Umbiko wokuthuthukiswa kobuchwepheshe bebhethri le-CSPower Battery HTL solid-state High Temperature Deep Cycle gel
1. Ukumelana nokushisa okuphezulu kakhulu nokuphansi
1.1 Ukusetshenziswa kwama-alloy akhethekile amelana nokugqwala (i-lead alloy: i-lead calcium aluminium tin), isakhiwo segridi ekhethekile (ububanzi begridi yokuphakamisa, okuqukethwe kwe-tin yegridi yokuphakamisa), kuthuthukisa kakhulu indawo yokushisa ephezulu. Ukumelana nokugqwala kwamapuleti.
1.2 Isilinganiso esikhethekile samapuleti amahle nangalungile kanye ne-electrolyte ekhethekile (i-electrolyte yamanzi e-deionized yobuchwepheshe obuphezulu) ingathuthukisa ngempumelelo amandla ebhethri okuvela kwe-hydrogen futhi inciphise kakhulu ukulahleka kwamanzi endaweni eshisa kakhulu.
1.3 Ifomula yokunamathisela i-lead isebenzisa i-ejenti yokukhulisa engamelani nokushisa okuphezulu, engenza kahle ngisho nasendaweni enokushisa okuphezulu. Ngesikhathi esifanayo, ukusebenza kokukhipha kwebhethri ekushiseni okuphansi kuhle kakhulu, futhi ibhethri lingasebenza ngokujwayelekile ngisho nasendaweni enokushisa okungu--40 °C.
1.4 Igobolondo lebhethri lenziwe ngezinto ze-ABS ezingamelana nokushisa okuphezulu, ezingavimbela ngempumelelo igobolondo lebhethri ekuvuvukeni noma ekugugeni endaweni enokushisa okuphezulu.
1.5 I-electrolyte yenziwe nge-silica efumile enama-nano-scale, enamandla okushisa amakhulu kanye nokusebenza okuhle kokushabalalisa ukushisa, okungagwema ngempumelelo isenzakalo sokubaleka kokushisa okulula ukwenzeka kumabhethri avamile. Endaweni yokushisa okuphansi, amandla okukhipha angandiswa ngo-40% noma ngaphezulu. Isengasebenza ngokujwayelekile endaweni yokushisa engu-65℃.
1.6 Izinhlayiya ze-Nano colloidal: Izinhlayiya zesistimu yokusabalala ngokuvamile ziyizinhlayiya ze-colloidal ezibonakalayo phakathi kwama-nanometer angu-1 no-100, ngakho-ke zihlakazeke ngokulinganayo futhi zinezimpawu zokungena ezingcono, okwenza ibhethri lisebenze kakhulu ngesikhathi sokushaja nokukhipha ishaja.
Indima yama-electrolyte e-nanocolloidal:
1.6.1 I-electrolyte ye-colloidal ingakha ungqimba oluqinile lokuvikela oluzungeze ipuleti le-electrode, ivikele ipuleti le-electrode ekulimaleni nasekuqhekekeni ngenxa yokudlidliza noma ukushayisana, ivimbele ipuleti le-electrode ekugqwaleni, futhi inciphise ukugoba nokuguquka kwepuleti le-electrode lapho ibhethri lisetshenziswa ngaphansi komthwalo osindayo. Umjikelezo omfushane phakathi kwamapuleti ngeke uholele ekwehleni kwamandla, futhi inokuvikelwa okuhle ngokomzimba namakhemikhali, okuphindwe kabili isikhathi sokuphila samabhethri ajwayelekile e-lead-acid.
1.6.2 Kuphephile ukuyisebenzisa, kuzuzisa ekuvikeleni imvelo, futhi kungokwamandla aluhlaza angempela. I-electrolyte yebhethri le-gel iqinile, inesakhiwo esivaliwe, futhi i-electrolyte ye-gel ayilokothi ivuze, ukuze amandla adonsela phansi engxenye ngayinye ebhethri ahambisane. Ukusebenzisa igridi ekhethekile ye-calcium-lead-tin alloy, imelana kakhulu nokugqwala futhi yamukeleka kangcono ukushaja. Akukho ukuchitheka kwe-electrolyte, akukho zinto eziyingozi emzimbeni womuntu enqubweni yokukhiqiza, akunabo ubuthi, akungcolisi, kugwema ukuchitheka okukhulu kwe-electrolyte nokungena ngesikhathi sokusetshenziswa kwamabhethri endabuko e-lead-acid. Ugesi ontantayo mncane, ibhethri ikhiqiza ukushisa okuncane, futhi i-electrolyte ayinayo i-acid stratification.
1.6.3 Ukusebenza kahle komjikelezo wokukhipha amanzi ajulile. Uma ibhethri likhishwa amanzi ajulile bese ligcwaliswa ngesikhathi, amandla angaphinde ashajwe ngo-100%, okungahlangabezana nezidingo zokukhishwa kwamanzi ajwayelekile kanye nokujula, ngakho-ke ububanzi bokusetshenziswa kwalo bubanzi kunobamabhethri e-lead-acid.
