Generators
Mitsubishi Power provides turbine generators that employ a range of cooling systems, such as air cooling, hydrogen cooling, as well as water/hydrogen cooling generators. We design and manufacture unique generators (such as short-circuit generators) and provide expertise for an array of customer needs.
Product Lineup
The turbine generators with the optimum generating capacity and cooling method can be selected based on customer needs (efficiency, dimensional restrictions, voltage) and plant output.
Specifications
RG-Z Series
- Water/Hydrogen Cooled Generators
- Capacity: 500-1,400 MVA
- Voltage: Up to 27kV
- Power Factor: 0.8 (lagging) - 0.9 (leading)
RG-Y Series
- Hydrogen Cooled Generators
- Capacity: 250 -900 MVA
- Voltage: Up to 24kV
- Efficiency: High (at least 99%)
RG-X Series
- Air Cooled Generators
- Capacity: Up to 350 MVA
- Voltage: 10-24kV
- Construction: Fully Enclosed Type / Open Type
RG-N Series
- Generators for Nuclear Power Plants
- Capacity: 500 - 2,000 MVA
- Voltage: Up to 27kV
Generators for Special Application
- Short-circuit Generators
- Synchronous Condenser
- Generators for MG set
- RG-Z Series
- RG-Y Series
- RG-X Series
- RG-N Series
- Special Generators
Overview
Water/ Hydrogen cooled turbine generators are primarily used in thermal power plants with output of at least 600 MW that require high reliability and long-term continuous operation.
Features
- High reliability with support for long-term continuous operation
- Technology for higher capacities (1,400 MVA class)
- Supports gas turbines, steam turbines and combined cycle turbines
Specifications
Generator Capacity | 500-1,400 MVA |
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Voltage | Up to 27kV |
Applicable Standards | IEC 60034, IEEE C50.13, JEC-2130 |
Insulation Class | 155 (F) or 130 (B) |
Excitation System | Static |
Options | Supports outdoor installation, transportation by freight car and leading power factor operation (power factor of 0.8) |
Overview
Hydrogen cooled turbine generators enable high capacity and highly efficient operation by using hydrogen gas, with its superior cooling features, as the coolant inside the generator. We also supply the gas control system and seal oil system needed when handling hydrogen gas together with the product, offering the set as a total system that boasts excellent maintainability.
Feature
- High Efficiency (at least 99% possible)
- Technology for higher capacities (900 MVA class)
- Supports gas turbines, steam turbines and combined cycle turbines
Specifications
Generator Capacity | 250 - 900 MVA |
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Voltage | 10 to 24kV, or specified voltage |
Applicable Standards | IEC 60034, IEEE C50.13, JEC-2130 |
Insulation Class | 155 (F) or 130 (B) |
Excitation System | Static |
Options | Supports outdoor installation, transportation by freight car, leading power factor operation : 0.8 |
Overview
The air cooled turbine generator features excellent maintainability, has few limitations on installation location and is used by a diverse range of customers.
Moreover, to meet specific customer needs we can improve capacity or efficiency, produce low-noise operation or adopt specifications for cold regions, and also provide either an open type or fully enclosed type (CACA: closed air circuit air cooled, TEWAC: totally enclosed water to air cooled).
Features
- Supports open type and fully enclosed types (CACA, TEWAC)
- Supports high efficiency (at least 98.5%)
- Supports low-noise operation (80dBA)
Specifications
Generator Capacity | Up to 350 MVA |
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Voltage | 10 to 18kV, or specified voltage |
Applicable Standards | IEC 60034, IEEE C50.13, JEC-2130 |
Insulation Class | 155 (F) or 130 (B) |
Excitation System | Brushless |
Options | Permanent magnet generator, Static Exciter, Leading power factor operation : 0.8 |
Overview
Turbine generators for nuclear power plants demand the highest levels of reliability. Based on our track record in generator performance, Mitsubishi Power can apply the latest technologies to provide capacities up to the 2,000 MVA class.
Features
- High reliability
- Technology for higher capacities (2,000 MVA class)
- Proposal and implementation of long-term operational plans
Specifications
Generator Capacity | 500 - 2,000 MVA |
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Voltage | Up to 27kV |
Rotational Speed | 1,500 min-1, or 1,800 min-1 |
Applicable Standards | IEC 60034, IEEE C50.13, JEC-2130 |
Insulation Class | 155 (F) or 130 (B) |
Excitation System | Static |
Overview
Using technologies developed in turbine generators for thermal power plants, Mitsubishi Power is able to design and manufacture generators for special applications.
Mitsubishi Power has established a track record of delivering short-circuit generators to research institutions and manufacturers. These generators intentionally produce short circuits and utilize the large currents produced by short circuits as a way to test and verify electrical equipment.
Synchronous condensers use generators to control reactive power with the aim of contributing to system stability.
MG (Motor-Generator) set is used as a variable-speed power source for the recirculation pump of a nuclear reactor, enabling safe shutdown of the reactor in the event of a power loss.
Features
- Short-circuit generator for testing equipment
- Synchronous condensers for reactive power control
- Generators for MG set used as a recirculating pump power supply for a nuclear reactor
Specifications
Generator Capacity | Optional |
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Rotational Speed | Designated speed |
Applicable Standards | IEC 60034, IEEE C50.13, JEC-2130 |
Insulation Class | 155 (F) or 130 (B) |
Generator Services
Track Record of Delivery
Mitsubishi Power has delivered more than 1,000 turbine generators worldwide to date. Our operational track record has earned a reputation for reliability.
Realizing Outstanding Reliability and Efficiency with Proven Technologies
Mitsubishi Power possesses dependable technologies that achieve high levels of reliability and performance with the application of analysis and verification systems. They are backed up by an extensive operating track record along with the latest technologies.
- Generator Analysis Technologies
- Technologies for Higher Capacities
- Monitoring Technologies
- Reverse Engineering Technologies