Ingxelo yokuphuculwa kwetekhnoloji yebhetri ye-CSPower Battery HTL solid-state High Temperature Deep Cycle gel
1. Ukumelana nobushushu obuphezulu kakhulu nobuphantsi
1.1 Ukusetyenziswa kwee-alloys ezikhethekileyo ezimelana nokugqwala (i-lead alloy: i-lead calcium aluminium tin), isakhiwo segridi ekhethekileyo (ububanzi begridi yokuphakamisa, umxholo we-tin wegridi yokuphakamisa), kuphucula kakhulu imeko-bume yobushushu obuphezulu. Ukumelana nokugqwala kweepleyiti.
1.2 Umlinganiselo okhethekileyo weepleyiti ezilungileyo nezingalunganga kunye ne-electrolyte ekhethekileyo (i-electrolyte yamanzi e-deionized tech) inokuphucula ngempumelelo amandla ebhetri okuphuma kwe-hydrogen kwaye inciphise kakhulu ukulahleka kwamanzi kwindawo enobushushu obuphezulu.
1.3 Ifomula ye-lead paste isebenzisa i-arhente yokwandisa enganyangekiyo kubushushu obuphezulu, ekwaziyo ukusebenza ngokuzinzileyo nakwindawo enobushushu obuphezulu. Kwangaxeshanye, ukusebenza kwebhetri ekukhupheni ubushushu obuphantsi kugqwesile, kwaye ibhetri ingasebenza ngokuqhelekileyo nakwindawo enobushushu obuyi--40°C.
1.4 Iqokobhe lebhetri lenziwe ngezinto ze-ABS ezimelana nobushushu obuphezulu, ezinokuthintela ngempumelelo iqokobhe lebhetri ekuvuvukeni okanye ekuguquguqukeni kwindawo enobushushu obuphezulu.
1.5 I-electrolyte yenziwe nge-nano-scale fumed silica, enomthamo omkhulu wobushushu kunye nokusebenza kakuhle kokusasaza ubushushu, nto leyo enokuyiphepha ngempumelelo into yokubaleka kobushushu eyenzeka lula kwiibhetri eziqhelekileyo. Kwindawo enobushushu obuphantsi, umthamo wokukhupha unokwandiswa ngama-40% nangaphezulu. Isenokusebenza ngokuqhelekileyo kwindawo enobushushu obuyi-65℃.
1.6 Iinxalenye zeNano colloidal: Iinxalenye zenkqubo yokusasazwa ngokubanzi ziinxalenye zecolloidal ezibonakalayo phakathi kwe-1 kunye ne-100 nanometers, ngoko ke zisasazeke ngokulinganayo kwaye zineempawu ezingcono zokungena, nto leyo eyenza ibhetri isebenze ngakumbi ngexesha lokutshaja nokukhupha itshaja.
Indima yee-electrolytes ze-nanocolloidal:
1.6.1 I-electrolyte ye-colloidal inokwenza umaleko oqinileyo okhuselayo ojikeleze ipleyiti ye-electrode, ikhusele ipleyiti ye-electrode ekonakaleni nasekuqhekekeni ngenxa yokungcangcazela okanye ukungqubana, ithintele ipleyiti ye-electrode ekubeni ibole, kwaye inciphise ukugoba kunye nokuguquguquka kwepleyiti ye-electrode xa ibhetri isetyenziswa phantsi komthwalo onzima. Ukujikeleza okufutshane phakathi kweepleyiti akuyi kukhokelela ekunciphiseni umthamo, kwaye inokhuseleko olufanelekileyo lomzimba kunye neekhemikhali, oluphindwe kabini ubomi beebhetri eziqhelekileyo ze-lead-acid.
1.6.2 Ikhuselekile ukuyisebenzisa, iluncedo ekukhuseleni okusingqongileyo, kwaye iphantsi kwamandla aluhlaza okwenyani. I-electrolyte yebhetri yejeli iqinile, inesakhiwo esivaliweyo, kwaye i-electrolyte yejeli ayize ivuze, ukuze ubunzima benxalenye nganye yebhetri buhambelane. Ukusebenzisa igridi ekhethekileyo ye-calcium-lead-tin alloy, iyamelana ngakumbi nokugqwala kwaye yamkeleke ngcono ekutshajeni. Akukho kuchitheka kwe-electrolyte, akukho zinto ziyingozi emzimbeni womntu kwinkqubo yokuvelisa, ayinatyhefu, ayingcolisi, ithintela ukuchitheka okukhulu kwe-electrolyte kunye nokungena ngexesha lokusetyenziswa kweebhetri zendabuko ze-lead-acid. Umbane we-float umncinci, ibhetri ivelisa ubushushu obuncinci, kwaye i-electrolyte ayinayo i-acid stratification.
1.6.3 Ukusebenza kakuhle komjikelo wokukhupha umbane ngokunzulu. Xa ibhetri ikhutshwe ngokunzulu ize izaliswe kwakhona ngexesha, amandla ayo angatshajwa kwakhona nge-100%, nto leyo enokwanelisa iimfuno zokukhupha umbane ngokuphindaphindiweyo nangokunzulu, ngoko ke uluhlu lokusetyenziswa kwayo lubanzi kunolo lweebhetri ze-lead-acid.
