• 功率因素


    无功功率是不消耗电能的,但是它一直在感性、容性负载和电源之间交换,这样就会有电流流来流去,会导致线路发热,这就是线路损耗。如果感性负载和电源之间交换电能,这样就减小了电源的利用率,如果采用了电容补偿,它利用感性元件与容性元件的阻抗相位相反,它们之间的能量可以相互补充,减少了与电源电能的交换。就减少了线路损耗,所以要就地补偿,提高功率因数。

    https://baike.baidu.com/item/%E6%97%A0%E5%8A%9F%E6%B6%88%E8%80%97/22168602

    https://www.baidu.com/s?ie=utf-8&f=8&rsv_bp=1&rsv_idx=1&tn=baidu&wd=%E6%97%A0%E5%8A%9F%E5%8A%9F%E7%8E%87%E6%80%8E%E4%B9%88%E5%B0%B1%E6%B5%AA%E8%B4%B9%E4%BA%86&oq=%25E4%25BB%2580%25E4%25B9%2588%25E6%2598%25AF%25E5%258A%259F%25E7%258E%2587%25E5%259B%25A0%25E6%2595%25B0&rsv_pq=fc676614000119fe&rsv_t=75af3DDQADjvGD6iMQLq4iJfR7i2Je4SgK8hIfaTonUsf%2BlxA7I29tLVnpw&rqlang=cn&rsv_enter=1&rsv_sug3=53&rsv_sug1=21&rsv_sug7=100&rsv_sug2=0&inputT=21505&rsv_sug4=22687

  • 相关阅读:
    (Problem 4)Largest palindrome product
    (Problem 3)Largest prime factor
    (Problem 2)Even Fibonacci numbers
    (Problem 1)Multiples of 3 and 5
    Ural 1086
    Ural 1319
    Ural 1149
    Ural 1079
    Ural 1068
    2016/04/06
  • 原文地址:https://www.cnblogs.com/god-of-death/p/8007485.html
Copyright © 2020-2023  润新知