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Isitoreji Selanga Sasekhaya: Amabhethri E-Lead-Acid VS Amabhethri e-Lithium Iron Phosphate

Esikhaleni sasekhaya sokugcina amandla elanga, izimbangi ezimbili eziyinhloko zibanga ukubusa: amabhethri e-lead-acid namabhethri e-lithium iron phosphate (LiFePO4). Uhlobo ngalunye lwebhethri lunezinzuzo zalo kanye nokubi ukuze kuhlangatshezwane nezidingo ezahlukene kanye nezintandokazi zabanikazi bezindlu abafuna isisombululo esithembekile sokugcina amandla. Kulesi siqhathaniso esibanzi, sizocubungula ubunkimbinkimbi bebhethri le-lead-acid ne-lithium iron phosphate, sihlole ukwakheka kwawo, ukusebenza kwawo, ukuphila isikhathi eside, izidingo zokunakekelwa nokucatshangelwa kwezindleko.

Ukuqhathaniswa kwamabhethri okuhola-asidi namabhethri e-lithium iron phosphate
Amabhethri e-lead-acid
Amabhethri e-lead-acid abe yisisekelo sezinhlelo zokusebenza zokugcina amandla amashumi eminyaka, ehlinzeka ngesixazululo esifakazelwe nesingabizi kakhulu kubanikazi bezindlu abafuna ukugcina amandla elanga amaningi akhiqizwa izinhlelo ze-photovoltaic (PV).

design kanye chemistry
Amabhethri aneasidi yomthofu asebenzisa ikhemikhali ye-lead-acid evamile, ehlanganisa amapuleti omthofu acwiliswe ku-electrolyte ye-sulfuric acid. Kunezinhlobo ezimbili eziyinhloko zalawa mabhethri: amabhethri e-lead-acid agcwele izikhukhula namabhethri e-lead-regulated lead-acid (VRLA). Amabhethri e-lead-acid egcwele amanzi adinga ukunakekelwa okuvamile, okuhlanganisa nokugcwaliswa kabusha kwe-electrolyte, kuyilapho amabhethri e-VRLA engakhathalelwa futhi avaliwe.

Amabhethri e-lead-acid

性能和寿命
铅酸电池以其耐用性和可靠性而闻名,其典型寿命為 5 至 10 具体取决于是使用满式和铁锂电池相比,它們的能量密度和效率相对较低,磷酸铁锂电池可能需要更大的存储空间才能达到所需的储能容量。
维护和安全
富液式铅酸电池需要定期维护以确保最佳性能和使用寿命,包括检查电解液液性能。一方面,VRLA 电池不需要维护,但如果监控不当,可能更容易发生热失控和过度充电.


Isikhathi sokuthumela: May-25-2024