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Difference between AC and DC Transmission System & Power Lines

Comparison between AC & DC Transmission Lines with their Advantages & Disadvantages

Electric power can be transmitted in both AC and DC for short and long transmission and distribution systems.

There are some advantages and disadvantages of both systems. Let’s discuss the technical advantages and disadvantages of both AC and DC power transmission lines systems.

Difference between AC and DC Transmission System & Power Lines

DC Transmission:

In earlier times, the electric power transmission was done in DC due to the following advantages over AC.

Advantages of DC Transmission

  • There are two conductors used in DC transmission while three conductors are required in AC transmission.
  • There are no inductance and surges (High Voltage waves for a very short time) in DC transmission.
  • Due to the absence of inductance, there are very low voltage drop in DC transmission lines as compare to the AC (if both Load and Sending end Voltage is same)
  • There is no concept of Skin effect in DC transmission lines. Therefore, a conductor having a small cross sectional area is required in the DC transmission line.
  • A DC System has a less potential stress over an AC system for the same Voltage level. Therefore, a DC line requires less insulation.
  • In the DC System, there is no interference with other communication lines and systems.
  • In the DC Line, Corona losses are very low as compared to the AC transmission lines.
  • In High Voltage DC (HVDC) Transmission lines, there are no dielectric losses.
  • In the DC Transmission system, there are no difficulties in synchronizing and related stability problems.
  • The DC system is more efficient than AC, therefore, the rate of price of Towers, Poles, Insulators, and conductors are low so the system is economical.
  • In DC System, the speed control range is greater than AC System.
  • There is low insulation needed in the DC system (about 70%).
  • The price of DC cables is low (due to low insulation).
  • In the DC Supply System, the Sheath losses in underground cables are low.
  • The DC system is suitable for High Power Transmission based on High Current transmission.
  • In the DC System, The Value of charging current is quite low, therefore, the length of the DC Transmission lines is greater than AC lines.

Related Post: AC or DC – Which One is More Dangerous And Why?

Disadvantages of DC Transmission:

  • Due to commutation problems, electric power can’t be produced at High (DC) Voltage.
  • In High Voltage transmission, we can’t step-up the level of DC Voltage (As Transformer won’t work on DC).
  • There is a limitation of DC switches and circuit breakers (and they are costly too).
  • The motor generator set is used to step down the level of DC voltage and the efficiency of Motor-generator set is lower than a transformer.
  • The DC transmission system is more complex and costly as compared to the AC transmission system..
  • The level of DC Voltage can not be changed (step-up or step-down) easily. So we can not get the desired voltage for electrical and electronics appliances (such as 5 Volts, 9 Volts 15 Volts, 20 and 22 Volts etc) directly from the transmission and distribution lines.

Related Post: Difference between AC Drives and DC Drives

AC Transmission:

Nowadays, the generation, transmission and distribution of electric power has mostly been in AC.

Advantages of AC Transmission System

Related Post: Why Does A Capacitor Block DC But Pass AC?

Disadvantages of AC System

  • In the AC line, the size of the conductor is greater than the DC Line.
  • The cost of AC transmission lines is greater than DC Transmission lines.
  • Due to skin effect, the losses in the AC system are more.
  • Due to the capacitance in AC transmission lines, a continuous power loss occurs when there is no load on the power lines or line is open at all.
  • There are some additional line losses due to inductance.
  • More insulation is required in the AC transmission system.
  • The corona losses occur in an AC transmission line system.
  • AC transmission lines interfere with other communication lines.
  • There are stability and synchronizing problems in the AC System.
  • The AC transmission system is less efficient than the DC transmission System.
  • There are difficulties in controlling the reactive power.

Related Post: Why Do Electronic Circuits Use DC Current instead of AC?

The above comparison shows that DC transmission system is better than the AC transmission system but still, the majority of power transmission is done in AC power lines due to cost and uses of transformers for changing the level of voltages at different levels for different purposes.

Although mercury arc rectifiers, thyratrons, diodes and semiconductors can be used to easily convert AC into DC and DC into AC. Therefore, some countries transmit the electric power through DC power lines. The range of these DC power transmissions is up to 100kV to 800kV+.

Good to know:

  • Recently in China, a 12GW power was transmitted at 11kV DC over a distance of 3300km.
  • In addition, the longest HVDC power transmission line in the world is 2385km in Madeira, Brazil.

Related Posts:

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12 Comments

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  1. I still do not have a clear understanding of the difference in AC/DC vs. DC when it comes to transmission speeds when it comes to the amount of time needed for each. Are there differences time wise? If so, in what way? I understand the physical differences in ALTERNATE vs. DIRECT methods of transmission. I’m guessing, but with out transformers, I believe DC should be a faster application. Could you please help me with this dilemma?

  2. NOTE: as the article begins with “Some times ago the Electric power transmission was in DC” I assume it was written regarding power transmission technology that existed in most XX century.

    “Two conductors in DC transmission while three required in AC”.
    The author is talking about 3-phase. In AC this is done because when computing overall cost it is cheaper to use 3 conductors.

    “There are no Inductance and Surges (High Voltage waves for very short time) in DC transmission”.
    Wrong. Inductance is always present regardless of the conductors being used for AC or DC. A sudden current change in a DC line may generate dangerous voltage spikes. Example: in a 12V car you can find surges of up to +200 and -200V when switching loads.

    “There is no concept of Skin effect in DC transmission. Therefore, small cross sectional area conductor required”.
    Right, but AC can be easily stepped up in voltage and cross section will be lower for the same transmitted power.

    “In DC System, the speed control range is greater than AC System”.
    Wrong. Variable frequency drives can slow a motor down to turtle speeds.

    “In AC Lines, there is Capacitance, so continuously power loss when no load on lines or Line is open. Other line losses are due to inductance”.
    Wrong. Capacitive and inductive reactances do not generate energy loss, only create reactive energy.

    Regrettably, the reason why I was interested to read the note was about very high voltage DC transmission, a topic I couldn’t find enough information, but there is just a mere mention to choppers and boosters.

    One thing in favour to DC is: DC motors are more compact and lightweight than AC ones for the same power, and can reach much higher RPMs, and the hassle of brushes can be overcome by brushless electronic designs.

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