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Fuel injection valves
As components of pump-line-nozzle injection systems, conventional fuel injection valves ensure that when a defined opening pressure of the fuel supplied by the injection pump is exceeded, the fuel is injected very quickly in a uniform fine atomization. Here not only a precise begin of injection is very important but also fast closing at the end of the injection process. Proper static and dynamic design of the injection hydraulics prevents so-called needle shocks. This reliably prevents from even very minor unintended post-injection with after-dribbling effects, something that is necessary to ensure smokeless engine operation.
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Industrial/Marine Gas Turbine
Specifications:
-2MW power range
-Radial technology: simple and robust
-High Efficiency
-Dual fuel capability (Gas/Diesel)
-Low LHV Gas
-Low Emissions
-High outlet temperature
Benefits:
-Compact
-Long product life
-Low maintenance costs
-Ideal for Oil&Gas and CHP applications
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The ASE8, TF40, ASE40, ETF40B, TF50, and ASE50 gas turbines have a rich heritage beginning with AVCO Lycoming and Garrett Gas turbines, and now brought to market by Vericor. There are hundreds of aeroderivative TF and ASE gas turbines in service around the world today.
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Advanced Gas, Steam and Hydro turbines
A comprehensive range of turbines for all applications, from industrial power generation up to the largest power plants in the world
Alstom's turbine range includes advanced gas, steam and hydro turbines for power generation, mechanical drives and propulsion systems. Our global capabilities also include service, maintenance, refurbishment and upgrading of turbine plants and training of personnel.
-gas turbines from 56 MW up to 288 MW for turnkey power plants including simple cycle, combined cycle, repowering and retrofit
-steam turbines from 100 MW up to 1200 MW for fossil steam turbines and up to 1800MW for nuclear steam turbines
-steam turbine retrofits
-hydro turbines for all types of hydropower plants; high or low head, storage and run-of-the-river
-hydraulic and pump turbines up to 900 MW
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Short reaction times and particularly high efficiency: the principles of a gas turbine and steam power plant are combined in a combined-cycle power plant. Efficiencies of up to 60% can be obtained by using a gas and a (downstream-arranged) steam turbine. Under combined operations (with integrated district heating supply) efficiencies of around 90% can be had.
In gas-fired plants as well, Hitachi Power Europe has both extensive know-how and a lengthy track record across the entire range stretching from planning via acquisition and design through to commissioning.
The highly successful and globally deployed H-25 / H-15 gas turbines from parent company Hitachi, Ltd. are the optimum ones for running power plants in a dependable, efficient and economical manner. Designed as a heavy duty machine (30 MW rating class), over 120 Hitachi gas turbines in power plants are in service throughput the world (as of mid-2009). The turbines are sound and dependable under continuous operations, involve low maintenance costs and are admirably suited for plants with cogeneration/district heating supply. Hitachi gas turbines are also used as power drive turbines in industry.
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The industrial RB211 is derived from the aerospace RB211, which is the chosen power plant for several large airliners.
Thanks to extensive development, the RB211 is most reliable and easily maintained industrial gas turbine available today.
Auxiliary equipment such as intake air filtration, acoustics and lubrication all form part of the Rolls-Royce scope of supply for oil and gas applications.
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The FT8 gas turbine is based on modern aeroengine technology from Pratt & Whitney, adapted for industrial use. The gas turbine is characterised by a compact, modular design. FT8 gas turbines achieve a high level of availability and are extremely reliable.
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Greater power, higher efficiency and availability and rugged design are key issues for mechanical drive markets.
With more than 15 million hours of proven performance, the cornerstones of our VPS Series packages are the compact, rugged, and reliable ASE Series aero-derivative gas turbines. Space and weight are at a premium in some mechanical drive applications, and the VPS Series packages have the smallest footprint and highest installed power to weight ratio in their class. This means that VPS Series twin-shaft mechanical drive packages are well suited for centrifugal pump and compressor applications onshore and offshore.
