Ubuchwepheshe bokugaywa kabusha kwebhethri ye-BNT ye-Green Li-ion
ikhiqiza i-cathode yebhethri ehlanzekile engu-99.9%.
Liyini Ibhethri Le-Lithium-Ion?
Igama lebhethri le-lithium-ion lisetshenziselwa ukuchaza amayunithi amaningi wokugcina amandla ahlanganisa amabhethri e-lithium-ion amaningi. Ibhethri ye-lithium-ion,
ngakolunye uhlangothi, luhlobo lweyunithi yokugcina amandla ekhiqizwa nge-lithium-ion alloy. Amabhethri e-lithium-ion aqukethe izingxenye ezine eziyisisekelo: i-cathode
(itheminali enhle), i-anode (itheminali engalungile), i-electrical conduction medium) nesihlukanisi.
Ukuze ibhethri le-lithium-ion lisebenze, amandla kagesi kufanele aqale ageleze kuzo zombili iziphetho. Uma i-current isetshenziswa, ishajwa kahle futhi kabi
I-lithium ions ku-electrolyte ewuketshezi iqala ukuhamba phakathi kwe-anode ne-cathode. Ngakho, amandla kagesi agcinwe ngaphakathi adluliselwa kusuka
ibhethri ezintweni ezidingekayo. Lokhu kuvumela idivayisi ukuthi yenze yonke imisebenzi yocingo, kuye ngokuminyana kwamandla edivayisi
ibhethri/ibhethri.
Yiziphi Izici Zebhethri Le-Lithium-Ion?
>Iwuhlobo lwebhethri elishajekayo.
>Ingathwalwa kalula ngenxa yomthamo wayo omncane.
> Inesici sokugcina amandla aphezulu uma kuqhathaniswa nesisindo sayo.
>Ishaja ngokushesha kunezinye izinhlobo zamabhethri.
>Njengoba ingekho inkinga yomphumela wenkumbulo, asikho isidingo sokugcwalisa nokusetshenziswa.
>Impilo yayo ewusizo iqala kusukela ngosuku lokukhiqiza.
>Umthamo wazo wehliswa ngamaphesenti angama-20 kuye kwangama-30 unyaka ngamunye uma zisetshenziswa kakhulu.
>Izinga lokulahlekelwa amandla elincike esikhathini liyahlukahluka kuye ngezinga lokushisa elisetshenziswa ngalo.
Yiziphi izinhlobo zamabhethri asetshenziswayo ?
Kunezinhlobo zamabhethri ezingaphezu kwe-10 ezanyiwe futhi zathuthukiswa ezimotweni zikagesi kuze kube manje. Nakuba ezinye zazo zingakhethwa ngenxa yezinkinga zokuphepha nezici zokukhishwa ngokushesha, ezinye azisetshenziswa kabanzi ngenxa yezindleko zabo eziphezulu. Ngakho ake sibheke abavelele kakhulu kubo!
1. Amabhethri e-Lead Acid
Ingenye yezinhlobo zokuqala zamabhethri asetshenziswa ezimotweni. Ayikhethwa namuhla ngenxa ye-voltage yayo ephansi kanye nokushuba kwamandla.
2. Amabhethri e-Nickel Cadmium
Inomthamo omkhulu wamandla uma iqhathaniswa namabhethri e-lead-acid. Kunzima ukusebenzisa ezimotweni zikagesi (Izimoto zikagesi: i-EV) ngenxa yokuphuma kwayo ngokushesha kanye nomphumela wenkumbulo.
3. Amabhethri e-Nickel Metal Hydride
Kungolunye uhlobo lwebhethri olukhiqizwa kusetshenziswa i-hydrate yensimbi ukuze kulungiswe izici ezingezinhle zamabhethri e-nickel-cadmium. Inamandla amakhulu kunamabhethri e-nickel-cadmium. Akubhekwa njengokufanelekile kuma-EV ngenxa yezinga eliphezulu lokuzikhiphela kanye nokuba sengozini kwezokuvikela uma kwenzeka kugcwala kakhulu.
4. Amabhethri e-Lithium Iron Phosphate
Iphephile, isezingeni eliphezulu futhi ihlala isikhathi eside. Kodwa-ke, ukusebenza kwayo kuphansi kunamabhethri e-lithium-ion. Ngalesi sizathu, noma isetshenziswa kaningi kumishini kagesi, ayikhethwa kubuchwepheshe be-EV.
5. Amabhethri e-Lithium sulfide
Iwuhlobo lwebhethri futhi olusekelwe kwi-lithium, kodwa esikhundleni se-ion alloy, isulfure isetshenziswa njenge-cathode material. Inomthamo omkhulu wamandla nokusebenza kahle kokushaja. Kodwa-ke, njengoba inesilinganiso sokuphila, ime ngemuva uma iqhathaniswa ne-lithium-ion.
