Only show results available in Massachusetts? Ok

steam turbine Applications

  • Steam turbine solutions for petrochemical plants industry

    With a heritage in steam dating back to 1868, Skinner has earned a solid reputation in building single stage steam turbines up to 3000 horse power and steam turbine generator packages up to 2MW for clients within the Petrochemical Industry.

    By Skinner Power Systems based in Erie, PENNSYLVANIA (USA).

  • Steam turbine solutions for refineries industry

    With a heritage in steam dating back to 1868, Skinner has earned a solid reputation in building single stage steam turbines up to 3000 horse power and steam turbine generator packages up to 2MW for clients within the Oil Refining Industry.

    By Skinner Power Systems based in Erie, PENNSYLVANIA (USA).

  • Small steam turbines solutions for education sector

    Our turbines are highly suitable to be used as training equipment in institutes of technical education. Due to the small weight and compact size of the Green Turbine, our units are well suited for students to gain learning experience in the field of steam turbines. Steam technology is currently making a comeback, but we have found knowledge of this technology is still rare nowadays. We have made it our mission to re-introduce the technology of steam back on the market. Two of the companies that have succesfully...

    By Green Turbine BV based in De Bilt, NETHERLANDS.

  • Small steam turbines solutions for hybrid trucks sector

    Using a Green Turbine in a hybrid truck or a hydrogen/fuel cell truck, can improve fuel efficiency with another 25%. Hybrid trucks with Green Turbine can extend their range by 20% by capturing waste heat from engine exhaust and converting it to electricity. In hybrid or fuel cell trucks about 10% of the waste heat can be converted to electricity. As waste heat is about 75% of the total energy input of a truck, this 10% is substantial.

    By Green Turbine BV based in De Bilt, NETHERLANDS.

  • Small steam turbines solutions for micro CHP sector

    Alternative electricity generation with low CO2 impact is almost exclusively associated with solar and wind energy. Both energy sources have the disadvantage that supply is completely independent of demand. The low carbon energy landscape will alter greatly with the introduction of small scale (micro) CHP systems. These systems can kick-in when solar and wind are not adequate. Micro-CHP is the real on-demand, high efficiency, low carbon building block that will be the ideal supplement for wind and solar.

    By Green Turbine BV based in De Bilt, NETHERLANDS.

  • Small steam turbines solutions for solar industry

    Green Turbine can use heat energy from solar thermal collectors, solar panels and heat pipes to generate electricity for residential and small commercial applications. The waste heat from Green Turbine can be used for space heating or tap water heating.

    By Green Turbine BV based in De Bilt, NETHERLANDS.

  • Small steam turbines solutions for waste heat sector

    Waste heat is found in virtually all forms of energy production as well as in motorized verhicles. It is becoming an extremely important and efficient way of generating electricity. Due to rising energy costs and legal requirements for reductions in CO2 emissions there is a high demand for energy efficient waste recovery systems.

    By Green Turbine BV based in De Bilt, NETHERLANDS.

  • Industrial butterfly valve solutions for power generation sector

    The power generation sector is an essential service industry that uses technologies ranging from the mature steam turbine to pioneering marine current turbines. Since privatisation in the UK in 1990, the main objective of the sector has been profitability for shareholders, although issues such as health, safety, sustainability and fuel poverty have also become increasingly important on the corporate agenda.

    By Hobbs Valve based in Caerphilly, UNITED KINGDOM.

  • Premium

    Industrial power solutions for the nuclear industry

    A nuclear reactor produces and controls the release of energy from splitting the atoms of certain elements. The energy released from continuous fission of the atoms of the fuel is utilized as heat in either a gas or water to produce steam. The steam is used to drive the turbines that drive electricity generators. Both boiling water reactors (BWR) and pressurized water reactors (PWR) require secondary separation or “steam drying” as the final stage of water separation within the reactors. In addition,...

    By CECO Environmental based in Dallas, TEXAS (USA).