Our packages are designed for reliability, efficiency and simplified installation. The proven design incorporates a simple cantilever mounting of the ASE Series gas turbine to the speed reduction gearbox. The close-coupled design of the VPS Series packages minimizes the footprint and eliminates alignment concerns between the gas turbine and gearbox.
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* Highest power aeroderivative gas turbine
* Highest simple cycle efficiency gas turbine
* Efficient package for installation and maintenance
* Proven history from aircraft engine lineage
* DLE or WLE systems available to meet stringent NOx and CO requirements
* Modular design allows minimal installation time
* Rapid engine maintenance time
* Starting and restarting as fast as ten minutes
o Immediate restarting capability after failed start
o Up to 4,500 starts without overhaul
o Full load train starting with only 230 kW motor
o Same proven system used for power generation applications
o Starting system is installed on the main turbine base plate
o Starting system is proven out in the factory before shipment
* Variable speed capability from 70-105% speed
o 100% speed is 3,400rpm
o Capable of operation continuously between 70-105%
o Meets API requirement of 105% speed over MCS to trip or 110%
* Minimum number of individual train bodies
* Ideally designed for both the peaking and base load marke
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The heavy duty machines of the THM gas turbine family are designed for a long life with a high level of reliability and availability. They are supplied as ready-assembled drive units.
Their modular design facilitates allow an easy installation and maintenance. The relatively low turbine inlet temperature guarantees a long life and extended inspection intervals. Fitting of two external Dry Low Nox combustion chambers in a V-configuration guarantees extremely low emission values.
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Today's marine propulsion systems must provide faster vessel speed, enable greater payloads or deliver more power per square foot of machinery space. When vessel speed is critical and space is a premium, gas turbines can be an ideal solution.
For fast patrol boats, fast attack craft, corvettes and hovercraft as well as commercial applications such as fast ferries and mega-yachts, marine propulsion is made simple with Vericor's aero-derivative gas turbine-based power plants. Our marine propulsion offerings, ranging from 4,000 to 10,000 shp are based on the TF Series gas turbines.
Compact & Lightweight:
Our TF Series gas turbines are compact, lightweight and provide many times the horsepower over diesel engines for the same installed weight at a lower installed volume. With a cold-end drive, the gas turbine can be integrated into the package by cantilever mounting directly to the reduction gear, or mounting to a horizontal support frame and coupled to the reduction gear with a shaft and coupling.
The TF Series turbines can provide efficient power to a variety of propulsors including fixed and variable pitch propellers, waterjets and, in the case of hovercraft, air props. The small size and light weight features of the TF Series also allow for the installation of single or multiple gas turbines in combined system configurations.
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Dresser-Rand Model GAF manufactured in Oberhausen, Germany is a rugged, multi-stage steam turbine designed for reliable, mechanical drive applications for generators, compressors and other equipment.
FEATURES INCLUDE:
- Power capabilities up to 4000kWe (5365HP)
- Inlet pressure to 54 BARG (785 PSIG)
- Inlet temperature to 440 degrees C (825 degrees F)
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Elliott pioneered power recovery expander turbine technology in the 1950's and has been a leader in the field ever since. An Elliott TH power recovery expander turbine converts high temperature, low pressure flue gas energy into usable power. The turbine often is used to drive compressors or generators in refinery fluid catalytic-cracking (FCC) service. Recovery power for these applications can approach 50,000 hp (37,300 kW).
Elliott design engineers continue to advance expander technology to meet the changing demands of the FCC process. By using computational fluid dynamics to verify flow path design and minimize blade erosion, we have significantly extended typical time between turnarounds far beyond the industry average, without sacrificing efficiency. A number of Elliott expanders have exceeded 9 years of rated service without a blade change. To insure reliability, we design all critical components using finite element analysis. And we are continuously developing new coatings and materials to resist the erosive and corrosive environment of the FCC process.
Elliott power recovery expanders are the most dependable and durable designs in the industry.
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Dresser-Rand RLH, RLHA and SST Models manuafactured at our Wellesville, New York plant can be found in virtually every industry around the world utilizing steam for process. Rugged, API compliant mecahnical drives for fans, pumps, compressors and generators.