6. Amabhethri e-Lithium Ion Polymer
Inguqulo ethuthuke kakhulu yobuchwepheshe bebhethri ye-lithium-ion. Ibonisa cishe izakhiwo ezifanayo namabhethri e-lithium avamile.
Kodwa-ke, njengoba impahla ye-polymer isetshenziswa njenge-electrolyte esikhundleni soketshezi, ukuqhutshwa kwayo kuphakeme. Iyathembisa ngobuchwepheshe be-EV.
7. Amabhethri e-Lithium Titanate
Ukwakhiwa kwamabhethri e-lithium-ion ane-lithium-titanate nanocrystals esikhundleni se-carbon engxenyeni ye-anode. Ingashajwa ngokushesha kunamabhethri e-lithium-ion. Kodwa-ke, i-voltage ephansi yamabhethri e-lithium-ion ingaba yingozi kuma-EVs.
8. Graphene Amabhethri
Ingobunye bobuchwepheshe bebhethri obusha kakhulu. Uma kuqhathaniswa ne-lithium-ion, isikhathi sokushaja sifushane kakhulu, umjikelezo wokushaja mude kakhulu, izinga lokushisa liphansi kakhulu, i-conductivity iphakeme kakhulu, futhi amandla okuvuselela afinyelela kumaphesenti angu-100 aphezulu. Kodwa-ke, isikhathi sokusebenzisa imali sifushane kune-lithium ion, futhi izindleko zokukhiqiza ziphezulu kakhulu.
Kungani Sisebenzisa I-LIFEPO4 Lithium Battery For
Izicelo Ezihlukene & Yiziphi Izinzuzo?
Iwuhlobo lwebhethri elinomthamo omkhulu wokugcwalisa, Iphephile futhi ihlala isikhathi eside.
Inempilo ende uma iqhathaniswa nezinye izinhlobo zamabhethri. Banempilo ewusizo yeminyaka emihlanu kuya kweyishumi.
Inomjikelezo wokushaja omude (amaphesenti ayi-100 kuye kwayi-0) wokusetshenziswa okungaba ngu-2,000.
Imfuneko yesondlo iphansi kakhulu.
Inganikeza amandla aphezulu afinyelela ku-150 watts ngekhilogremu ngehora.
Inikeza ukusebenza okuphezulu ngisho nangaphandle kokugcwalisa amaphesenti angu-100.
Asikho isidingo sokuthi amandla akuyo aphele ngokuphelele (umphumela wenkumbulo) wokushajwa kabusha.
Ikhiqizwa ukushaja kufika kumaphesenti angama-80 ngokushesha bese ihamba kancane. Ngakho, konga isikhathi futhi inikeza ukuphepha.
Inezinga eliphansi lokuzikhipha uma liqhathaniswa nezinye izinhlobo zebhethri uma ingasetshenziswa.
I-BNT Lithium-Ion Battery Technology ?
KU-BNT SIDALA AMABHATHRI ABE :
1. Ukulindela Ukuphila Okude
Impilo yokuklama ifinyelela eminyakeni eyi-10. Umthamo wethu webhethri le-LFP ungaphezu kuka-80% osele ngemuva kokushaja kwe-1C & ukukhishwa ngaphansi kwesimo se-DOD esingu-100% semijikelezo engu-3500. Impilo yokuklama ifinyelela eminyakeni eyi-10. Ngenkathi ibhethri le-lead-acid lizokwenza kuphela
umjikelezo izikhathi ezingu-500 ku-80% DOD.
2. Isisindo Esincane
Ingxenye yosayizi nesisindo ithatha umthwalo omkhulu we-turf, ivikela enye yezimpahla ezibaluleke kakhulu zekhasimende.
Isisindo esilula siphinde sisho ukuthi inqola yegalofu ingafinyelela isivinini esikhulu ngokuzikhandla okuncane futhi ithwale isisindo esiningi ngaphandle kokuzizwa ivilapha kubagibeli.
3. Isondlo Mahhala
Isondlo Mahhala. Akukho ukugcwaliswa kwamanzi, akukho ukuqiniswa kwetheminali kanye nokuhlanza amadiphozithi e-asidi ngaphezulu kwamabhethri ethu.
4. Ihlanganisiwe & Iqinile
I-Impact Resistant, Ingangeni manzi, Ingagqwali, I-Supreme Heat Dissipation, ukuvikelwa kokuphepha okuvelele....
5.Umkhawulo ophezulu
Amabhethri e-BNT adizayinelwe ukuvumela ukuphuma/ukushaja okukhulu kwamanje, umkhawulo osikiwe ophezulu ....
6. Ukuqina Okungeziwe
Ukuqina okwengeziwe kokuvumela abasebenzisi ukuthi basebenzise amabhethri ezimeni ezahlukahlukene