Price for the each complete unit is $1.3 Million, but slight negotiable.Simple cycled power plant
Plant were shut down in 2017-2018
|Gas Turbine||GT4||GT 5||GT 6||GT 7||GT 8|
|Year of Installation||14.04.1985||12.04.1985||27.10.1987||17.11.1987||23.07.1990|
|Installed Capacity in MW||27.90||27.90||28.89||28.89||28.17|
|TURBINE||Type / Model||MS6001 (6531)||MS6001 (6531)||PG6461||PG6461||PG6541B|
|Starting Means||Diesel Engine||Diesel Engine||Electric Motor||Electric Motor||Electric Motor|
|GENERATOR||Type / Model||BDAX7-225R||BDAX7-225R||T190-240||T190-240||BDAX7-225PR|
|Gen. capacity in MVA||34.760||34.760||36.125||36.125||34.760|
|Main Transformer Manufacturer||VOLTA WERKE||CROMPTON GREAVES||ALSTOM ATLANTIC||ALSTOM ATLANTIC||HAWKER SIDDELEY|
|Turbine Generator Control System||MRK II SPEEDTRONIC (WITH ITS)||MRK II SPEEDTRONIC (WITH ITS)||MRK II SPEEDTRONIC (WITH ITS)||MRK II SPEEDTRONIC (WITH ITS)||MARK IV SPEEDTRONIC|
|Date of Major Inspection||31.01.09||11/16/2015||11.1.04||19.02.05||1/20/2018|
|Last Major Maintenance Activity||HGPI
|Hours in Operation (As of September 30 2018)||134,628.2||122,810.1||133,487.1||127,646.2||114,828.3|
|Fired Starts (As of September 30 2018)||2,843||3,257||3,797||3,495||3,275|
Please contact me for more details
101-802 , Bundangro 190
Seongnam city, Kyonggido
The General Electric (GE) Frame 6 gas turbine is a model of gas turbine used for power generation in a variety of industries worldwide. They are part of the larger GE frame series of turbines, which includes models such as Frame 5, Frame 6, Frame 7, and so on, each with different power outputs and capabilities.
When you mention "5 sets of Frame 6 gas turbines," it suggests you're referring to five units of the GE Frame 6 model. This could be for a large-scale power generation project, such as a power plant, as these turbines are often used in multiples to generate the required amount of power.
Key features of the GE Frame 6 gas turbine include:
Output: The Frame 6B type has a power output range of 40 MW to 70 MW, although exact output can vary depending on the specific configuration and conditions.
Efficiency: These turbines are designed for high thermal efficiency and reliability, which makes them a cost-effective choice for power generation.
Fuel Flexibility: They can run on a wide variety of fuels, including natural gas, light and heavy distillate oil, and dual fuel capability.
Applications: They are used in power plants for utilities, independent power producers, and industrial co-generation (where both electricity and useful heat are produced simultaneously).
Remember, these are general features of the GE Frame 6 gas turbine, and the specifications can vary depending on the exact model and its configuration.
A simple cycle power plant is a type of power generation facility that operates by running a gas turbine to generate electricity. The term "simple cycle" describes the most basic process of electricity generation in a gas turbine, where fuel is combusted in air to produce hot gases that flow through and spin the turbine, which drives the generator to produce electricity.
Here's a simplified version of the process:
Air Intake: Air is drawn into the compressor of the turbine.
Combustion: The compressed air is mixed with fuel (such as natural gas) and ignited in the combustion chamber, creating high-temperature, high-pressure gas.
Power Generation: This high-energy gas flows across the turbine blades, causing them to spin, which in turn drives the electrical generator connected to the turbine.
Exhaust: The exhaust gas is released into the atmosphere (or possibly used for heating in a combined heat and power system, though this would no longer be a simple cycle).
"50 Hz" refers to the frequency of the electrical power produced by the power plant. In many parts of the world, including Europe and most of Asia and Africa, the standard power frequency is 50 Hz (hertz). In other regions, such as North America, the standard is 60 Hz. This frequency needs to be consistent because many electrical devices are designed to operate correctly at the standard frequency of their intended location.
A simple cycle power plant is less efficient than a combined cycle power plant, which uses the exhaust heat to generate steam and power a steam turbine for additional electricity generation. However, simple cycle plants are generally easier to construct and can start up and shut down more quickly, making them useful for providing power during peak demand periods or when other sources of power are not available.
When you mention "General Electric 5 Sets of Frame 6 Gas Turbines - Simple Cycled 50 HZ Plant," you're referring to a power generation facility that's using five units of GE's Frame 6 gas turbines in a simple cycle configuration, and the electricity output is set to a frequency of 50 Hertz (Hz).
Let's break it down further:
General Electric 5 Sets of Frame 6 Gas Turbines: This refers to five units of the GE Frame 6 model of gas turbines. These turbines are known for their high performance, reliability, and fuel flexibility. They are often used for power generation in utilities, independent power producers, and industrial co-generation.
Simple Cycled: In this configuration, the gas turbines operate in a simple cycle mode. This means that the hot exhaust gases produced by the combustion process in the turbine are vented out directly after spinning the turbine blades. While this type of setup is less efficient than a combined cycle (which reuses the exhaust heat to generate steam and produce additional electricity), it's generally simpler and quicker to set up and operate.
50 HZ Plant: This denotes that the power plant is designed to generate electrical power at a frequency of 50 Hz, which is the standard electrical grid frequency for many parts of the world, including most of Europe, Asia, and Africa.
In summary, this power plant uses five GE Frame 6 gas turbines in a simple cycle configuration to generate electrical power at a frequency of 50 Hz.