FEATURES INCLUDE:
- Horizontal and Axial Split casings
- API 611 compliant
- ATEX Compliant (RLA/RLHA models only)
- Up to 2600 kWe (3500 HP).
- Inlet pressures to 62 BARG (900 PSIG)
- Inlet temperatures to 510 degrees C (950 degrees F).
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Model C, Single-Stage Overhung Wheel design manufactured in Bielefeld, Germany plant. Capable of high inlet steam pressures and high inlet temperatures.
FEATURES INCLUDE:
+ Inlet steam pressures up to 109 BARG (1581 psig)
+ Temperatures up to 510 degrees C (950 degrees F).
+ Available with integrated reduction gear.
+ Forced feed oil system with integrated oil reservoir.
+ Typical applications include generator, pumps, fans, compressor drives.
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Steam Turbines
For nearly a century, Elliott steam turbines have earned a reputation as the most rugged, reliable and versatile drivers in the industry. Combining engineering expertise, rugged designs and precision manufacturing, Elliott steam turbines are built to perform and endure years of continuous service. These powerful workhorses provide exceptional value and performance in a broad range of processing, mechanical and power generation applications, around the clock and around the globe, in environments of every extreme.
Elliott steam turbines come in a variety of sizes ranging from small, 20 hp (15 kW) single-stage units, to large 135,000 hp (100,000 kW) multi-valve multi-stage extraction condensing units. These units can be built to API standards and can be customized to meet exacting customer specifications or other industry standards. With a large selection of both standard and engineered steam turbines and turbine generator sets, Elliott steam turbines boost production in industries as diverse as oil and gas, chemical and petrochemical, pulp and paper, power generation and food processing.
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A comprehensive range of turbines for all applications, from industrial power generation up to the largest power plants in the world
Alstom's turbine range includes advanced gas, steam and hydro turbines for power generation, mechanical drives and propulsion systems. Our global capabilities also include service, maintenance, refurbishment and upgrading of turbine plants and training of personnel.
-gas turbines from 56 MW up to 288 MW for turnkey power plants including simple cycle, combined cycle, repowering and retrofit
-steam turbines from 100 MW up to 1200 MW for fossil steam turbines and up to 1800MW for nuclear steam turbines
-steam turbine retrofits
-hydro turbines for all types of hydropower plants; high or low head, storage and run-of-the-river
-hydraulic and pump turbines up to 900 MW
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The blade tips of a turbine rotate some 3,000 times a minute and are thus faster than the speed of sound. The blades under extremely high steam temperatures (approx. 620 °C) and pressures (up to 250 bar) are subjected to extreme loads and stresses. Even so, it is expected of steam turbines that they are reliable and perform their work round the clock.
Hitachi, Ltd. has been supplying these kinds of highly efficient and reliable steam turbines for over 75 years now. Hitachi Power Europe's parent company has on offer turbines in the 250 to 1,380 megawatt (MW) rating class. Constant research and refinements ensure that these components belong to the best of their kind across the world.
The components (turbine and generator) are manufactured in the Hitachi works to the NE of Tokyo in Japan. Hitachi engineering teams not only carry out strict quality checks to ensure maximum performance and quality, but also provide ongoing and extensive support for their customers and service/upgrade the turbines.
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The sturdy design of these machines ensures a long life and optimum service intervals. The steam turbines are available in various models and sizes: Condensing turbine, Back pressure turbine, Extraction turbine and the highly standardized MARC series (Modular ARrangement Concept).
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Based upon our long experience, we have developed a modular design for the small hydro power range. The range is comprised of Axial, Francis and Pelton turbines which covers a head range of 1 to 1,000 meters. Modular design consists of building a complete unit by a mechanical assembly of standardized components.
The modular design combines the advantages of standardized components and the flexibility of tailor-made design remaining highly competitive with respect to:
- High performances
- Operating reliability
- Short delivery time
- Low total investment cost
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Turbines
