized piston area and spring force » Flow tube construction prevents well solids and debris from settling on top of the piston *information referenced from supplier catalog. View Details
Safety Valve for Water Injectors 5.71 inch
The WI retrievable injection valve is a high-performance, high-flow rate injection valve. High throughput is achieved by a unique valve configuration that minimizes turbulent and potentially erosive flow. Operation is not dependent on a specific flow rate, pressure, or setting depth, thus negating the need for adjustment over time. The valve incorporates a metal-to-metal valve and seat energized by the combination of an integral spring and well pressure acting from below. The WI injection valve can be deployed on a wireline lock or through-tubing pack-off device, providing flexibility not available with alternative injection valve systems. As a result of the simple design with fewer parts, redress and repair costs are considerably lower than those for other injection valve systems. Applications The WI injection valve is primarily used in water injection applications as an alternative to conventional tubing or wireline-set safety valves. The valve is also commonly used as a retrofit solution in water injectors in which a tubing to annulus leak has occurred. The valve can be deployed below the leak point to eliminate uncontrolled annulus pressure increases when the injection stops. Features » Compatible with all known lock systems » Dedicated designs to suit Halliburton EB0 intervention packers » Enhanced internal flow profile » Simple design and construction » Flow-loop testing performed to establish pressure drop versus pump rate *information referenced from supplier catalog. View Details
S-KWIK Control Line and Cable Protector
Cross coupling protectors are essential tools used in the oil and gas industry during the installation of completions in oil and gas wells. These protectors provide a variety of benefits that make them a necessary investment for any oil and gas company. Protects Control Lines: Cross coupling protectors help protect control lines from damage that can be caused by the installation process, environmental factors, and other external factors. By providing an extra layer of protection, the control line can last longer and reduce the need for costly repairs or replacements. Prevents Fluid Contamination in Cables: Cross coupling protectors prevent fluid contamination by keeping debris and other unwanted materials out of electrical cables during installation. This is particularly important in the oil and gas industry where contamination can lead to significant safety risks, equipment damage, and production losses. Reduces Maintenance Costs: The installation of cross coupling protectors can help reduce maintenance costs. By protecting control lines and cables the completion is less likely to require maintenance or repair. This can result in significant cost savings over the long-term. Improves Efficiency: Cross coupling protectors help to improve the efficiency of the installation process. By providing a secure connection and preventing contamination, the installation process can be completed more quickly and with fewer re-work. This can help to reduce downtime and increase productivity. Enhances Safety: Cross coupling protectors enhance safety by reducing the risk of equipment failure and fluid contamination. This can help to prevent accidents and injuries, and ensure that the installation process is completed safely. The use of cross coupling protectors is critical to the successful installation of tubing in oil wells. They provide numerous benefits including protecting tubing joints, preventing fluid contamination, reducing maintenance costs, improving efficiency, and enhancing safety. By investing in cross coupling protectors, oil and gas operators can ensure the long-term success of their operations while improving their bottom line. View Details
Ambient Storm Choke Valve 4 1/2 inch
Storm Choke® H safety valves are ambient-type, wireline retrievable valves that are normally closed and precharged with a set dome pressure. When the well flowing pressure drops below the predetermined dome-pressure charge, as a result of a rupture in the flowline or surface equipment, the dome pressure and valve spring are designed to close the valve, shutting in the well. The H valve is used in wells producing large volumes of abrasive fluids. Its large bore is not restricted by a flow bean. The valve is designed to resist pressure surges. A metal-to-metal (MTM) ball and seat is used as the primary closure mechanism. The H valve is ideal for protecting wells with declining bottomhole pressure because this valve is tubing pressure sensitive instead of velocity sensitive. To reopen, the valve pressure must be fully equalized either by applying pressure in the tubing from the surface or by running a prong to allow equalization from below. The valve will reopen when the tubing pressure acting on the internal piston area overcomes the dome charge. Applications » Wells producing large volumes of abrasive fluids » Wells with declining bottomhole pressure » Wells with no provisions for surface-controlled valves Features » Large bore not restricted by a flow bean » MTM ball and seat » Designed to resist pressure surges *description excerpted from manufacturers catalogue. View Details
4” Surface-Controlled Subsurface Safety Valve
Available sizes: 2 3/8”, 2 7/8”, 3 1/2”, 4”, 4 1/2”, 5”, 5 1/2'” and 7”.
