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This continuous-rated 30-kW grid parallel model can be fueled with digester or landfill gas with methane content as low as 35%. They are commonly arrayed with Cain or other heat exchangers to serve both renewable power and thermal loads.
Hundreds operate worldwide, including 12 that provide LFG-fueled power and heat to a school near Chicago, a site named "Project of the Year" by the landfill methane division of the US EPA.
Without any exhaust treatment, C30 emissions are much lower than flaring. ISO 9001:2000 certified Capstone Turbine is the world's leading microturbine manufacturer, with more than 3,000 units worldwide. The installed fleet has amassed more than 8 million hours of documented operation.
Capstone invented microturbines and is the world’s only USA incorporated, USA owned and operated manufacturer.
These inverter-based systems have just one moving part: a turbine shaft supported by patented air bearings. The system has no pumps and needs no radiator, gearbox or other mechanical subsystems. Needs no lubricants, coolants or other hazardous fluids. UL1741, CA Rule 21 and NY PSC interconnect precertified, UL2200, etc.
Scalable from kilowatts to >1 MW without any paralleling switchgear or other external hardware (built-in arraying via computer cables).
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GUASCOR has new technology for gasifying different types of biomass: Rice husks, olive cake from olive residues, wood chips, etc., with industrial plants already in operation.
The gasification plants are based on a modular concept, being able to process between 8,000 and 60,000 tonnes of biomass per year.
The gas obtained from the gasification plants is used as a fuel for the GUASCOR gensets, which convert it into electrical energy that can be exported to the national grid.
The high performance of the GUASCOR built biomass gasification plants, and the later production of electricity with the gensets, represents a competitive solution when compared with conventional boiler-fired systems.
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Clean, quiet microturbines cut energy costs every day at businesses and public facilities. This natural gas fueled continuous-rated 60-kWe model with 115-kWth integrated heat recovery delivers 80% efficiency measured at end-user power and thermal loads. Grid-parallel only or grid/stand-alone/grid autoswitching.
Without any exhaust treatment chemical or devices, the C60’s full-load NOx emissions per megawatt-hour are 1/20th those of the average US utility power plant, according to US EPA figures.
ISO 9001:2000 certified Capstone Turbine is the world's leading microturbine manufacturer, with more than 3,000 systems worldwide. The installed fleet has amassed more than 8 million hours of documented operation.
Capstone invented microturbines and is the world’s only USA incorporated, USA owned and operated manufacturer.
These inverter-based systems have just one moving part: a shaft supported by patented air bearings. The system has no pumps and needs no radiator, gearbox or other mechanical subsystems. Needs no lubricants, coolants or other hazardous fluids. UL1741, CA Rule 21 and NY PSC interconnect precertified, UL2200, etc.
Scalable from kilowatts to >1 MW without any paralleling switchgear or other external hardware (built-in arraying via computer cables).
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VHP9500 Power Generation
The 16 cylinder VHP 9500, with continuous rating of 1175 kWe at 50 Hz and 1400 kWe at 60 Hz, is suitable for prime power, cogeneration, peak shaving and standby power applications.
VHP 12 Cylinder Power Generation
Reliable 12 cylinder VHP ® generator sets, rated at 475-1100 kWe at 50 Hz (1000 rpm) continuous duty to 1200 kWe at 60 Hz (1200 rpm) intermittent duty, are ideal for remote sites.
VHP3604/VHP3600 Power Generation
VHP ® generator sets are an industry standard for continuous power applications. Six cylinder models rated at 315-540 kWe at 50 Hz and 360-600 kWe at 60 Hz.
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Microturbines
The efficient Ingersoll Rand microturbine generates environmentally
friendly, cost-effective thermal and electrical energy for a wide range
of environmental, commercial and industrial businesses, as well as
for public utilities, for reduced energy costs and emissions.
