Thursday, August 07, 2014

Engr. Aneel Kumar

HVDC

An alternate means of transmitting electricity is to use high-voltage direct current (HVDC) technology. As the name implies, HVDC uses direct current to transmit power. Direct current facilities are connected to HVAC systems by means of rectifiers, which convert alternating current to direct current, and inverters, which convert direct current to alternating current. Early applications used mercury arc valves for the rectifiers and inverters but, starting in the 1970s, thyristors became the valve type of choice.

Thyristors, also called silicon-controlled rectifier (SCRs), are controllable semiconductors that conduct when their gates receive a current pulse. They can carry very high currents and can block very high voltages. They are connected is in series to form a thyristor valve, which allows electricity to flow during the positive half of the alternating current voltage cycle but not during the negative half. Since all three phases of the HVAC system are connected to the valves, the resultant voltage is unidirectional but with some residual oscillation. Smoothing reactors are provided to dampen this oscillation.

Recently, insulated gate bipolar transistors (IGBTs), using pulse-width modulation (PWM), have been used as valves. This technology was initially developed to be used with underwater HVDC cable installations when one of the terminals is connected to a weak electrical source such as an offshore wind farm.

An IGBT is basically a bipolar junction transistor (BJT) with a semiconductor gate structure in which the gate is controlled using voltage instead of current.

HVDC transmission lines can either be single pole or bipolar, although most are bipolar, that is, they use two conductors operating at different polarities such as ± 500 kV. HVDC submarine cables are either of the solid type with oil-impregnated paper insulation or of the self-contained oil-filled type. New applications also use cables with extruded insulation made of cross-linked polyethylene.

Engr. Aneel Kumar -

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