The 4-inch Surface-Controlled Subsurface Safety Valve (SCSSV) is designed for installation in wells with 4-inch production tubing and serves as a critical safety device to shut in the well during uncontrolled flow events caused by equipment failure or loss of surface hydraulic control pressure. The valve operates via a hydraulically actuated flapper mechanism that remains open under normal operating pressure but closes automatically if the hydraulic signal is lost. This fail-safe design isolates the wellbore, preventing unintended release of hydrocarbons and protecting both personnel and the environment.
The flapper mechanism is simple and robust, minimizing moving parts in the flow path and reducing potential points of failure. When open, the sealing surfaces are positioned out of the fluid flow path, which helps maintain smooth production flow and reduces wear on sealing components. The valve’s hydraulic actuation allows reliable operation under varying pressure and flow conditions commonly encountered in oil and gas wells.
The valve is wireline retrievable, which means it can be removed, serviced, or replaced using wireline tools without the need to pull the entire tubing string from the well. This capability significantly reduces well intervention time and associated costs while allowing maintenance or upgrades to be performed efficiently.
This SCSSV fits standard landing nipples with a seal bore of 3.313 inches and is rated for working pressures up to 5,000 psi. Its internal valve diameter is 1.75 inches, providing an appropriate balance between flow capacity and structural integrity for wells with moderate to high flow rates. The 4-inch tubing size is common in many oil and gas production wells, making this valve size versatile across different field conditions.
This size is commonly applied in production wells where 4-inch tubing is standard, supporting reliable well control and efficient maintenance. Its hydraulic surface control and simple flapper design contribute to dependable operation under varying well conditions.
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Braided Line 7/32 inch Sour Service
Superior Strength and Durability: InWaTec Combined’s 7/32" Braided Line for Sour Service Operations In the demanding and intricate world of well interventions, particularly in sour service conditions, the need for equipment that can withstand the rigors of a corrosive environment is paramount. InWaTec Combined is proud to introduce our 7/32" Supa 75 braided line, a specialized solution crafted for the harsh realities of fishing operations in sour service conditions where hydrogen sulfide (H2S) and other corrosive agents are present. Our 7/32" Supa 75 braided line is at the heart of InWaTec Combined's sour service offerings. Designed with high tensile strength and resistance to corrosive elements, this braided line ensures that fishing operations can be carried out with confidence and security, even in environments where H2S poses a significant risk to standard equipment. Resilience Under Pressure: The Supa 75 braided line is not just another cable; it's a product of rigorous engineering and quality materials, able to endure the stressors of sour well conditions without compromising performance. Corrosion Resistance: Our braided line is treated and constructed to resist the corrosive action of sour gas, ensuring longevity and reliability. This means uninterrupted operations and fewer replacements, saving time and resources. High-Performance Operations: With the Supa 75 line, fishing operations are conducted more efficiently and safely. Its robust build allows for the extraction of stuck equipment from the wellbore without the fear of line failure. Safety as a Priority: The safety of well operations is a non-negotiable aspect of InWaTec Combined’s services. The Supa 75 line's integrity in sour environments means enhanced safety for personnel and the well itself. Our commitment to innovation and customer service means that alongside the provision of the 7/32" Supa 75 braided line, InWaTec Combined offers comprehensive support and expertise. We provide tailored solutions that meet the unique challenges of each operation, ensuring that our clients have the best tools and knowledge at their disposal. Choose InWaTec Combined for your sour service operations and benefit from the advanced performance of our 7/32" Supa 75 braided line. With our technology and support, you can expect to extend the life of your well, maintain production efficiency, and uphold the highest safety standards. Trust in our braided line to deliver when it matters most, ensuring that your operations continue to flow smoothly, even in the face of adversity. View Details
Wireline Retrievable FRN 4.5 inch SCSSSV
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
The 2″ Gas Metering Valve is designed to precisely control the flow of gas fuel in aero-derivative gas turbines, including the LM2500. By adjusting fuel delivery based on operating conditions, it maintains the optimal fuel-to-air ratio essential for safe, efficient, and reliable turbine operation.
Fuel metering valves act as the throttle control for gas turbines. Since turbines generate power by burning fuel mixed with compressed air, accurate regulation of this mixture directly impacts power output, efficiency, and emissions such as nitrogen oxides (NOx) and carbon monoxide (CO).
This valve delivers exceptional accuracy within ±1% of the flow point, ensuring consistent fuel delivery and optimal combustion. It is built to perform reliably in demanding environments and meets safety standards including ATEX, PED, and UL, certifying it for use in hazardous and extreme conditions.
The fuel metering valve is a two-inch right-angle style valve commonly used on aero-derivative turbines. It integrates easily into existing systems without requiring hydraulic or electrical changes. With millions of hours of proven field performance, it offers dependable, precise fuel control that enhances turbine efficiency and reduces fuel consumption.
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