Fuel Conditioning Systems
Our unique fuel conditioning system with patented deep chill dryer
technology is designed to transform low-pressure landfill or digester
gas containing moisture, siloxanes and other contaminants into dry,
clean, pressure-regulated gaseous fuel that meets the gas turbine's
requirements. With a demand-based fuel supply strategy for reduced
power use and no carbon beds to replace, Ingersoll Rand fuel
conditioning will provide years or trouble-free and low cost microturbine
operation.
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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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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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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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WINTER 2003
LIPA purchases an additional 45 fuel cell systems for installation across Long Island. Twenty-five of the
5kW fuel cell systems will be installed at LIPA’s West Babylon Fuel Cell Demonstration Site, which currently
contains fuel cell systems feeding directly into the Long Island electrical grid. The remaining 20 systems
will generate on-site heat and power for single or multi-family residential sites, for the first time in LIPA’s
service territory.
Plug Power and LIPA continue to work together to gain information and experience to propel the evolution of
fuel cell technology as a source of power, while keeping very specific environmental concerns at the forefront.
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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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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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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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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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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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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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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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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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As one of the leading diesel engine manufacturer with annual production capacity of 9.2 million BHP covering marine and stationary application, we, Engine and Machinery Division of Hyundai Heavy Industries Co., Ltd. (HHI-EMD) have enjoyed good reputation since our commencement of engine business in 1978 and obtained full recognition of clients all over the world by convincing them high quality and best performance of Hyundai engines
1.Diesel Power Plant The power range of diesel generating sets which can be supplied by us is from 1,000 kW to 50,000kW per unit. The GMR Vasavi power plant in Chennai, India is the world's largest diesel power plant possessing a nominal capacity of 200MW with 4 units of Hyundai-MAN B&W low speed diesel generating set constructed by us in 1998. And we successfully completed a lot of diesel power plants for 60MW DSW in Israel, 40MW x 2 CFE in Mexico, 60MW Fort George in Mauritius and 60MW BLPC in Barbados, etc.
2. Hyundai HiMSEN H21/32 ,H25/33 and H32/40 engine Based on our technological know-how obtained and accumulated from our research and development activities to provide optimal technological solution, we have developed Hyundai HiMSEN H21/32, H25/33 and H32/40 type engine and their packaged system for very easy transportation and installation with great pride and confidence.
Considering its strong points such as good performance, high efficiency, high reliability, easy operation and maintenance, low initial investment cost and short delivery time, we dare to say that it is the most competitive engine in the world in its output range.
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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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Nations the world over are actively searching for alternative, clean energy sources. Using thermoelectric modules to generate electro-energy is becoming a vital, valid choice. Interest in energy sources such as thermoelectric generating modules is warming because of the latest achievements in the sphere of thermoelectric technology and constructions.
Among main spheres of TGM application the following can be singled out:
— utilization of worthless heat at transport installations (automobiles, ships);
— autonomic supply of energy to electronic blocks for water boilers and disposal plants;
—cathodic protection of the oil and gas pipelines;
— conversion of natural heat resources - geothermal waters, etc into electric energy;
—autonomic power supply of low-power electric devices
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TEG-126
Size: 30mmx30mm
Open circuit voltage*: 8.8volts
Internal resistance: 7 Ohm
Match load output* voltage: 4.3V
Match load output current: : 0.6A
Match load output Power: : 2.6W
Heat flow through the module: About 60watts
Heat flux: About 6.67watts/cm^2
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Teledyne Energy System has been at the forefront of thermoelectric power systems for the past 40 years, starting with the SNAP3 space generator in 1961. During that time, Teledyne has produced hundreds of generators ranging in size from milliwatts to multi-hundred watts for both space and terrestrial applications.
Beginning in 2001, Teledyne began developing PEM fuel cell systems for the aerospace market. Applications include high efficiency PEM powerplants for Reusable Launch Vehicles for NASA, regenerative systems for high altitude unmanned aircraft/airships, and advanced designs for unique missions.
Teledyne specializes in custom designs for a wide range of customers and has the complete in-house capability for both commercial and classified applications involving thermoelectrics or PEM fuel cell power systems.
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Power plants, CHP plants
