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Our gas power plants are designed for optimal performance in a wide variety of decentralized power production in both intermediate and baseload applications, giving full output and high perfomance in hot and dry conditions as well as at high altitudes.
These power plants ranging from 4 to 150 MW are based on 4-17 MW engine units operating on natural gas or in dual-fuel mode (natural gas/liquid fuel oil).
Minimize initial investment and business risks
Prefabricated and pretested modules guarantee consistent quality and performance and make on-site installation simply a matter of assembling and connecting the modules. The possibility of stepwise expansion minimizes initial investment and business risks.
The modular design of our power plants enables fast-track delivery anywhere in the world, typically less than 7 months for a 50 MW plant. Our deliveries range from either equipment supply, or equipment and engineering delivery, to complete turnkey projects.
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Our international experience, with over 40 years of activity and more than 400 units installed worldwide from 20 to 660 MW, fulfils the main requirements of demand:
- save costs and build on time
- minimize environmental impacts
- ensure easy and economical operation
We act as main contractor for design, supply, construction, installation, start up and servicing of any kind of power plants, sold as turnkey projects, separate lots or components. In the field of steam power plants (either oil, coal or natural gas fired), Ansaldo Energia, during the implementation of the project, carries out:
- geothechnical and site engineering
- basic and system design to select and optimize power plants
- civil, mechanical, electrical and I &C detailed engineering
- procurements of materials, civil works, erection,test and commissioning, training
- quality control checks.
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Biomass gasification plants
Grupo Guascor, through Guascor Bioenergía designs, builds and operates biomass gasification plants in the range of 1 to 2 MWe.
Guascor Bioenergía gasification plants are based on a bubbling fluidized bed gasification technology, and process from 6,800 t/year to 13,600 t/year of dry biomass.
This gasification technology has been widely tested and validated for different types of biomass. The syngas obtained through this technology, once properly conditioned, is used as fuel in specifically designed Guascor engines for generating electricity and heat.
In small power plants, biomass gasification is a more efficient alternative compared to conventional combustion boiler.
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FuelCell Energy's DFC1500 system is a self-contained electrical power generation system capable of providing 1.2 MW of high-quality baseload power. The system has an electrical efficiency rating of 47%, giving it higher efficiency than other distributed generation plants of similar size with virtually no air pollution.
Unlike other fuel cell products, DFCs internally reform readily available fuels such as natural gas and anaerobic digester gas into the hydrogen gas required to power the fuel cell system. This internal reformation process is a key ingredient to the DFC's ability to operate at such high electrical power generation efficiency.
Featuring ultra-low emissions and low operating noise, the DFC1500 is suitable for locations where traditional power generation technologies are not feasible or desirable. And due to its modular design, the DFC1500 is easily installed in comparison to other power generation technologies.
The DFC1500 can be used for low cost on-site power generation, cogeneration and Combined Heat and Power (CHP), distributed energy grid support, and grid congestion relief. The system is suitable for a wide range of applications, including wastewater treatment, manufacturing, large hotels, hospitals and universities.
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Our oil power plants range from 1 to 300 MW. High efficiency, low emissions and proven long-term reliability make these plants suitable for stationary and floating baseload, as well as stand-by applications. Worldwide deliveries of our liquid-fuelled power plants exceed 28 GW.
Modular design
The modular design of our oil power plants enables fast-track delivery anywhere in the world. Our 100 MW power plant can be in commercial operation in as little as nine months from order placement.
Prefabricated, functionally pretested modules guarantee consistent quality and performance. Site installation is simply a matter of assembling and connecting the modules.
Smaller initial investment
As your needs change you can change the plant size stepwise by adding or removing generator sets. This means you can get started with a smaller initial investment.
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Our field power plants range from 1 to 300 MW. Proven reliability, fuel flexibility and low emissions make the plants suitable for demanding applications in the oil and gas industry, such as processing facilities, pump stations, compressor stations, marine terminals etc.
