Micro Gas Turbine Series Characteristics
Micro Gas Turbine Series Working Principle
The micro gas turbine operates on the Brayton cycle. Filtered air is first drawn into the compressor and pressurized. The discharged high-pressure air then enters the combustion chamber, where it mixes with fuel and ignites. The resulting high-temperature, high-pressure gas expands through the turbine, generating work that drives the generator to produce electricity. The high-temperature exhaust gases can be channeled into waste heat recovery equipment, achieving cascaded energy utilization.
The MT200 series units incorporate a new combustion chamber design. In addition to conventional fuels like coal-based diesel, methanol, and ethanol, they can also maintain excellent emission indicators even when burning various chemical waste liquids. This makes them suitable for applications such as combined cooling, heating, and power (CCHP) systems, as well as for waste liquid and gas treatment units.
Micro Gas Turbine Series Advantages:
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Capable of burning waste liquids, waste gases, and biomass.
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Low emissions.
Micro Gas Turbine Series Specification
| Technical Specifications | Parameter | Unit |
| Rated Electrical Power | 230 | kW |
| Cooling/Heating Capacity | 636 | kW |
| Exhaust Temperature | 650 | kW |
| Exhaust Flow Rate | 2.3 | ℃ |
| Applicable Fuel | Liquids: Conventional coal, diesel, methanol, chemical waste liquids. Gases: Natural gas, hydrogen, etc. |
|
| Fuel Consumption | 178 | L/h |
| Hydrogen Consumption | 478.5 | Nm³/h |
| Cogeneration Steam Output | 0.91 | t/h |
| Cogeneration Efficiency | 81 | % |
| Cooling/Heating Supply | 11000~25000 | m³ |
| NOx Emissions | <25ppm/15ppm (non-fuel NOx) | |
| Noise Level | <85 | db |
| External Dimensions | 6000X2400X2800 | mm |
| Weight | 7 | t |
