Electricity Generation

Electricity Generation

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Electricity from gas-powered generators Through on-going investment in research and development Jenbacher 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: Reduced levels of fuel consumption Reduced emissions Reduced operational costs for each kilowatt hour generated Electricity Production A Jenbacher 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. The engine rotates at a constant 1,500 revolutions per minute regardless of the load. The generator has 4 poles which at 1,500 revolutions per minute operates at 50Hz to match the frequency of the mains, or 1,600rpm / 60Hz (US) Types of Electrical Generator Electrical generation plants come in two main forms: Stable base load (continuous) generation Electricity peaking Base-load electricity Base-load generation is useful where there is a stable source of fuel, such as natural, landfill or coal gas to power the generators. Jenbacher gas engines are renowned for their reliability in the field and when challenged with difficult gases. The generation of electricity alone typically takes place where there is no local need for heating and cooling. The power that is produced can either be exported to the local electricity grid, or alternatively be used in island mode operation to power local facilities.

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