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MÉXICO:
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ELECTRICITY FROM GAS-POWERED GENERATORS
Through on-going investment in research and development TEDOM gas engines remain market leaders in the gas engine field. The engines are highly efficient at the conversion of the energy within gas into useful electrical power. In the event that there is a local use for heat, the alternative combined heat and power configuration may be a more useful engine configuration.
BENEFITS OF HIGH EFFICIENCY ELECTRICAL POWER
High efficiency means:
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Reduced levels of fuel consumption
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Reduced emissions
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Reduced operational costs for each kilowatt hour generated
ELECTRICITY PRODUCTION
A TEDOM gas engine is connected to an electrical generator by a drive coupling to produce electricity, typically as a genset. The generator is linked to an electrical circuit breaker to connect it to the site electrical system. This circuit breaker is used to synchronise the generate to the mains if it is to operate in parallel to the grid supply.
BENEFITS OF CHP FOR YOUR BUSINESS
The high efficiency of a CHP plant compared with conventional bought in electricity and site-produced heat provides a number of benefits including:
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On site production of power
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Reduced energy costs
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Reduction in emissions compared to conventional electrical generators and onsite boilers
Grupo Energos:
Combined heat and power (CHP) is the simultaneous cogeneration of electricity and heat. Cogeneration is a highly efficient form of energy conversion and using gas engines it can achieve primary energy savings of approximately 40% compared to the separate purchase of electricity from the electricity grid and gas for use in a boiler.
If the fuel for the gas engine is renewable such as biogas, hydrogen, syngas or biomethane, CHP can be a highly sustainable source of electricity and heat.
Combined heat and power plants are typically embedded close to the end user and therefore help reduce transportation and distribution losses, improving the overall performance of the electricity transmission and distribution network.
District energy schemes use combined heat and power plants to generate both electricity and heat for a group of residential or commercial buildings. For power users where security of supply is an important factor for their selection of power production equipment and gas is abundant, gas-based cogeneration systems are ideally suited as captive power plants (i.e. power plants located at site of use).
Being a localised source of power generation, it can help improve a site’s resilience in the event of a power grid failure with the addition of island mode operation features.
Financiera:
Combined heat and power (CHP) is the simultaneous cogeneration of electricity and heat. Cogeneration is a highly efficient form of energy conversion and using gas engines it can achieve primary energy savings of approximately 40% compared to the separate purchase of electricity from the electricity grid and gas for use in a boiler.
If the fuel for the gas engine is renewable such as biogas, hydrogen, syngas or biomethane, CHP can be a highly sustainable source of electricity and heat.
Combined heat and power plants are typically embedded close to the end user and therefore help reduce transportation and distribution losses, improving the overall performance of the electricity transmission and distribution network.
District energy schemes use combined heat and power plants to generate both electricity and heat for a group of residential or commercial buildings. For power users where security of supply is an important factor for their selection of power production equipment and gas is abundant, gas-based cogeneration systems are ideally suited as captive power plants (i.e. power plants located at site of use).
Being a localised source of power generation, it can help improve a site’s resilience in the event of a power grid failure with the addition of island mode operation features.
Empresa:
Combined heat and power (CHP) is the simultaneous cogeneration of electricity and heat. Cogeneration is a highly efficient form of energy conversion and using gas engines it can achieve primary energy savings of approximately 40% compared to the separate purchase of electricity from the electricity grid and gas for use in a boiler.
If the fuel for the gas engine is renewable such as biogas, hydrogen, syngas or biomethane, CHP can be a highly sustainable source of electricity and heat.
Combined heat and power plants are typically embedded close to the end user and therefore help reduce transportation and distribution losses, improving the overall performance of the electricity transmission and distribution network.
District energy schemes use combined heat and power plants to generate both electricity and heat for a group of residential or commercial buildings. For power users where security of supply is an important factor for their selection of power production equipment and gas is abundant, gas-based cogeneration systems are ideally suited as captive power plants (i.e. power plants located at site of use).
Being a localised source of power generation, it can help improve a site’s resilience in the event of a power grid failure with the addition of island mode operation features.
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ESTUDIO - INSTALACIÓN - MANTENIMIENTO - GESTIÓN
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Qantas has built Australia's largest commercial cogeneration (cooling, heating and electricity) project. It uses natural gas to produce more efficient and low CO2 energy to supply its corporate building, its maintenance base for aircraft and the air terminal for domestic flights.
Distributor & Service Provider
Energos Group is the authorized distributor and service provider for TEDOM gas engines in Mexico.
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