Modular design
The modular design of our field power plants enables trouble-free installation and fast-track delivery anywhere in the world. Prefabricated, functionally pretested modules guarantee consistent quality and performance. Site installation is simply a matter of assembling and connecting the modules.
Smaller initial investment
As your needs change you can change the plant size by adding additional generating sets. This means you can get started with a smaller initial investment.
Multifuel capability
Our power plants can be run on either associated gas or crude oil, residual or diesel oil. This enables the operator to choose the fuel with the lowest price and best availability. The system is also tolerant against fuel quality variations and as such suitable for oil field power generation.
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MAN Diesel offers a wide range of engines for stationary power generation. Outstanding fuel flexibility is one of our core competences. Our system expertise ranges from captive power generation for applications in the cement, textile, mining or oil and gas industries, to power solutions for municipalities, utilities or independent power producers.
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The FT8 POWERPAC industrial gas turbine package is a power generation unit that utilizes the SWIFTPAC modular design concept of very efficient electrical power. The FT8 is a derivative of the JT8D, one of the most successful flight engines in aviation history.
The gas turbine, mounted on a steel base, is packaged with its ancillary support systems and directly drives the generator package.
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The FT8 POWERPAC industrial gas turbine package is a power generation unit that utilizes the SWIFTPAC modular design concept of very efficient electrical power. The FT8 is a derivative of the JT8D, one of the most successful flight engines in aviation history.
The gas turbine, mounted on a steel base, is packaged with its ancillary support systems and directly drives the generator package.
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Ansaldo Energia handles all aspects of plant engineering, helping customers define the features of new plants, complete power stations or individual components and identify the best technical and economic solutions.
Each commission is designed and implemented as a unique project to satisfy all customer needs by developing plant engineering on a turnkey basis, including mechanical, civil, installation and start-up process engineering.
This level of customisation is made possible, with guarantees of maximum reliability, by the development and fine tuning of high quality, flexible solutions.
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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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Our geothermal power plants represents the latest evolution of a well established expertise in design and manufacture of turnkey plants for the exploitation of geothermal fields and covers the complete range of power from 10 up to 80 MW.
Technological improvements have been introduced in the main component's, design as well as in the power block arrangements in order to have pre-engineered solutions that can quickly be customized according to the site conditions at the Client's requirements.
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Ansaldo Energia handles all aspects of plant engineering, helping customers define the features of new plants, complete power stations or individual components and identify the best technical and economic solutions.
Each commission is designed and implemented as a unique project to satisfy all customer needs by developing plant engineering on a turnkey basis, including mechanical, civil, installation and start-up process engineering.
This level of customisation is made possible, with guarantees of maximum reliability, by the development and fine tuning of high quality, flexible solutions.
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Utility power generator, flue gas cleaning system and turbine / generator: these three components (including the associated balance-of-plant equipment) form the "power train" of a power plant. Only a handful of companies worldwide are in a position to design, build and place this type of power train into operation. In view of its almost 100-year tradition and know-how, Hitachi Power Europe occupies a special position amongst these plant constructors.
In conventional power plants (coal, gas, oil-fired boilers fitted out with steam turbines), HPE has an extensive track record in unit sizes up to and over 1,000 MWe. The focus in combined-cycle power plants (gas /steam turbine power plants) is in the 40 MW to 400 MW (800 MW) capacity range.
As a specialist for all-in solutions, HPE covers all the requisite steps surrounding design, construction and commissioning, i.e. from approval planning, feasibility study and project management up to purchasing support.
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JP FAUCHE Energie - Electro Diesel is a subsidiary of the JP. FAUCHE GROUP which is specialised in manufacturing specific generating sets of any power rating. Electro Diesel also offers a complete range of generating sets.
Electro Diesel has invested in human resources and highly performing industrial tools. Our production facilities are spread over more than 4,500 m², and include 4 production departments and assembly shops fitted with overhead travelling cranes ranging from 2.5T to 20T, a body shop, numerically-controlled machines, 2 spray booths and 2 computerised test benches for fuel oil and gas engines.
