The LM2500 High Pressure Turbine (HPT) Vertical Stand is a support fixture designed to hold the HPT module of the LM2500 gas turbine in a vertical position. It is mainly used during maintenance, inspection, or transport of the turbine module.

By keeping the turbine upright, the stand helps ensure that the module stays stable and properly aligned while work is being done. This setup also makes it easier for technicians to access certain areas of the HPT that would be harder to reach if the module were lying flat.

The stand is built to handle the weight of the HPT and includes features like mounting points or forklift slots for safe and easy movement within a workshop or maintenance area. It is commonly used in the oil and gas industry where LM2500 turbines are found in power generation or mechanical drive applications.

In short, the HPT Vertical Stand is a practical tool that helps keep the turbine secure, makes maintenance tasks safer, and supports good handling practices.

The 6″ Butterfly Bleed Air Valve is designed to regulate the flow of compressed bleed air from the compressor section of large gas turbines, such as the LM2500. This valve uses a butterfly-shaped disc permanently attached to a robust shaft, allowing precise control over airflow to reduce pressure and temperature within the turbine system.

With an effective flow area of 19.1 square inches max, this valve accommodates higher volumes of bleed air, making it suitable for turbines with greater airflow requirements. It features a fast response time—less than 320 milliseconds for a full stroke—ensuring timely adjustments to changing operating conditions. The valve’s bearings are engineered for high cycle service, providing durability and reliability even under frequent opening and closing cycles.

The 6″ valve helps protect turbine components by managing thermal loads and maintaining optimal compressor performance, which in turn improves overall turbine efficiency and extends equipment life. It is commonly used in oil and gas applications where maintaining safe, efficient, and reliable turbine operation is critical. This valve also serves as a drop-in replacement in existing turbine systems, requiring no hydraulic or electrical modifications, simplifying installation and reducing downtime.

The 3” Gas Fuel Isolation Valve is designed for use in industrial gas turbines within the oil and gas sector, serving as a vital safety and control device. It regulates the flow of natural gas or compressor discharge air to the turbine, enabling quick isolation of fuel supply during abnormal or emergency conditions to protect the turbine from damage.

This valve features a three-inch outlet flange and is solenoid-pilot actuated, operating on 24 or 95-140 VDC power. It is engineered to withstand high-pressure environments, with natural gas operation rated up to 900 psig and compressor air up to 640 psig. It also endures elevated temperatures, tolerating heat soak conditions up to 400°F for natural gas and up to 800°F for compressor air applications.

Constructed from stainless steel materials compliant with NACE standards, the valve resists corrosion in harsh operating conditions typical in oil and gas facilities. It meets strict safety certifications, including CE-ATEX Group IIA, Category 3, Zone 2, T3, making it suitable for use in potentially explosive atmospheres.

The valve operates with a rapid opening time of approximately 110 milliseconds and closes within 1 second, enabling prompt response to operational changes or emergency shutdown signals. Typically installed in pairs to provide dual-redundancy, these valves enhance system safety by ensuring backup isolation capability.

Overall, the 3” Gas Fuel Isolation Valve is essential for maintaining safe, efficient, and reliable turbine operation by controlling and isolating fuel or air flow, thereby preventing damage and reducing the risk of costly downtime in oil and gas power generation applications.

The LM2500+ DLE gas turbine is a high-performance solution for power generation in industrial, onshore, and offshore environments where emissions control and water availability are key concerns. Delivering over 30 megawatts of power and up to 40% thermal efficiency in simple cycle operation, it offers reliable performance with low environmental impact.

At the core of its design is the advanced Dry Low Emissions (DLE) combustion system, which reduces NOx and unburned hydrocarbon emissions without the need for water or steam injection. The system achieves this by precisely managing combustion conditions and lowering flame temperature. A triple annular combustor configuration enables fuel to burn more evenly at lower temperatures across a larger area, while new electrically actuated fuel metering valves enhance control and reduce complexity compared to older electro-hydraulic systems.

The LM2500+ DLE also features a 17-stage axial compressor for increased airflow and output, along with a modular, open design that enables faster maintenance and engine replacement. Its fast start capability makes it suitable for operations requiring multiple starts and stops per day.

Whether powering industrial facilities, pipeline networks, or combined heat and power (CHP) systems, the LM2500+ DLE offers a dependable and efficient gas turbine solution that balances operational flexibility with emissions performance.