The E3/E17 off-engine electrical cables are designed for resilience in the toughest of applications. To protect the critical wiring components from exposure to harsh environmental conditions, these cables incorporate rugged materials and advanced protective features.

Used with LM2500 gas turbines, these cables are located outside the engine and serve as essential links between the turbine’s internal control systems and external instrumentation, control panels, and auxiliary equipment.

Built to withstand vibration, moisture, extreme temperatures, and chemical exposure, E3/E17 cable harnesses include stainless steel connectors, rubber or fluoropolymer over-molding, and electromagnetic interference (EMI) shielding to maintain signal integrity and durability.

The E3/E17 classifications indicate different cable configurations and connector types tailored for specific LM turbine system requirements. Both ensure reliable transmission of electrical power and control signals critical to turbine operation, safety, and performance monitoring.

Manufactured with custom materials and protective coatings, these cables comply with hazardous location standards such as ATEX and UL/CSA certifications. Their robust design provides long service life with minimal maintenance, supporting high fleet availability and operational reliability.

In oil and gas applications, where equipment is exposed to extreme environments and strict safety regulations, the E3/E17 off-engine cables offer dependable, durable connectivity. Their rugged construction and certification for hazardous locations make them ideal for maintaining safe, continuous turbine operation in demanding field conditions.

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.

The LM2500XPRESS+G5 DLE UPT is a modular aeroderivative gas turbine system built for fast, flexible, and efficient power generation in both onshore and offshore environments. It is particularly well-suited for applications across LNG facilities, gas pipelines, gas processing plants, and general power generation, including electricity production at both 50 and 60 Hz, without the need for a speed reducer.

The "+G5" designation refers to its fifth-generation power turbine, offering the highest output and efficiency in the 20–40 MW class. It supports both high-speed and low-speed power turbine configurations, allowing integration into a variety of grid or mechanical drive systems.

At its core, the G5 includes a high-pressure compressor derived from the LM2500+G4, now redesigned for longer service life. In a simple cycle, it achieves up to 41% efficiency, which is notable for a turbine of this size class. The system can start from cold and reach load in about five minutes, making it ideal for rapid-response applications.

The unit is built for speed and simplicity. It’s shipped in preassembled modules, with a compact footprint that helps reduce installation time.

The Dry Low Emissions (DLE) system supports environmental compliance without requiring water or steam injection, simplifying operations and reducing resource demands.

Altogether, the LM2500XPRESS+G5 DLE UPT provides a practical solution for projects that need reliable, fast, and efficient power without a complex setup.

The LM2500+ DLE gas turbine is designed to provide reliable, efficient while meeting strict environmental rules. Ideal for power plants where emissions limits and water availability are critical concerns, the LM2500+ DLE provides clean, flexible, and high-performance power generation.

Using advanced Dry Low Emissions (DLE) technology, it reduces nitrogen oxide (NOx) and carbon monoxide (CO) emissions without requiring water or steam injection. This makes it especially valuable for facilities aiming to minimize environmental impact and avoid the operational complexity and maintenance costs associated with water-based emissions control systems.

The turbine’s ability to maintain NOx emissions below 25 ppm on natural gas—and as low as 15 ppm under certain conditions—ensures compliance with tough air quality standards.

With a power output exceeding 31 megawatts and thermal efficiency above 40%, the LM2500+ DLE suits a broad range of applications, from utility-scale electricity generation to industrial cogeneration and offshore power. Its fast start capability and robust cycling performance enable it to respond quickly to fluctuating grid demands, making it an excellent partner for integrating renewable energy sources.

Fuel flexibility extends the LM2500+ DLE’s usability across different operational contexts. It runs smoothly on natural gas, diesel, aviation fuels, and even hydrogen blends—offering operators confidence and versatility regardless of fuel availability or market conditions.

Maintenance is simplified thanks to the turbine’s modular design, allowing rapid access and part replacement. This reduces downtime and keeps plants running efficiently, enhancing overall productivity.

Combining power, efficiency, emissions control, and fuel flexibility, the LM2500+ DLE supports effective and compliant power generation in a variety of operational settings.

The Bearing, Roller, Cylindrical No. 6R is a precision-engineered component used in LM2500 aero-derivative gas turbines commonly employed in the oil and gas sector. Installed at the No. 6R position, this cylindrical roller bearing supports the turbine’s rotor shaft by carrying radial loads and maintaining accurate shaft alignment during high-speed operation.

Its specialized roller design allows it to withstand intense mechanical stresses and thermal changes typical in demanding oil and gas environments. By reducing vibration and ensuring smooth rotation, the bearing contributes to stable and efficient turbine performance, which is critical for continuous operation in upstream, midstream, and downstream applications.

The No. 6R bearing’s role in maintaining precise shaft positioning supports the overall durability and reliability of LM2500 turbines used in gas compression, power generation, and offshore platforms, making it a key element in sustaining safe and efficient operations within the oil and gas industry.

The LM2500 exhaust system is an essential part of the LM2500 gas turbine, designed to handle the hot gases produced during turbine operation. Made from high-quality stainless steel, it is built to withstand extreme temperatures and harsh conditions, ensuring long-lasting durability.

The main purpose of the exhaust system is to safely direct these hot gases away from the turbine while reducing back pressure. Back pressure is the resistance the turbine faces when pushing out exhaust gases—lower back pressure means the turbine can run more efficiently, producing more power with less stress on its components.

This exhaust system is carefully designed to match the specific needs of the LM2500 turbine, ensuring smooth and efficient gas flow. It often works together with silencers or emission controls to release gases safely into the atmosphere while meeting environmental standards.

You would look for a new or replacement LM2500 exhaust system when installing a new turbine, upgrading to improve performance, replacing worn or damaged parts, or meeting updated environmental regulations. Choosing the right exhaust system is crucial because it directly affects the turbine’s performance, reliability, and maintenance costs. A well-designed exhaust system helps keep the turbine running efficiently and reduces the chance of costly downtime—critical factors for operations in oil and gas industries where reliability and efficiency are vital.