With these resources, we can provide you with precise solutions to all your problems concerning power generation, no matter what they are. We are in a strong position thanks to our skills in research and design; this is why we can help and advise you throughout your industrial project.
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In the 2MW electrical power range, the OPRA package produces the highest thermal power which makes it ideal for co and tri-generation applications.
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The co-generation is not a technology but a concept of efficient production of energy. The great advantage of the co-generation is the efficiency energetics that can be obtained producing electrical energy and useful thermal energy simultaneously. One is based on the advantage of the residual heat of a process of electricity production. This residual heat takes advantage to produce useful thermal energy (steam, hot water, thermal oil, cold water for refrigeration, etc). For this reason the co-generation systems are bound to a consuming center of this thermal energy.
MTV 100 is able to generate 100 KW of electrical energy + 165 KW of thermal energy from the fuel use different as they can be natural gas, biogas, GLP... Used for more than 40 years in the world of the aeronautics, the microturbines offer a simple generation of high availability and very under maintenance, since, when existing very few movable parts, its construction is especially robust.
Also, it is possible to emphasize the quality of the obtained provision and the rapidity in the amortization of the project, conviertiendo to these facilities in one of the best options to obtain clean and renewable energy.
APPLICATIONS:
Favoring the concept of distributed generation, the microturbines MTV 100 of SALICRU can be used in an ample rank of applications such as: buildings of offices, swimming pools, hospitals, industries, schools, greenhouses, hotels,...
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CAMPOFRÍO ALIMENTACIÓN S.A. is a leading international company within the food sector. It produces meat products which, for the production process, requires significant amounts of heat, in the form of steam and hot water, industrial cooling and electrical energy.
In 1996, with the purpose of reducing energy costs on the production processes and equipping the company with flexible installations in order to meet both present and future energy needs in a secure and efficient manner, GUASCOR ENERGIA went into a joint venture with Campofrío in order to construct and operate a Trigeneration plant - producing heat, cold and electrical energy - .
The Trigeneration plant operates 24 hours per day, seven days per week with a total of 8,700 hours of operation annually.
The installation incorporates four turbo-charged gas engines, each one rated at 3 MW, with a total installed power of 12 MW.
To cover the cold demand on the production process, the trigeneration plant is fitted with an ammonia - water absorption machine, which runs off saturated steam obtained from the heat recovered from the engines' exhaust gases.
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Trigeneration is the conversion of a fuel into three useful energy products: electricity, hot water or steam, and chilled water. A trigeneration system is a cogeneration system extended with an absorption chiller that uses some of the heat to produce chilled water for air-conditioning of buildings and building complexes.
With a Wärtsilä trigeneration power plant you will reach the same output with notably less fuel input compared to separate power and heat generation.
Wärtsilä power plants have ready-made solutions for trigeneration which can easily be adapted to different market and customer requirements and delivered within tight time schedules.
Benefits
The trigeneration system makes utilization of the engine CHP plant highly efficient throughout the annual seasons and through changes in the local climate. The plant can flexibly run at high total efficiencies, producing heat and cooling for airport terminals, office and building complexes, housing areas, etc., and can interchange smoothly between supplying heating and/or cooling. At the same time it supplies the needed electrical power.
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Our 4-100 MW combined heat and power (CHP) plants incorporate both power and heat generation. The system for heat generation, producing either low-pressure steam, hot water or both, trigeneration, etc. is optimized for the customer%u2019s needs and requirements.
The total plant efficiencies rise to even above 90%. Our CHP plants can run on various natural gas and liquid fuel qualities, also liquid biofuels, while maintaining low emissions and high efficiency.
Modular design
The modular design of our CHP plants enables fast-track delivery anywhere in the world.
Prefabricated, functionally pretested modules guarantee consistent quality and performance and make on-site installation simply a matter of assembling and connecting the modules.
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Natural gas enters the reformer, where it is converted to hydrogen and carbon
monoxide before being fed into the fuel cells.
A blower moves air into the fuel cells.
