Tesla vs Edison: the war of currents
Apress
Few remember the debate itself, but the characters are still well known. You had Thomas Edison (image, right) and GE on one side, pushing for the power transmission and distribution system to be based on DC. On the other side, Nikola Tesla (image, left) and Westinghouse put all their effort into promoting AC. With electricity supplies in their infancy, much depended on choosing the right technology to power homes and businesses across the country.
This was when the industrial revolution was accelerating in the US and famous men like Andrew Carnegie, JP Morgan and others where known for their aggressive industrial growth practices, and the two sides in this conflict didn’t have too many scruples either: DC’s leading supporters often resorted to very questionable marketing practices to exaggerate the dangers of AC.
But the dirty tricks didn’t help and the War of the Currents was won by AC, which has been the platform for electrical transmission across the world since that time
However, New York City, being the battle ground for this war, had already invested in a number of Edison DC installations, and these of course continued to work for many years alongside the growing AC network. It wasn’t until 1927 that New York decided to replace the DC equipment, and it wasn’t until 2007 – just four years ago – that the last of it was removed – a full 125 years after the end of the War of the Currents.
But while AC was perfectly adequate for the conditions of the day – and for much of the 20th century – the needs of the 21st century are showing its limits. And the irony is that, although Edison lost the battle, his direct current is making a comeback just as New York City has finally rid itself of the standard. Today, it is not a question of AC versus DC, but of AC and DC.
This is because we are facing a revolution in the way our electricity is produced and used. On the production side, more and more electricity is being generated from renewable sources of energy either in remote areas (hydropower plants in mountains far from urban centers, offshore wind farms) or locally (rooftop solar panels). DC is the only technology that allows power to be transmitted economically over very long distances, and DC is the type of power produced by photovoltaic panels.
You've read about the war of currents. Maybe you're savvy about the evolution of the electrical grid. But have you played Edison vs Tesla the arcade game?It's not quite mortal combat, but after a century the debate about Alternating Current (AC) vs Direct Current (DC) is heating up again.
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As far as using power is concerned, more and more equipment runs on DC, such as computers, cell phones and LED lights. At the moment, each of these appliances uses its own rectifier to switch power from AC to DC. A much more efficient solution would be to convert the power in a larger rectifier as it enters each building. ABB estimates the savings from using DC instead of AC in buildings could be in the order of 10 to 20 percent.
Losses could be further reduced by converting power to DC at the substation level and distributing DC power throughout an entire district, or even by transmitting, distributing and using power as DC. For these scenarios some technological challenges remain – such as the development of DC breakers – but will likely be overcome within a few years.
Batteries are another technology that runs on DC power and there are more and more of these around us storing excess power produced from renewable energy installations during favorable weather conditions and powering electric cars.
It would be impractical and expensive to implement DC distribution grids where AC distribution grids already exist, but DC may increasingly become the solution of choice in new districts or cities, where new communities are electrified for the first time, and where electrification “islands” (not connected to the main power network) are created. Such islands include new ships and communities generating their own power from renewable resources.
DC distribution would be particularly attractive for communities using power generated by photovoltaic solar panels, since this is already DC power and currently has to be converted to AC before distribution.
In addition, DC offers greater capacity per power line, reducing the weight and size of power equipment throughout the grid and home, and can help to improve the reliability of power supplies as it is easier to control the voltage on DC lines and because DC connections do not cascade faults and cause blackouts the way AC lines can do.
The main benefits of DC based grids would be:
• Greater energy efficiency
• Higher power quality
• Smaller equipment
• Less complexity and lower costs
By Apress on June 8, 2012 ®
In the future more about Nikola Tesla personal
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Comments
First : )
hehe tnx my friend 😉 \o o7
Tesla rulez!
Tesla rulez!
Tesla rulez!
Tesla rulez!
Tesla rulez!
Tesla rulez!
Edison's business was to buy patents, not merely to innovate.
Tesla was a real genie.
Good article, V + S
Genie in a bottle? Or a genius?
Tesla was genius.
nice.. have you read Networks of Power: Electrification in Western Society, 1880-1930 by T. Hughes?
great book for this: "Maybe you're savvy about the evolution of the electrical grid"
Tesla rules! Thanks for the article I will shout it.
PS: perhaps you will write also about "free energy generator" and "radiant energy" and "wireless energy transmission"- all Tesla "babies" which have been kept hidden from the public since it will change the way we live.
Of course, that Tesla was a genius. People, he was a Serb. Serbs are a genius Nations
TESLA o/
Tesla, Serb, the biggest scientist of all time!
Tesla rulez!
Tesla rulez!
Tesla rulez!
Tesla rulez!
Tesla rulez!
V
Tesla, Serb, the biggest scientist of all time! x2
s99
Thank you all because you read my e-news.And thank you all for Vote and sub.You make my day \o o7
niikola teslaa
jedan je nikola teesla
nikola teeesla
nikola teeesla
sjedi ispred mog faxa i sprema ispit xD
http://www.znanje.org/i/i26/06iv08/06iv082126/images/Spomenik_tesla_ispred_etfa.jpg
Dok je struju izmišljao Tesla Ameriko sisala si vesla
Nikola xD
vote
Ovo je najbolja ilustracija Tesle, ujedino je i potisnula Edisona u .... Pročitajte celo: http://theoatmeal.com/comics/tesla
Stavi ovo u članak. Veoma je dobro napravljeno, ljudi će se oduševiti. : )
e samo čekam kad će da se javi neki hrvat tvrdeći da je tesla bio hrvat... xD
Ćuti ne prizivaj ih. Počeće u papu da se kunu. Sigurno ih je odgajio kad su bili mali. : /
Edison je bio Hrvat, a znamo ko je koga napr*** u ovoj prici.
100% ИСТИНА....Едисон је сисић, а о причи да је Тесла хрват: ХАХАХАХАХАХАХАХАХАХАХА
I'm not Serbian, but Nikola Tesla was one badass intellectual.
Thomas Alva Edison was thief,he stooled Teslas blueprints and sabotaged his studio!
I`m RL Croat,Nikola Tesla is Best in Show!
@ Doom Occulta ,Tesla se uvijek ponosijo svojom domovinom i uvijek je o tome pričao po svijetu i kao i svi Lički Srbi,osjećao se prvo Ličaninom,pa tek onda Srbinom i Hrvatom,.,.,.moš pričat šta očeš
http://theoatmeal.com/comics/tesla
response from forbes to the comic 🙂
http://www.forbes.com/sites/alexknapp/2012/05/18/nikola-tesla-wasnt-god-and-thomas-edison-wasnt-the-devil/2/
and the response to the response from the author of the comic 😁)
http://theoatmeal.com/blog/tesla_response
Tesla for life
Vote!
v+S well written😃
Always without fail interesting articles. Thanks
AC-DC!!
I was told that DC current id more dangerous for human life... try to touch a 110V cable wit DC current...
Also, energy transmission efficiency is greater because losses are less with AC... but for home, a 12V net can perfectly be made i.e. Thanks for the artice!
I love the picture of cableless transmission station...
voted and s, fck that douchebag edison, Tesla rules forever