近幾年來,隨著經濟的持續快速發展,電力、通訊、計算機等基礎產業發展十分迅速,這些行業對蓄電池的需求日益增長。蓄電池監測廠家的出現代表著蓄電池監測模塊趨近(jin)于成熟,請聽鈺鑫������電氣(qi)小編接下來為您分析蓄(xu)電池歐姆(mu)內阻(zu)產生(sheng)變化(hua)的原因!
通常備電電池在自然劣化,影響因素較多(duo)的就(jiu)是(shi)歐姆內阻變化:
圖(tu)(tu)1、圖(tu)(tu�������)2、圖(tu)(tu)3表明每類問題(ti)與電池性能的(de)關系(xi):
圖1是一條典型放電(dian)(dian)(dian)曲線(xian),放電(dian)(dian)(dian)同(tong)時出(chu)(chu)現電(dian)(dian)(dian)壓(ya)跌落,即是受電(dian)(dian)(dian)�����池歐姆內阻影響,緊隨(sui)電(dian)(dian)(dian)壓(ya)的(de)(de)指(zhi)數下降(jiang),繼而(er)出(chu)(chu)現向上恢復后達到穩(wen)定,電(dian)(dian)(dian)壓(ya)穩(wen)定后的(de)(de)電(dian)(dian)(dian)壓(ya)變化由電(dian)(dian)(dian)化學反應決定,是受活性物質和�������(he)酸(suan)液的(de)(de)影響。
圖(tu)2是同樣������倍率(lv)的放(fang)(fang)電(dian), 電(dian)池具有(you)較高的金(jin)屬歐姆內阻 (因為鑄鉛或單體之間連接問題)。圖(tu)中(zhong)顯示容(rong)量損失導(dao)致(zhi)歐姆內阻增加,放(fang)(fang)電(dian)的電(dian)流超(chao)大,電(dian)壓(ya)下降幅(fu)度(du)越大,放(fang)(fang)電(dian)容�������(rong)量越低。
圖(tu)3和(he)圖(tu)1是(shi)同樣的(de)(de)(de)電(dian)(dian)(dian)(dian)(dian)池, 因為在(zai)(zai)電(dian)(dian)(dian)(dian)(dian)化學(xue)回路上的(de)(de)(de)問(wen)題(ti) (涂膏、電(dian)(dian)(dian)(dian)(dian)解質和(he)隔膜(mo)問(wen)題(ti))導(dao)(dao)致放電(dian)(dian)(dian)(dian)(dian)容量(liang)下降(jiang)(jiang),但在(zai)(zai)放電(dian)(dian)(dian)(dian)(dian)初期(qi)差(cha)異很(hen)小金屬電(dian)(dian)(dian)(dian)(dian)阻(zu)方面的(de)(de)(de)問(wen)題(ti)是(shi)潛在(zai)(zai)的(de)(de)(de)較大危險,極可能導(dao)(dao)致放電(dian)(dian)(dian)(dian)(dian)時單(dan)體的(de)(de)(de)爆(bao)裂(lie)。這類問(wen)������題(ti)導(dao)(dao)致母線電(dian)(dian)(dian)(dian)(dian)壓急(ji)劇下降(jiang)(jiang),在(zai)(zai)毫無準(zhun)備的(de)(de)(de)情況下造成(cheng)直流系統的(de)(de)(de)崩潰。電(dian)(dian)(dian)(dian)(dian)化學(xue)的(de)(de)(de)問(wen)題(ti)影響電(dian)(dian)(dian)(dian)(dian)池容量(liang)和(he)供電(dian)(dian)(dian)(dian)(dian)維持時間(jian),涂膏和(he)電(dian)(dian)(dian)(dian)(dian)解質是(shi)整個內阻(zu)中很(hen)小的(de)(de)(de)一部份(fen),不細(xi)微監測其(qi)變化可能難于察(cha)覺(jue)。
慶幸的是(shi),涂膏和涂膏與柵(zha)板的電(dian)(dian)阻(zu)(zu)隨電(dian)(dian)池(chi)的老(lao)化而增(zeng)大,因此,老(lao)化的問題可以(yi)輕易檢(jian)測(ce)出來(lai)。在(zai)現場收集(ji)了一些數據(ju),結(jie)果(guo)(guo)表明,歐姆內(nei)阻(zu)(zu)比基準(zhun)值高出 50%的電(dian)(dian)池(chi),不能(neng)通過標準(zhun)的容(rong)量測(ce)試,這一點是(shi)確(que)實無疑的。結(jie)果(guo)(guo)亦表����明,開口��������電(dian)(dian)池(chi)往(wang)往(wang)成組的損壞,而 VRLA電(dian)(dian)池(chi)是(shi)一個接一個地失效(xiao)。
使用 3~4 年的蓄電池組,各個歐姆內阻值分布高于基線值的0~100%也是常事。用歐姆內阻測試來考核電池的狀況是一種相當可靠的方法。蓄電池歐姆內阻與其失效(xiao)(xiao)有關,并且通過(guo)電(dian)(dian)(dian)(dian)池歐姆(mu)內阻能預測(ce)其放電(dian)(dian)(dian)(dian)性能。 對(dui)于(yu)影響電(dian)(dian)(dian)(dian)源(yuan)系統的(de)電(dian)(dian)(dian)(dian)池變壞, 歐姆(mu)內阻測(ce)試相當有效(xiao)(xiao)。現(xian)(xian)場測(ce)試的(de)數據(ju)表(biao)明(m����ing),個別電(dian)(dian)(dian)(dian)池的(de)歐姆(mu)內阻偏離平均值的(de)25%時,就(jiu)應該做一次放電(dian)(dian)(dian)(dian)容量測(ce)試了(le)。將(jiang)溫度傳感器置(zhi)于(yu)電(dian)(dian)(dian)(dian)池表(biao)面可以發現(xian)(xian)電(dian)(dian)(dian)(dian)池過(guo)熱,從而及時發現(xian)(xian)電(dian)(dian)(dian)(dian)池運行(xing)過(guo)程的(de)異(yi)常(chang)。
保定鈺鑫電氣科技有限公司專注蓄電池監測類產品的質量和研發,通過與華北電力大學、河北大學等科研院所的合作,專注產品的質量、拓寬產品應用范圍,研發出適合不同領域、不同環境的蓄電池在線監測系統,從而滿足用戶的個性(xing)化定制需求(qiu��������)。如果貴公司(si)想(xiang)定制蓄電(dian)池監測接入方案(an),歡迎點擊客服或(huo)電(dian)話咨詢。