Electrochemical reactions between the fuel and air in the fuel cells result in
the generation of DC electricity.
The hot exhaust from the fuel cell is piped to the double-effect chiller, where
it boils a dilute chemical solution in the chiller’s high-temperature generator.
In heating mode, this heat gets transferred to the building’s ventilation system
by condensing the chemical solution over a heat exchanger supplied with circu-
lating water. Alternately, when used to air condition, the exhaust heat is turned
into refrigeration by using an absorber, compressor, condenser, and evaporator.
This refrigeration is transferred to
the building by circulating cold water
from the evaporator to coils in the
building’s ventilation system.
The result is clean exhaust.
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For the co-generation system of diesel engines, those engines are diverted to industrial use which have abundant actual achievements proofed in the field of regularly used ship engines under severe using conditions for a long time. Although full operation during one year is possible, a maintenance of about once a year is necessary.
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FuelCell Energy's DFC3000® system is the largest of the DFC® power plant fleet, capable of providing high-quality baseload power up to 2.4 MW with 47% efficiency. The power plant consists of six matched modular skids, and due to its innovative design, can be modified depending on the power requirements of the facility.
The DFC3000 can be used for on-site power generation, cogeneration and Combined Heat and Power (CHP). The system is especially suitable for applications with larger load requirements such as hospitals, universities, manufacturing facilities, wastewater treatment plants, and grid support.
The DFC3000 is the perfect solution for utility grid support. Multiple DFC3000 systems can be utilized to provide tens of megawatts of Ultra-Clean energy to provide grid support for utilities and eliminate the need to invest in costly and controversial transmission and distribution networks. And due to the easy siting, low impact, and low noise characteristics of Direct FuelCell power plants, the DFC3000 is also ideal for areas and neighborhoods where traditional electrical generation plants are not feasible or desirable. In states with Renewable Portfolio Standards (RPS) programs, FuelCell Energy's DFC systems can offer even more value.
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FuelCell Energy's DFC3000® system is the largest of the DFC® power plant fleet, capable of providing high-quality baseload power up to 2.4 MW with 47% efficiency. The power plant consists of six matched modular skids, and due to its innovative design, can be modified depending on the power requirements of the facility.
The DFC3000 can be used for on-site power generation, cogeneration and Combined Heat and Power (CHP). The system is especially suitable for applications with larger load requirements such as hospitals, universities, manufacturing facilities, wastewater treatment plants, and grid support.
The DFC3000 is the perfect solution for utility grid support. Multiple DFC3000 systems can be utilized to provide tens of megawatts of Ultra-Clean energy to provide grid support for utilities and eliminate the need to invest in costly and controversial transmission and distribution networks. And due to the easy siting, low impact, and low noise characteristics of Direct FuelCell power plants, the DFC3000 is also ideal for areas and neighborhoods where traditional electrical generation plants are not feasible or desirable. In states with Renewable Portfolio Standards (RPS) programs, FuelCell Energy's DFC systems can offer even more value.
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... see all the products in the category
Fuel cells
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SPRECON®-V460 meets all demands of modern control center systems concerning monitoring and evaluation of processes in the area of power generation and distribution.
The system provides a multitude of functions and allows various applications due to consistent integration of international standards and technologies.
By the full continuity of SPRECON-V460 at all process levels, Sprecher Automation introduces a new standard to the SCADA world.
The SPRECON-V460 Editor allows compatible creation and maintenance of all visualisation projects regardless of different process levels. As a result, users benefit from the true continuity of the system.
SPRECON-V460 facilitates process visualisations of all possible ranges:
- Local HMI workstations
- (Windows® CE oder Windows® XP Embedded)
- HMI workstations at station control level, machine control level or local
power plant control systems (Windows® XP/VISTA/7)
- Control center systems (Windows® Server 2003/2008)
Also, the system provides an interface to the Internet with the SPRECON-V460 Web server.
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As a major Original Equipment Manufacturer and Supplier of turn-key plants, ALSTOM Power Service delivers not only after sales service for the key components, but also a broad spectrum of instrumentation and control as well as plant information systems solutions that allow to modernise plant control and improve and optimise your power plant business.
