Umboniso we-EESA Energy Storage Exhibition waseTshayina ngomhla wesi-2 kuSeptemba ubone ukutyhilwa kwenoveliIseli yebhetri ye-3.2V 688Ah LiFePO4Yenzelwe ngokukodwa usetyenziso lokugcina amandla. Yiseli yeLiFePO4 enkulu kakhulu emhlabeni!
Iseli ye-688Ah LiFePO4 imele isizukulwana esilandelayo sobuchwepheshe bokugcina amandla, equlathe uyilo oluphuculweyo kulo lonke uluhlu lwemveliso. Ngobubanzi obumalunga ne-320mm, le seli ibanzi igcina ubude kunye nobukhulu obufanayo neeseli ezikhoyo ze-3.2V 280Ah LiFePO4 kunye neeseli ze-314Ah lithium LiFePO4.
Okubalulekileyo kukuba, kwenziwe izinto ezintsha ezibalulekileyo kwinkqubo ye-electrochemical, uyilo lwenkqubo yokwenziwa kweeseli, kunye noyilo olupheleleyo lwetyala lale seli intsha yokugcina amandla enikezelweyo enomthamo we-LFP 688Ah.
Ukuphunyezwa kobuninzi bamandla obuphezulu besizukulwana sesithathuinkqubo yebhetri ye-lithiumkwiinkqubo ze-electrochemical kuye kwabangela ukuba i-cell capacity density ibe yi-435+ Wh/L, ephakame nge-6% kune-314Ah litium battery cell yangaphambili. Ngaphezu koko, i-cell ine-energy efficiency engaphezulu kwe-96%, ubomi bomjikelo obudlula imijikelo ye-10,000 epheleleyo yokusebenza, kunye nobomi bekhalenda obudlula iminyaka engama-20.
Ukuqinisekisa ukuba amanyathelo okhuseleko aphezulu ayathathelwa ingqalelo, iteknoloji yokuzivala yobushushu be-diaphragm kunye ne-alumina ceramic coating ziyasetyenziswa ukuthintela ukungena kwamasuntswana angaphakathi kunye nokungena kwe-lithium dendrite kwi-diaphragm. Ngaxeshanye igxile kwimiba yokusebenza kakuhle, iseli nganye nganye ifikelela kumthamo we-2.2 KWH ngelixa inyusa umthamo wenkqubo ukuya kuthi ga kwi-6.9MWh.
Iimpawu eziphambili zeseli ye-688Ah:
⭐ 688Ah umthamo omkhulu kakhulu
⭐ ububanzi obuyi-320mm
⭐ Uxinano lwamandla eseli lwe-Wh/L oluyi-435+
⭐ >Ixesha le-10,000 ubomi bomjikelo
⭐ >Iminyaka engama-20 yobomi bekhalenda
Isizukulwana samva nje sepleyiti yesigqubuthelo seseli kunye noyilo lweqokobhe le-aluminium samkelwe ukuphucula amandla eseli ye-LFP ngokubhekiselele kuyilo lwesakhiwo seseli. Ngokuphathelele indlela yenkqubo, ukukhetha inkqubo yokusonga kuphucula ngakumbi izinga lenzuzo yendawo yangaphakathi, kwandisa uxinano lwamandla, kwaye kuphucula ukuhambelana kojongano.
Emva kokubola yonke isitya esingangeenyawo ezingama-20 ngokucwangcisiweyo, i-688Ahiseli ye-lithium yesinyithi ye-phosphateenomthamo we-6.9MWh yaphuhliswa ngempumelelo. Kwindawo encinci, kunokwenzeka ukuyila iseli ye-lithium phosphate ye-688Ah ehlangabezana nale mfuneko yobukhulu ngokweemfuno zabathengi. Le seli ayichazi nje kuphela iimpawu zayo kunye nobukhulu bayo, kodwa ikwamisela umthamo wayo kunye namandla ayo.
Ngesikhongozeli esiqhelekileyo seenyawo ezingama-20 esixhotyiswe ngomthamo we-688Ah, umthamo wonke wokugcina amandla wenkqubo unyuswe uye kwi-6.9MWh+, nto leyo efezekisa ngokwenene "ukunciphisa iindleko kunye nokuphucula ukusebenza kakuhle" okufana nokunciphisa indawo yeprojekthi, iindleko zotyalo-mali eziphantsi, ubomi benkonzo ende, kunye nokugcina ixesha elide. Oku kuphucule kakhulu imbuyekezo yotyalo-mali kwiiprojekthi zesikhululo samandla.
Iseli yebhetri ye-3.2V 688Ah LFP kulindeleke ukuba iveliswe ngobuninzi kwaye ifikelelwe kwii-4thikota ka-2025. Ukuqaliswa kweseli ye-688Ah LiFePO4 kujoliswe ekukhuthazeni ukwenziwa komgangathoibhetri yokugcina i-lithiumiinkcukacha kwaye ngokudibeneyo zenze ipateni entsha yemarike yesicelo sokugcina ilanga sebhetri ye-lithium.
Ixesha leposi: Sep-14-2024