The wire required for DC system is lesser than AC distribution systems. So, we can save more copper through DC distribution system at higher voltage distribution. Hence direct current distribution system offers the best economy at high voltages. High voltage direct current (HVDC) power systems use D.C. for transmission of bulk power over long distances. For long-distance power transmission, HVDC lines are less expensive, and losses are less as compared to AC transmission. It interconnects the networks that have different frequencies and characteristics. HVDC transmission is economical only for long-distance transmission lines having a length of more than 600kms and for underground cables of length more than 50kms.
Economic Distance For HVDC distribution lines:
DC lines are cheaper than the AC lines, but the cost of DC terminal equipment is very high as compared to AC terminal cables as shown in the figure below. Thus, the initial cost is high in the HVDC transmission system, and it is low in the AC system.
The point where two curves meet is called the breakeven distance. Above the breakeven distance, the HVDC system becomes cheaper. Breakeven distance changes from 500 to 900 km in overhead transmission lines.
Advantages of HVDC distribution:
A lesser number of conductors and insulators are required thereby reducing the cost of the overall system.
It requires less phase to phase and ground to ground clearance.
Their towers are less costly and cheaper.
Corona loss is less as compared to HVAC transmission lines of similar power.
Power loss is reduced with DC because fewer numbers of lines are required for power transmission.
HVDC system uses earth return. If any fault occurs in one pole, the other pole with 'earth returns' behaves like an independent circuit. This results in a more flexible system.
HVDC acts as the asynchronous connection between two AC stations connected through an HVDC link, i.e. it interconnects two substations with different frequencies.
Due to the absence of frequency in the HVDC line, losses like skin effect and proximity effect does not occur in the system.
It does not generate or absorb any reactive power. So, there is no need for reactive power compensation.
Very accurate and lossless power flows through the DC link.
Disadvantages of HVDC distribution:
Converter substations are required at both the sending and the receiving end of the transmission lines, which result in increasing the cost.
Inverter and rectifier terminals generate harmonics which is reduced using active filters which are also very expensive.
The inverter used in Converter substations has limited overload capacity.
Circuit breakers are used in HVDC for circuit breaking, which is also very expensive.
It does not have transformers for changing the voltage levels.