Thomas Edison and his DC (Direct Current) powered grid completely lost out to Nikolas Teslas AC (Alternating Current) power… or did it. Tesla’s AC power won hands down because it is safer and cheaper to deliver. But…. new solid-state technology, not available to Edison, is making DC a better choice in cases of long distance or underwater high voltage transmission. Grid planners are taking another look at HVDC (High Voltage Direct Current) lines as we push for greater energy efficiency, join energy markets like EIM, include more renewables and have advances in technology. Is Edison getting his revenge? *evil laugh* Breaking it down The cost of transmission in either system depends on 4 main factors. Who is the winner, AC or DC? 1) Cost of transformers: Winner – AC
There is a breakeven point of distance where DC is the better choice to use over AC. Facts
Bonus Consider that wind and solar produce DC current which is then converted to AC current. Its voltage is stepped up and down as it travels through the grid to your laptop where it is rectified back to DC power. Each time it is converted between AC and DC it loses between 5-20 percent 6 of its energy as heat. This is why your laptops brick warms up when it is being charged. Likewise, the rise of data centers is illustrating this inefficiency. Variable speed wind turbine generators produce AC which is converted to DC to regulate the voltage then back to AC for the grid. This AC power is delivered to the data center, converted to DC to charge the backup batteries, and then outputted as AC which is fed into each server which converts it back to DC. That means that from the time that our wind farms produce the electricity and deliver it to the data center server it has gone through the following conversations: AC to DC to AC to DC to AC to DC…. I can’t make this stuff up! This energy loss at each conversion is why data centers get so hot and why new DC lines might be the answer.
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February 2024
AuthorBrent is an electrical engineer specializing in utility power systems with a master’s in Energy Policy and Management an MBA, PMP and a degree in Spanish. |