电池专题
  • Innoliths batteries use non-traditional inorganic electrolytes, which have higher durability and are non-flammable, thus ensuring that the batteries are safer. Organic lithium-ion batteries have limited service life, and have caused many fi...

    2019-09-26
  • In February this year, the Ministry of Finance and other four departments adjusted and improved the financial subsidy policy for the promotion and application of new energy vehicles, further improving the energy density threshold requiremen...

    2019-09-26
  • The scale of digital lithium batteries has become the largest area in the consumption structure of lithium batteries. With the approaching of the abandonment period of power batteries loaded in vehicles from 2012 to 2014, 2018 is regarded a...

    2019-09-26
  • 불합격 항목은 주로 천자, 배터리 용량 테스트, 압박, 중물 충격 등을 위한 것이다.이 중 가시 실험은 아날로그 배터리가 첨예물체를 뚫을 때 안전한가, 검사원들은 직경 3밀리미터의...

    2019-09-26
  • Summarize and analyze the incomplete statistics of electric vehicle fire accidents at home and abroad, to see the reasons for the fire. The main causes of the accident are charging fire, accounting for 17%; collision fire, accounting for 22...

    2019-09-26
  • The system energy density of batteries is 90Wh/kg in 2015 and 116Wh/kg in 2017, which develops rapidly and accords with the law of development relatively, but it has reached 137.5 Wh/kg in April 2018. Why is there such a big change from 201...

    2019-09-26
  • After lithium-ion batteries are manufactured by two different structural processes, i.e. winding or superimposing, three different paths have been taken in the material and shape of shell packaging: cylinder, square and soft package. Althou...

    2019-09-25
  • Lithium-ion battery energy storage is considered to be one of the most promising energy storage methods in the market due to its fast response, high energy conversion efficiency, fast cost reduction and good scalability. In fact, before 201...

    2019-09-25
  • 廃棄電池の回収の必要性は主に3つの要素があります。①安全性環境保護性。廃電池の非正規の回収ルートと立ち遅れた回収方式は環境に深刻な汚染をもたらし、人類の健康に損害を...

    2019-09-25
  • 動力電池の回収領域の優勢は主に3つの方面に現れています。①湿式冶金技術の沈殿です。華友コバルト業は湿式冶金業の15年近くに従事しています。湿式製錬技術は成熟しています...

    2019-09-25