1.6.4 Ukuzikhipha kuncane, ukusebenza kokukhipha okujulile kuhle, ikhono lokwamukela ukushaja linamandla, umehluko wamandla aphezulu naphansi mncane, kanti umthamo kagesi mkhulu. Kuthuthukiswe kakhulu emandleni okuqala amazinga okushisa aphansi, ikhono lokugcina ukushaja, ikhono lokugcina ama-electrolyte, ukuqina komjikelezo, ukumelana nokudlidliza, kanye nokumelana nokushintsha kwezinga lokushisa.
1.6.5 Zivumelanise nezimo ezahlukahlukene (amazinga okushisa). Ingasetshenziswa ebangeni lokushisa elingu--40℃–65℃, ikakhulukazi izinga lokushisa eliphansi lihle, lifanelekela isifunda sase-alpine esisenyakatho. Isebenza kahle kakhulu ekuzamazameni komhlaba futhi ingasetshenziswa ngokuphephile ezindaweni ezahlukahlukene ezinzima. Ayinqunyelwe isikhala futhi ingabekwa kunoma iyiphi indlela lapho isetshenziswa.
2. Impilo ende kakhulu
2.1 Isakhiwo segridi esiyingqayizivele, i-alloy ekhethekile engagqwali kanye nefomula yezinto ezisebenzayo eziyingqayizivele zithuthukisa kakhulu izinga lokusetshenziswa kwezinto ezisebenzayo, futhi ikhono lokubuyisa ibhethri ngemva kokukhipha okujulile lihle kakhulu, noma ngabe libekwe ku-zero volts, lingalulama ngokujwayelekile, ukuze ibhethri libe nokuqina okuhle komjikelezo, amandla anele kanye nokuphila isikhathi eside.
2.2 Kusetshenziswa zonke izinto zokusetshenziswa ezihlanzekile kakhulu, futhi i-electrode yokuzikhipha ibhethri incane.
2.3 Kusetshenziswa i-electrolyte ye-colloidal enobuningi obuphansi, futhi kunezelwa izithasiselo ezikhethekile ze-electrolyte, ezinganciphisa ukugqwala kwe-electrolyte epuletini le-electrode, zinciphise ukuvela kwe-electro-hydraulic stratification, futhi zithuthukise ukwamukelwa kweshaja kanye nokusebenza kokukhipha ibhethri ngokweqile. Ngaleyo ndlela kuthuthukisa kakhulu impilo yebhethri.
2.4 Isakhiwo segridi ekhethekile ye-radial siyasetshenziswa, futhi ubukhulu bepuleti elingu-0.2mm buyandiswa ukuze kufezwe injongo yokwelula impilo yebhethri. Ibhethri lingakhipha ibhethri ngokuzivikela ngesikhathi sokukhipha, ngaleyo ndlela livimbele ibhethri ekukhipheni amandla ngokweqile.
2.5 Izinto ezisebenzayo zepuleti le-electrode ngokuyinhloko ziyimpuphu yomthofu. Kulokhu kuthuthukiswa kobuchwepheshe, ifomula yakamuva yezinto ezisebenzayo yengezwa epuletini le-electrode, okwenza ukushaja nokukhipha kusheshe futhi kungathinti isikhathi sokuphila.
2.6 Sebenzisa ubuchwepheshe bokuhlanganisa obuqinile obuqinile ukuqinisekisa ukuphepha kwebhethri. Ubuchwepheshe be-lead paste ye-4BS, impilo ende yomjikelezo webhethri.
2.7 Bonke basebenzisa ubuchwepheshe bokwakheka ngemva kokuhlanganiswa kwebhethri, okunciphisa amathuba okungcoliswa kwesibili kwamapuleti futhi kuthuthukise ukuhambisana kwebhethri. Ngesikhathi esifanayo, izinga lokusetshenziswa kwepuleti le-electrode eliphinde lisetshenziswe liyathuthuka. (ongakukhetha ukwengezwa)
2.8 Ngokusebenzisa ubuchwepheshe bokwenziwa kabusha kwegesi, ibhethri linokusebenza kahle kakhulu kokuvala, alikho imvula ye-acid mist, ukuphepha, ukuvikelwa kwemvelo, futhi alikho ukungcola
2.9 Ubuchwepheshe bokuvala obuthembekile kakhulu kanye nama-valve okuphepha asezingeni eliphezulu asetshenziswa ukuqinisekisa ukuthi ibhethri lisebenza kahle futhi lithembekile ekuvaleni.
Ibhethri le-CSPower HTL elinomjikelezo ojulile wokushisa okuphezulu elinobuchwepheshe obusha (izinto ezengeziwe ngaphakathi) ngaphandle kokwenyuka kwentengo, lenza ibhethri liphephe futhi libe nokuphila isikhathi eside!
#Ibhethri lelanga elisezingeni eliphezulu #ibhethri lejeli elijikelezayo elijulile #ibhethri lejeli eliqinile #ibhethri lejeli elihlala isikhathi eside #ibhethri lobuchwepheshe elisha
Isikhathi sokuthunyelwe: Meyi-05-2022
