Comprehensive Efforts from Development to Manufacturing
Summary of Orders
Development History
Product Selection Assistant (Middle & small Class)
Aero-derivative Gas Turbines
Product Lineup
Steam Turbines
Product Lineup
Breakthroughs in Steam Conditions
Supply Records and Development History
Technical Information
Boilers
Product Lineup
Boiler Machinery
Technical Information
Air Quality Control Systems (AQCS)
Product Lineup
AQCS Research & Development
AQCS Global Network
Global Supply Record
Delivery Results
Generators
Control Systems
What is DIASYS?
DIASYS Netmation
DIASYS Optional Products
Fuel Cells
Additive Manufacturing
High-performance powder manufacturing equipment
High-Performance Powder
AM-Zone®
Services
Gas Turbines
Aero-Derivative Gas Turbines
Steam Turbines
Boilers
Air Quality Control Systems (AQCS)
Long Term Service Agreement
Support of Operation and Maintenance
intelligent solutions, “TOMONI”
TOMONI HUB
TOMONI Downloads
TOMONI Collaboration
Tomoni Smarter
Tomoni Powerful
Training
Comprehensive Maintenance
Generators
Case Studies
Real-time Visualization of Geothermal Power Generation Contributing to Improve Performance and Profitability
Geothermal Power for Sustainable Development in Kenya
High-efficiency Fuel Cells Contributing to Energy Revolution
Uzbekistan's Natural Gas Power Generation Reborn with State-of-the-Art Facilities
Making Electricity from Exhaust Gases for the Decarbonization of China's Steel Industry
Breakthrough Energy Solution for Rapidly Growing Jakarta
Shifting from Coal to Natural Gas, Creating a New Model for Sustainable Power Generation
Pursuing Clean and Reliable Power Generation
Aiming for Clean Power Generation with 100% Hydrogen
Fast-forwarding Decarbonization in Taiwanwith Natural Gas-fired Cogeneration Facilities
Sustainability
MHI Custom Search Box
Breadcrumb
Home -
Products -
Gas Turbines -
Product Lineup -
H-100 Series
H-100 Series Gas Turbines
Standalone Gas Turbine Output
100-120 MW class
Combined Cycle Output
150-170 MW / 300-350 MW class
Standalone Gas Turbine
Quick start-up in 10 minutes
Suited to power generation and mechanical drive applications
The world's largest-class high efficiency two-shaft gas turbines
The H-100 Series gas turbines were developed for utility customers and industrial customers in both 50 Hz and 60 Hz regions. The first unit came into commercial operation in 2010.
Then Mitsubishi Power continued its efforts to improve the design of the H-100 Series gas turbines. While incorporating advanced elemental technologies and material technologies verified with the H Series gas turbines, we are continuously working to improve performance.
H-100 Gas Turbines
Features
Specifications
Layout
Replacement
Delivery Records
Overview
H-100 Series units are the world's largest capacity two-shaft gas turbines based on a great deal of experience in manufacturing gas turbines and achievements in the development of the H-25 and H-15 Series.
They achieve high efficiency as part of combined cycle plants with heat recovery boilers, co-generation systems or other combined cycle power plants.
The H-100 Series features simple cycle gas turbine output of 105 MW to 116 MW and an output range of 150 MW to 350 MW in combined cycle. As two-shaft gas turbines, they are suited to mechanical drive applications.
Features
Heavy duty design: A heavy and highly reliable structure designed in consideration of ease of maintenance and long-term continuous operation
High efficiency: High performance in various power generation cycles (simple, combined and co-generation)
Package type: Easy to carry and install
The series is applicable not only for power generation but also for mechanical drive.
