文章(zhang)來源:國(guo)家電網公(gong)司 發布(bu)時間:2016-11-09
11月2日,由中國(guo)電(dian)力(li)科學研(yan)究院牽頭的國(guo)家電(dian)網(wang)公司科技項目“儲能用鈦酸鋰電(dian)池及儲能系統研(yan)制”項目順利(li)通(tong)過公司驗(yan)收(shou),項目成果將(jiang)有效確(que)保我國(guo)即將(jiang)形成的以特高(gao)壓電(dian)網(wang)為骨干的互(hu)聯大電(dian)網(wang)安(an)全(quan),提(ti)高(gao)系統穩定性,改善(shan)區域供電(dian)品質和綠色能源電(dian)力(li)輸出特性。
根據試(shi)驗(yan)驗(yan)證(zheng),儲(chu)能(neng)用(yong)(yong)(yong)于提(ti)高(gao)大規(gui)模可(ke)再生能(neng)源(yuan)接入應(ying)(ying)用(yong)(yong)(yong),需要儲(chu)能(neng)系統頻繁大功(gong)率(lv)出力,現有(you)鉛酸(suan)(suan)電池、液流電池及(ji)磷酸(suan)(suan)鐵鋰電池技(ji)術各有(you)局限性(xing),無法滿(man)足頻繁的瞬時大功(gong)率(lv)應(ying)(ying)用(yong)(yong)(yong)場景。鈦酸(suan)(suan)鋰電池具有(you)長(chang)的循環壽命及(ji)高(gao)倍(bei)率(lv)等特(te)點,正好契(qi)合該應(ying)(ying)用(yong)(yong)(yong)場景,但(dan)目(mu)前鈦酸(suan)(suan)鋰電池的高(gao)成本(ben)不(bu)利于規(gui)模化儲(chu)能(neng)應(ying)(ying)用(yong)(yong)(yong)。針(zhen)對以(yi)上問題,中(zhong)國(guo)電科(ke)院、珠海(hai)銀隆新能(neng)源(yuan)有(you)限公司、中(zhong)國(guo)科(ke)學(xue)院物理研(yan)究所共同組織開展了(le)“儲(chu)能(neng)用(yong)(yong)(yong)鈦酸(suan)(suan)鋰電池及(ji)儲(chu)能(neng)系統研(yan)制” 項(xiang)目(mu)研(yan)究。
項目(mu)針對儲能應用(yong)(yong)需(xu)求,在(zai)原(yuan)有鈦(tai)酸(suan)鋰(li)(li)電(dian)(dian)(dian)池(chi)(chi)(chi)的(de)(de)基礎(chu)上(shang)提(ti)出(chu)了滿足儲能應用(yong)(yong)需(xu)求的(de)(de)鈦(tai)酸(suan)鋰(li)(li)電(dian)(dian)(dian)池(chi)(chi)(chi)材(cai)料體系(xi)重構原(yuan)則與技術方案(an),研發出(chu)亞微米級(ji)鈦(tai)酸(suan)鋰(li)(li)材(cai)料。項目(mu)研制的(de)(de)儲能用(yong)(yong)鈦(tai)酸(suan)鋰(li)(li)電(dian)(dian)(dian)池(chi)(chi)(chi)保持了長(chang)壽(shou)命高倍率的(de)(de)本征(zheng)(zheng)特性(xing),且成本大幅下降。通過鈦(tai)酸(suan)鋰(li)(li)電(dian)(dian)(dian)池(chi)(chi)(chi)成組(zu)集(ji)成技術,開(kai)發了適合頻(pin)繁(fan)瞬(shun)時大功(gong)率應用(yong)(yong)場景的(de)(de)MW級(ji)儲能系(xi)統(tong),提(ti)出(chu)了含鈦(tai)酸(suan)鋰(li)(li)電(dian)(dian)(dian)池(chi)(chi)(chi)、磷酸(suan)鐵鋰(li)(li)電(dian)(dian)(dian)池(chi)(chi)(chi)、鉛酸(suan)電(dian)(dian)(dian)池(chi)(chi)(chi)等(deng)多類型儲能系(xi)統(tong)的(de)(de)能量管理系(xi)統(tong),依據不同(tong)類型電(dian)(dian)(dian)池(chi)(chi)(chi)的(de)(de)應用(yong)(yong)特征(zheng)(zheng)和動(dong)態特性(xing),開(kai)發了新型運行控制軟件(jian)。
項(xiang)目(mu)研究成果將(jiang)逐(zhu)步完善(shan)長(chang)壽命(ming)鈦酸鋰(li)電池儲(chu)能技(ji)(ji)術,為大規模長(chang)壽命(ming)鋰(li)離(li)子電池儲(chu)能系統的建設提供技(ji)(ji)術積累(lei),同時為長(chang)壽命(ming)鋰(li)離(li)子電池儲(chu)能裝(zhuang)置產業化發(fa)展,促進新能源的利(li)用奠定技(ji)(ji)術基(ji)礎。