One brand new frame 5001P Gas Turbine Rotor bucketed assembly Ex-stock, subject to prior sale. The brand-new rotor will be available Ex-works Europe within 5 Weeks of order placement in conformity with our proposal.
1.2. Rotor assembly Information’s
Background and basics information:
Manufacturer: OEM GE Power systems
Drawing number of rotor assembly:
- PN 145C4900G006/SMO 1104840 (Suitable with all unit Fr 5001P-PA with standard flange design on AFT stub shaft PN 132D5807G02)
Turbine blades new tech design installed on the rotor (two stages turbine blades):
- First stage turbine bucket 5001P-PA (120 blade) PN: SMU 48331
- Second Stage turbine 5001P-PA (90 blade) PN: SMU 48340
Compressor rotor blades configuration (seventeen stages axial compressor):
- Rows 0 to 2/ C450 uncoated material
- Rows 3 to 7/ 403Cb material coated GECC1
- Rows 8 to 16/403Cb material uncoated
1.3. Scope of Supply
The New Brand Fr5 Gas turbine rotor assembly will be supply as per the specification below:
• Complete certificate package for new Brand rotor assembly.
• Seller export documents before the shipment.
Warranty is included
Price is € 1,550,000 Ex work
please advise your interest
101-802 , Bundangro 190
Seongnam city, Kyonggido
The General Electric (GE) Frame 5001P gas turbine is a type of heavy-duty gas turbine designed for use in power generation applications, particularly in large-scale power plants. The Frame 5001P is part of GE's popular 5000 series of gas turbines, which are known for their high efficiency, reliability, and flexibility.
The Frame 5001P gas turbine is capable of producing up to 110 megawatts (MW) of power, making it one of the larger models in the 5000 series. It operates on natural gas or liquid fuel and can be configured for single or combined cycle applications.
Some key features of the Frame 5001P gas turbine include:
Advanced combustion technology: The turbine's DLN (Dry Low NOx) combustion system is designed to reduce emissions and improve efficiency.
Durable design: The turbine's robust, industrial-grade design helps to ensure reliable operation even in harsh environments or extreme temperatures.
Advanced controls: The turbine's advanced control systems allow for precise monitoring and operation, as well as remote control and automation capabilities.
Flexibility: The Frame 5001P can be configured for a wide range of power generation applications, including baseload, peaking, or cogeneration.
Overall, the GE Frame 5001P gas turbine is a powerful and reliable choice for large-scale power generation projects, offering advanced features and technologies that can help operators achieve high efficiency and low emissions.
The General Electric Frame 5001P Gas Turbine manual can be found on the GE website or by contacting GE directly. Here are the steps to follow to find the manual:
Go to the GE website at www.ge.com.
Click on "Power" at the top of the page.
Select "Gas Turbines" from the drop-down menu.
Select "Heavy-Duty Gas Turbines" from the next drop-down menu.
Scroll down and find the Frame 5001P Gas Turbine.
Click on the "Downloads" tab.
Here, you should be able to find various manuals and technical documents related to the Frame 5001P Gas Turbine. You may need to register for a GE account to access these documents.
Alternatively, you can contact GE directly to request a copy of the manual. You can find contact information for GE on their website, or by calling their customer service line.
Like any complex machinery, the General Electric (GE) Frame 5001P gas turbine may experience problems or issues. Some potential issues that have been reported by users of this gas turbine include:
Combustion instability: The Frame 5001P's Dry Low NOx (DLN) combustion system is designed to reduce emissions and improve efficiency, but it can be sensitive to changes in fuel composition or other factors, which can cause combustion instability and potential damage to the turbine.
Vibration and wear: The high-speed rotating components of the Frame 5001P can experience wear and vibration over time, which can lead to reduced efficiency, increased maintenance needs, or even component failure.
Control system issues: The advanced control systems used in the Frame 5001P can be complex, and problems with sensors, wiring, or software can lead to poor performance or even shutdowns.
Fuel system problems: Issues with the fuel supply or fuel injection system can cause poor performance or even damage to the turbine.
Blade damage: The turbine's blades are subject to high stress and wear, and damage or erosion of the blades can lead to reduced efficiency or even catastrophic failure.
It's worth noting that many of these issues can be avoided or minimized through regular maintenance and inspection of the turbine and its components. By following the manufacturer's recommended maintenance schedule and promptly addressing any potential issues, users can help ensure that their Frame 5001P gas turbine remains reliable and performs at its best.
The General Electric (GE) Frame 5 gas turbine rotor is the rotating component of the gas turbine that converts the energy of the combustion process into mechanical energy to drive the generator or other machinery. The rotor is made up of several key components, including the rotor shaft, the compressor and turbine blades, and various seals and bearings.
The Frame 5 gas turbine rotor is part of GE's popular Frame 5 gas turbine series, which has been in operation around the world for many years. These gas turbines are used in a wide range of applications, including power generation, oil and gas production, and industrial processes.
The rotor is one of the most critical components of a gas turbine, and its design and construction must be carefully engineered to withstand the high temperatures, pressures, and stresses of operation. The Frame 5 rotor is designed for long-term reliability and durability, with advanced materials and coatings used to protect against corrosion and wear.
In general, the Frame 5 gas turbine rotor is a highly engineered and complex component that plays a critical role in the performance and reliability of the gas turbine. Regular maintenance and inspection of the rotor and its components are essential to ensure safe and efficient operation over the life of the turbine.