Configuration
H-100 60Hz
H-100 50Hz
Compressor
Number of Stages
17
17
Combustor
Number of Cans
10
10
Cooling Method
Air Cooled
Air Cooled
Turbine
Number of Stages
HP: 2 LP: 2
HP: 2 LP: 2
Rotor
Number of Rotors
2
2
Output Shaft
Hot End
Hot End
Rated Speed
HP: 4,580 rpm LP: 3,600 rpm
HP: 4,580 rpm LP: 3,000 rpm
Gas Turbine
Approx. L × W × H
12.1 × 4.5 × 5.4 m
12.9 × 4.5 × 6.3 m
Approx. Weight
175 ton
216 ton
Simple Cycle Performance
H-100 60Hz
H-100 50Hz
Cycle
60 Hz
50 Hz
ISO Base Rating
105.7 MW
116.4 MW
Efficiency
38.2 % LHV
38.3 % LHV
LHV Heat Rate
9,421 kJ/kWh
9,400 kJ/kWh
8,930 Btu/kWh
8,909 Btu/kWh
Exhaust Flow
293 kg/s
296 kg/s
646 lb/s
652 lb/s
Exhaust Temp
534 °C
586 °C
993 °F
1,087 °F
Emission
NOx
9 ppm@15%O2
9 ppm@15%O2
CO
9 ppm@15%O2
9 ppm@15%O2
Turn Down Load
50 %
50 %
Ramp Rate(Normal/Fast)
8 MW/min / 26 MW/min
9 MW/min / 29 MW/min
Starting Time(Normal/Fast)
22 minutes / 10 minutes
22 minutes / 10 minutes
Combined Cycle Performance
H-100 60Hz
H-100 50Hz
1 on 1
Plant Output
150.0 MW
171.0 MW
Plant Efficiency
55.1 % LHV
57.4 % LHV
2 on 1
Plant Output
305.7 MW
346.0 MW
Plant Efficiency
56.1 % LHV
58.0 % LHV
Starting Time
45 minutes
45 minutes
Mechanical Drive Performance
H-100 - 3,600rpm
H-100 - 3,000rpm
Output
144,350 hp
160,780 hp
107.7 MW
119.9 MW
Efficiency
38.9 % LHV
38.9 % LHV
Heat Rate
6,542 Btu/hp-hr
6,549 Btu/hp-hr
9,256 kJ/kWh
9,266 kJ/kWh
Exhaust Flow
293 kg/s
315 kg/s
646 lb/s
695 lb/s
Exhaust Temp
534 °C
552 °C
993 °F
1,025 °F
Performance Correction Curves
Effects of Compressor Inlet Temperature on Gas Turbine Performance (Typical)
Effects of Barometric Pressure on Gas Turbine Performance (Typical)
Package Design
The package design of the H-100 Series has the following advantages.
Minimize on-site installation work and time
Flexible layout
Short delivery period
Weight
Package
H-100
1
Gas Turbine
216 ton/50 Hz 175 ton/60 Hz
2
Lube Oil Tank, Starting Means and Auxiliaries
89 ton
3
Generator
152 ton
4
Air Intake System
140 ton
5
Exhaust System
139 ton
6
Gas Valve Compartment
6 ton
Typical Plant Layout: Simple Cycle
Typical Plant Layout: Co-generation
Typical Plant Layout: 1 on 1 Combined Cycle
Typical Plant Layout: 2 on 1 Combined Cycle
Replacing worn gas turbines with H-100 Series ones will result in reduced nitrogen oxide (NOx) and carbon dioxide (CO2) emissions as well as lower fuel consumption after improvement of plant efficiency.
Replacement of gas turbines paves the way for making the most of existing plant equipment and it is applicable not only for simple cycle plants but also for combined cycle plants.
Example of a Replacement of the Existing Combined Cycle System
Main Existing Equipment to be Reused
Generators
Heat Recovery Steam Generator (HRSG)
Steam Turbines
Electrical Equipment
Example of Evaluation of Performance Improvement by Replacement with H-100 Series Gas Turbines
Item
Existing 1 on 1 Combined Cycle
H-100 1 on 1 Combined Cycle
60 Hz
50Hz
Output
Base
+13%
-3%
Efficiency
Base
+7%
+11%
Delivery Records Example
H-100 Series Gas Turbine Project (Japan)
Order Results Example
Qty
Year of starting operation
Plant specifications
Shin-Oita Power Station, Kyushu Electric Power Co., Inc. (Japan)
6
2010~
Combined cycle
Yanai Power Station, The Chugoku Electric Power Co., Inc. (Japan)
6
2011~2015
Combined cycle
Osaki CoolGen Corporation (Japan)
1
2017
Integrated Coal Gasification Combined Cycle (IGCC) Power Generation (Japan)
Futtsu Thermal Power Station, TEPCO Fuel & Power, Inc. (Japan)
7
2016~2019
Combined cycle
Torishima Energy Center, Gas and Power Co., Ltd. (Japan)
1
2018
Combined cycle
Features
Specifications
Layout
Replacement
Delivery Records
Products
GTCC
Steam Power
IGCC
Geothermal
Gas Turbines
Product Lineup
H-25 Series
H-100 Series
M501G Series
M501J Series
M701D Series
M701F Series
M701J Series
Comparative Performance
Technical Information
Gas Turbines for Mechanical Drive Applications
Cutting-Edge Elemental Technology Producing 1600°C Class J Gas Turbines
Development of High-Efficiency Gas Turbine Applying 1600°C Class J Technology