Instrumentation and Control Systems (I&C) perform the functions of regulation, protection, control, monitoring, alarm and information management on your power plant. It is a central information system that enables plant operators to supervise the plant effectively and to make the right decisions in time, and it ensures fault free operation of your plant. Therefore, state of the art I&C is beneficial and vital for plant information, decision making, competitive high end performance and high reliability of the plant.
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Electrical power distribution systems
The systems supply electrical power efficiently and safely to electrical facilities within a building or power plant.
Distributed control system- TemDCS
This decentralized control system applies personal computers to a high degree in order to obtain an extremely high cost-performance ratio in process control.
Colon Container Terminal with the independent power plant(distributed power source)
This facility in Colon, Panama, has its own electrical plant capable of supplying all the power necessary for the container terminal. Terasaki set up the turnkey system up and running, and is taking part in its expansion project.
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PowerAGC 2000 Power Plant Control System
The PowerAGC 2000 Power Plant Control System is designed according to the specific requirements of a power system, combining the most advanced technology and Wescon's 10 year engineering experience. It has been widely used in Tianwan nuclear power plants and in more than ten power plants in China. With metering, control and signaling all integrated in one, PowerAGC 2000 is designed specially for power plants, It consists of two parts, the first being the main control level which is provided by two redundant D200 SMU, and the second level which is bay level control, provided by D25 devices.
functions & Features:
- With reliable AGC function, the dispatching center sends AGC commands to DCS and SIS directly by a communication host (D200)
- The bay level device (D25) communicates directly with communication hosts of both the dispatching center and the backup center by linking directly to Ethernet
- Utilizes latest technology and design techniques to improve system reliability
- Supports remote control, substation system control and local control with high reliability
- Performs synchronization checks
- Locks Local or Remote operations, and inter-locks the operations between units
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The GAC21 is the heart of the main electrical power distribution system. It optimizes power management and saves electrical energy in controlling all onboard generating plants on board vessels.
Both the hardware and software for the PLC conform to IEC61131, the international standard for programmable controllers. The PLC also conforms, as standard, not just to the IEC/JIS, but also to the CE marking/UL standard.
Processing speed : 70 ns
Program memory capacity: Multiple of 16k/32k
Number of input/output points : 8192 max.
Processing speed for dedicated bus : 25Mbps
The PLC constantly monitors the power, CPU, and signal transmission lines. If an error occurs, the error indicator on the malfunctioning module will light up, allowing you to identify the module very easily. The PLC is designed in modules, allowing you to replace any module easily in a short time.
Terasaki's multiple transmission system"TM", which has many records on uses, has been configured using loop topology. It covers data transmission between the switchboard, group starter panel, and integrated type engine monitoring system. It is also applicable to communication with the bridge if serial transmission is used. This allows personnel in the bridge to very easily monitor the status of the power distribution system.
The modules of the PLC are independent for each function. Therefore, if a failure occurs, it can be rectified by replacing only the module in question. This saves the maintenance cost.
The P-ROM containing the software for the PLC comes as a cartridge. Therefore, if any change is made to the software, the P-ROM can be easily changed for this purpose.
The settings for the automatic control of the generator can be changed easily using the handy type setting device (HT21-001).
The GAC21 may be located in a decentralized position for each generator, allowing you to control the generator independently. When used with Terasaki's watch-free system as the best combination, the GAC21 is applicable for a more advanced onboard LAN system.
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Key exchange boxes are used to release one or several keys by introducing one or more keys which are then trapped inside the box.
For example, all keys from earthing switches are trapped inside the box in order to release keys giving access to the transformer.
The minimum number of cylinders is 2. The maximum depends on the space available to install the lock. In some cases, depending on the number of keys to be used and the space available, several boxes have to be used as a “chain”. The last key of the preceding box becomes the first key of the following box and so on.
The switch at either end of the box to give an electrical signal showing whether the key is inside the lock or not.
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