Tuesday, October 08, 2013
UNINTERRUPTIBLE POWER SUPPLIES
Static inverters are used to convert DC voltage into AC voltage. The simplest forms of inverters produce an output waveform that is rectangular, as a result of the simple switching, rectangular waveform can be used to feed some types of AC equipment e.g. incandescent lamps, domestic equipment such as kitchen mixers and kettles. Equipment that contains electronic devices may not function properly if their supply waveform is non-sinusoidal.
Their timing circuits and pulse generating systems may be disturbed by the shape of the waveform or its derivative.
Harmonics in the voltage waveform may create harmonic currents in the equipment that could give rise to excessive heat dissipation and ultimately damage may be caused.
All but the smaller ratings of inverters used in the oil industry require a sinusoidal output waveform. The quality of the waveform is typically defined as, being that no greater than 5% total harmonic distortions should be present. In order to achieve a sinusoidal output it is necessary to include a filter in the output circuit. The output of the inverter usually has a double wound transformer so that the required line voltage is obtained. The filter is placed on the load side of the transformer; its leakage reactance of the transformer contributes to the filtering process.
Inverters are fed from a battery bank that has sufficient cells to optimize the output voltage of the inverter and the performance of the rectifier or charger. The inverter is shown in Figure below, which provides an uninterruptible supply (UPS) that also has an off-load bypass supply.
Some of the equipment in a plant requires a source of power that is extremely reliable and does not become interrupted during an emergency. For example if all the main generators on a production platform trip for some emergency reason then it is necessary to maintain supplies to vital services such as communications, public address, emergency lighting, navigational panels, fire and gas systems. Many of these loads can tolerate a short break and can be supplied by the emergency diesel generator once it is ready for service. Some loads cannot tolerate an interruption at all e.g. data processing systems, instrument panels, safety shut-down systems.
Inverters can be arranged to operate in various ways to provide an uninterruptible supply.
Their timing circuits and pulse generating systems may be disturbed by the shape of the waveform or its derivative.
Harmonics in the voltage waveform may create harmonic currents in the equipment that could give rise to excessive heat dissipation and ultimately damage may be caused.
All but the smaller ratings of inverters used in the oil industry require a sinusoidal output waveform. The quality of the waveform is typically defined as, being that no greater than 5% total harmonic distortions should be present. In order to achieve a sinusoidal output it is necessary to include a filter in the output circuit. The output of the inverter usually has a double wound transformer so that the required line voltage is obtained. The filter is placed on the load side of the transformer; its leakage reactance of the transformer contributes to the filtering process.
Inverters are fed from a battery bank that has sufficient cells to optimize the output voltage of the inverter and the performance of the rectifier or charger. The inverter is shown in Figure below, which provides an uninterruptible supply (UPS) that also has an off-load bypass supply.
Some of the equipment in a plant requires a source of power that is extremely reliable and does not become interrupted during an emergency. For example if all the main generators on a production platform trip for some emergency reason then it is necessary to maintain supplies to vital services such as communications, public address, emergency lighting, navigational panels, fire and gas systems. Many of these loads can tolerate a short break and can be supplied by the emergency diesel generator once it is ready for service. Some loads cannot tolerate an interruption at all e.g. data processing systems, instrument panels, safety shut-down systems.
Inverters can be arranged to operate in various ways to provide an uninterruptible supply.
Subscribe to:
Post Comments (Atom)
No comments:
Post a Comment