1.6.4 Indlela yokuzikhupha incinci, ukusebenza kokukhupha okunzulu kulungile, amandla okwamkela ukutshaja aqinile, umahluko ophezulu nophantsi wamandla mncinci, kwaye amandla ombane makhulu. Uphuculo olukhulu lwenziwe kumandla okuqalisa ubushushu obuphantsi, amandla okugcina itshaja, amandla okugcina i-electrolyte, ukuqina komjikelo, ukumelana nokungcangcazela, kunye nokumelana nokutshintsha kobushushu.
1.6.5 Ziqhelanise noluhlu olubanzi lweendawo (amaqondo obushushu). Ingasetyenziswa kumanqanaba obushushu ukusuka kwi -40℃–65℃, ingakumbi ukusebenza kobushushu obuphantsi kulungile, kufanelekile kummandla we-alpine osemantla. Isebenza kakuhle kakhulu kwi-seismic kwaye ingasetyenziswa ngokukhuselekileyo kwiindawo ezahlukeneyo ezinzima. Ayithintelwanga yindawo kwaye ingabekwa nakweyiphi na indlela xa uyisebenzisa.
2. Ubomi obude kakhulu
2.1 Isakhiwo segridi esahlukileyo, i-alloy ekhethekileyo enganyangekiyo kukugqwala kunye nefomula yezinto ezisebenzayo eziyingqayizivele ziphucula kakhulu izinga lokusetyenziswa kwezinto ezisebenzayo, kwaye amandla okubuyisela ibhetri emva kokukhupha nzulu alungile kakhulu, nokuba ibekwe kwi-zero volts, inokubuyela kwimeko yesiqhelo, ukuze ibhetri ibe nokuqina okuhle komjikelo, amandla aneleyo kunye nobomi obude.
2.2 Zonke izinto eziluhlaza ezicocekileyo kakhulu ziyasetyenziswa, kwaye i-electrode yebhetri eyazikhupha ngokwayo incinci.
2.3 Kusetyenziswa i-electrolyte ye-colloidal enoxinano oluphantsi, kwaye kongezwa izongezo ezikhethekileyo ze-electrolyte, ezinokunciphisa ukugqwala kwe-electrolyte kwipleyiti ye-electrode, ukunciphisa ukwenzeka kwe-electro-hydraulic stratification, kunye nokuphucula ukwamkelwa kwetshaja kunye nokusebenza kwebhetri ngokugqithisileyo. Ngaloo ndlela kuphucula kakhulu ubomi benkonzo yebhetri.
2.4 Ulwakhiwo olukhethekileyo lwegridi yeradial luyasetyenziswa, kwaye ubukhulu bepleyiti ye-0.2mm buyandiswa ukuze kufezekiswe injongo yokwandisa ubomi benkonzo yebhetri. Ibhetri inokukwazi ukukhupha ibhetri ngokuzikhusela ngexesha lokukhupha, ngaloo ndlela ithintela ibhetri ekukhupheni ibhetri ngokugqithisileyo.
2.5 Izinto ezisebenzayo kwipleyiti ye-electrode ikakhulu yi-lead powder. Kolu phuculo lobuchwepheshe, ifomula yamva nje yezinto ezisebenzayo yongezwa kwipleyiti ye-electrode, eyenza ukutshaja nokukhupha i-charging kukhawuleze kwaye akuchaphazeli ubomi.
2.6 Sebenzisa iteknoloji yokuhlanganisa eqinileyo enamandla aphezulu ukuqinisekisa ukhuseleko lwebhetri. Itekhnoloji ye-4BS lead paste, ubomi bebhetri obude.
2.7 Bonke basebenzisa iteknoloji yokwakheka emva kokuba ibhetri ihlanganisiwe, nto leyo enciphisa amathuba okungcoliswa kweepleyiti kwaye iphucule ukuhambelana kwebhetri. Kwangaxeshanye, izinga lokusetyenziswa kwepleyiti ye-electrode ephinda isetyenziswe liyaphucuka. (ngokuzikhethela kongezwa)
2.8 Isebenzisa iteknoloji yokwenziwa kwegesi kwakhona, ibhetri inamandla aphezulu kakhulu okusabela ekutywineni, akukho mvula ye-asidi, ukhuseleko, ukhuseleko lokusingqongileyo, kwaye akukho ngcoliseko
2.9 Ubuchwepheshe bokuvala obuthembekileyo kunye neevalvu zokhuseleko ezisemgangathweni ophezulu zisetyenziselwa ukuqinisekisa ukuba ibhetri isebenza ngokukhuselekileyo nangokuthembekileyo.
Ibhetri ye-CSPower HTL eshushu kakhulu ene-deep cycle gel eneteknoloji ehlaziyiweyo (izinto ezingaphezulu ngaphakathi) ngaphandle kokunyuka kwexabiso, yenza ibhetri ikhuseleke kwaye iphile ixesha elide!
#Ibhetri yelanga esemgangathweni ophezulu #Ibhetri yejeli ejikelezayo enzulu #Ibhetri yejeli eqinileyo #Ibhetri yejeli ehlala ixesha elide #Ibhetri yetekhnoloji entsha
Ixesha lokuthumela: Meyi-05-2022