  • Turbine machines for power industry

    Our activities are closely interconnected with the energy industry. The precision casting foundry casts rotor and stator blades for gas turbines followed by precision grinding by the Industry Division. Furthermore, we also perform machining of shafts, complete blade attachment as well as subsequent assembly of steam and gas expansion turbines.

    By PBS Velká Bíteš, a.s. based in Velká Bíteš, CZECH REPUBLIC.

  • Premium

    Gas monitoring for power generation applications

    Thermal power generation involves the combustion of a fuel to raise steam and drive a turbine to produce electricity. AMETEK Land provides the high-performance temperature measurements, emissions monitoring and safety systems demanded by this industry. High-accuracy measurements of temperature and flue gas composition are essential in optimising the combustion process, regardless of fuel used. Our instruments also help control pollution, and provide essential safety monitoring. With more than 60 years’...

    By AMETEK Land based in Dronfield, UNITED KINGDOM.

  • Microsteam - Turbine Power System for Institutional Applications

    Large institutions such as colleges, universities, and hospitals present excellent opportunities to recover lost energy by utilizing Energent`s Microsteam® Turbine Power System. Often, a large amount of steam energy is wasted when high pressure steam is reduced to low pressure steam for heating and cooling processes. In many large institutions, this wasted energy can be harnessed to produce valuable electricity, lowering electricity costs and carbon emissions.

    By Energent Corporation based in Santa Ana, CALIFORNIA (USA).

  • Power Generation

    Combustion turbines A gas turbine, also called a combustion turbine, is a type of internal combustion engine. It has an upstream rotating compressor coupled to a downstream turbine, and a combustion chamber in-between. The basic operation of the gas turbine is similar to that of the steam power plant except that air is used instead of water. The turbine shaft energy is used to drive the compressor and other devices such as an electric generator that may be coupled to the shaft. The energy that is not used for...

    By EmeraChem based in Knoxville, TENNESSEE (USA).

  • Low emissions auxiliary boilers to coal or otherwise fired power plants

    Whether providing high-efficiency, low emissions auxiliary boilers to coal or otherwise fired power plants across the United States, or heat recovery steam generators to natural gas fired turbine plants you will find Superior Boilers serving the needs of power generation customers for years to come.

    By Superior Boiler Works, Inc. based in Hutchinson, KANSAS (USA).

  • Automation Solution for Power

    Whether the project involves an established plant or completely new construction, Control Southern can help deliver a safer, more productive facility. Turn to us from the digital prototyping of power generation equipment all the way to the design and implementation of production lines across a wide variety of power generation modalities. In your power generation business, there is an increasing level of unpredictability in day-to-day operations. The combination of more renewables and cheaper gas has altered your...

    By Control Southern based in Suwanee, GEORGIA (US) (USA).

  • Energy efficiency and emission reduction solutions for pulp and paper industry

    Typical paper mills use most of their energy in the drying process. In fact some 60% to 80% of a paper mill’s energy can be used for drying of the product. Our FLU-ACE heat recovery technology can recover as much as 90% of the heat normally lost through dryer section / hood exhausts in the form of water at 50°C to 70°C. This is possible using the FLU-ACE’s unique direct contact (gas/liquid) packed-tower design, enabling optimal recovery of both sensible and latent heat, in widely varying...

    By Thermal Energy International Inc. based in Ottawa, ONTARIO (CANADA).

  • Innovative Pump Technology for Energy Industry

    Different temperatures, varying media – and always the demand for reliability, long service life and efficiency. EDUR additionally offer the principle of application-specific pump design.

  • Continuous carbonisation technology solutions for food processing industry

    Food processing uses energy and generates waste. Examples of waste include fruit pits, shells, husks, skins, manures, paunch wastes, spoiled product and packaging wastes. Pyrocal CCT systems provide the means to eliminate food processing wastes by converting them into energy and potentially useful biocarbon byproducts.

    By Pyrocal Pty Ltd. based in Wellcamp, AUSTRALIA.

Need help finding the right suppliers? Try XPRT Sourcing. Let the XPRTs do the work for you