Our Parts Division is a premier worldwide supplier of replacement steam and gas turbine parts and components. Specializing in the manufacture and supply of turbine parts such as packing rings and spill strips, we can also offer a variety of other non-rotating steam and gas turbine parts, from fasteners to valves.

Apart from Service and Reverse Engineering Products, We are providing a wide range of gas turbine spare parts. We can revert to own stock and a worldwide network of well-known and certified suppliers. This enables us to offer for worldwide activities either from stock or with a minimal lead time. Our delivery possibilities include spare parts for the following brands and types:

• Siemens (e.g. V94.2)
• Westinghouse (e.g. W251)
• General Electric (e.g. Frame 5, 6, 7, 9)
• Solar (e.g. Centaur, Saturn)

We are committed to achieving total quality performance by continuous drive towards enhancing quality experience, reliable and competitive source for all of their gas turbine needs. A one-stop-shop responsive service to serve customer’s personalized operation demands.With our partnership arrangements our services are managed and operated by experienced, fully trained staff, many of whom are resident in the markets we support to meet the varying requirements that each operation and application demands

Capital Parts

Gas turbines are complex machines that convert fuel into mechanical energy through a high-temperature, high-pressure gas flow. The capital parts of a gas turbine are critical components that ensure its efficient operation. Here’s a description of the main capital parts of a gas turbine:

Compressor:

The compressor is responsible for taking in ambient air and compressing it to high pressure. It consists of several stages of rotating and stationary blades (also known as rotor and stator blades) that work together to compress the air.

Combustor:

The combustor, or combustion chamber, is where the compressed air is mixed with fuel and ignited. This process generates a high-temperature, high-pressure gas. The combustor typically includes fuel injectors, igniters, and combustion liners.

Turbine:

The turbine section extracts energy from the high-pressure, high-temperature gas produced in the combustor. It consists of multiple stages of rotating and stationary blades, similar to the compressor. The turbine blades are designed to withstand extreme temperatures and stresses as they convert thermal energy into mechanical energy.

Rotor:

The rotor is a shaft that runs through the center of the turbine and connects the compressor and turbine sections. It transmits the mechanical energy generated by the turbine to the generator or other machinery.

Stator:

The stator consists of stationary blades that direct the flow of air or gas through the compressor and turbine sections. They help to maintain the efficiency and stability of the gas flow.

Casing:

The casing is the outer shell that encases the internal components of the gas turbine. It provides structural support and helps to contain the high-pressure gas within the turbine.

Bearings:

Bearings support the rotor and allow it to rotate smoothly within the casing. They are critical for maintaining the alignment and stability of the rotor.

Cooling System:

The cooling system includes various components such as cooling air passages, heat exchangers, and cooling blades that help to manage the temperature within the turbine and prevent overheating of critical parts.

Fuel System:

The fuel system includes fuel pumps, injectors, and control valves that regulate the flow of fuel into the combustor. It ensures that the correct amount of fuel is delivered for efficient combustion.

Control System:

The control system monitors and regulates the operation of the gas turbine. It includes sensors, actuators, and a control unit that manages parameters such as fuel flow, temperature, and rotational speed.

Exhaust System:

The exhaust system directs the flow of hot gases out of the turbine after they have passed through the turbine section. It typically includes an exhaust diffuser and exhaust stack.

Auxiliary parts

Gas turbine auxiliary parts are essential for supporting the main operation of the gas turbine and ensuring its efficient and reliable performance. Here’s a description of the key auxiliary parts of a gas turbine:

Fuel System:

The fuel system includes pumps, filters, fuel injectors, and control valves. It is responsible for delivering and regulating the flow of fuel to the combustor. Fuel can be natural gas, liquid fuels, or a combination.

Lubrication System:

This system lubricates the bearings and other moving parts to reduce friction and wear. It includes oil pumps, filters, coolers, and piping.

Cooling System:

The cooling system manages the temperature of various components, especially the turbine blades and other high-temperature areas. It uses air or oil as the cooling medium.

Starting System:

The starting system initiates the rotation of the gas turbine to a speed where it can operate independently. It often includes an electric motor or a small auxiliary gas turbine.

Control System:

The control system monitors and regulates the operation of the gas turbine, ensuring optimal performance and safety. It includes sensors, controllers, and actuators.

Exhaust System:

The exhaust system manages the flow of exhaust gases out of the turbine and often includes mechanisms to reduce noise and emissions.

Power Transmission System:

This system transmits the mechanical energy produced by the turbine to the generator or other machinery. It includes couplings and gearboxes.

Electrical System:

The electrical system provides power for auxiliary systems and controls, including the starting system, lubrication system, and instrumentation.

Fire Protection System:

This system detects and suppresses fires to protect the gas turbine and surrounding equipment.