Ibhetri ye-CSPower ye-HTL eqinileyo yemo yoBubushushu obuPhakamileyo uMjikelo oNzulu wengxelo yokuphucula ibhetri yejeli
1. Ukumelana okuphezulu nobushushu obuphantsi
1.1 Ukusetyenziswa kwe-alloys ekhethekileyo ye-super corrosion-resistant (i-lead alloy: i-lead calcium aluminium tin), isakhiwo segridi ekhethekileyo (ububanzi begridi yokuphakamisa, umxholo we-tin wegridi yokuphakamisa), iphucula kakhulu indawo yokushisa ephezulu. Ukumelana nokubola kwamacwecwe.
1.2 Umlinganiselo okhethekileyo weepleyiti ezilungileyo kunye ezimbi kunye ne-electrolyte ekhethekileyo (i-high-tech deionized water electrolyte) inokuphucula ngokufanelekileyo i-hydrogen evolution overpotential yebhetri kwaye inciphise kakhulu ilahleko yamanzi kwindawo yokushisa okuphezulu.
1.3 Ifomyula yokuncamathela ekhokelayo ithatha i-arhente yokwandisa ubushushu obuphezulu, enokuthi isebenze ngokuzinzileyo nakwimeko yobushushu obuphezulu. Kwangaxeshanye, ubushushu obuphantsi bokukhupha ukusebenza kwebhetri bugqwesileyo, kwaye ibhetri isenokusebenza ngokuqhelekileyo nakwimeko-bume ye--40 °C.
1.4 Iqokobhe lebhetri lenziwe ngemathiriyeli ye-ABS enokumelana nobushushu obuphezulu, enokuthintela ngokufanelekileyo iqokobhe lebhetri ukuba lingaqhume okanye lilonakalise kwindawo yobushushu obuphezulu.
I-1.5 I-electrolyte yenziwe nge-nano-scale fumed silica, kunye nomthamo omkhulu wokushisa kunye nokusebenza kakuhle kokutshatyalaliswa kokushisa, okunokuthi kuphephe ngokufanelekileyo i-thermal runaway phenomenon ekulula ukwenzeka kwiibhetri eziqhelekileyo. Kwimeko yokushisa ephantsi, umthamo wokukhupha unokunyuswa ngama-40% okanye ngaphezulu. Isenokusebenza ngokwesiqhelo kwimo engqongileyo ye65℃.
I-1.6 I-Nano colloidal particles: Iinqununu zenkqubo ye-dispersion ngokuqhelekileyo ziyi-colloidal ezicacileyo phakathi kwe-1 kunye ne-100 nanometers, ngoko zihlakazwa ngokufanayo kwaye zineempawu ezingcono zokungena, okwenza ibhetri isebenze ngakumbi ngexesha lokutshaja nokukhupha.
Indima ye-nanocolloidal electrolytes:
1.6.1 I-colloidal electrolyte inokwenza umaleko oqinileyo okhuselayo ojikeleze ipleyiti ye-electrode, ikhusele ipleyiti ye-electrode kumonakalo kunye nokugqabhuka ngenxa yokungcangcazela okanye ukungqubana, ithintele ipleyiti ye-electrode ukuba ingagqwali, kwaye ikwanciphisa ukugoba kwepleyiti ye-electrode kunye nokuguqulwa xa ibhetri isetyenziswa phantsi komthwalo onzima. Isiphaluka esifutshane phakathi kwamacwecwe asiyi kukhokelela ekunciphiseni umthamo, kwaye sinokukhuselwa kakuhle komzimba kunye neekhemikhali, okuphindwe kabini kubomi beebhetri eziqhelekileyo ze-asidi.
1.6.2 Ikhuselekile ukuyisebenzisa, iluncedo kukhuseleko lokusingqongileyo, kwaye yeyombane wokwenene wohlaza. I-electrolyte yebhetri yejeli yomelele, inesakhiwo esitywiniweyo, kwaye i-electrolyte yejeli ayize ivuze, ukuze ubunzima obuthile benxalenye nganye kwibhetri buhambelane. Ukusebenzisa igridi ekhethekileyo ye-calcium-lead-tin alloy, iyakwazi ukumelana ne-corrosion kwaye inokwamkelwa okungcono kokutshaja. Akukho kuchithwa kwe-electrolyte, akukho zinto ziyingozi kumzimba womntu kwinkqubo yokuvelisa, i-non-toxic, ayingcolisi, ukuphepha ubuninzi be-electrolyte spillage kunye nokungena ngexesha lokusetyenziswa kweebhetri zendabuko ze-asidi. I-float yangoku incinci, ibhetri ivelisa ubushushu obuncinci, kwaye i-electrolyte ayinayo i-asidi stratification.
1.6.3 Ukusebenza kakuhle komjikelo wokukhupha. Xa ibhetri ikhutshwe ngokunzulu kwaye iphinde izaliswe ngexesha, umthamo unokuphinda uhlaziywe nge-100%, onokuhlangabezana neemfuno ze-frequency ephezulu kunye nokukhutshwa okunzulu, ngoko ke uluhlu lokusetyenziswa kwalo lubanzi kunolo lweebhetri ze-lead-acid.
1.6.4 I-self-discharge encinci, i-deep discharge performance ilungile, isakhono sokwamkela ukutshaja sinamandla, umehluko ophezulu kunye nophantsi onokuthi uncinci, kwaye umthamo wombane mkhulu. Uphuculo olubalulekileyo lwenziwe kwisakhono sokuqalisa ubushushu obuphantsi, amandla okugcina intlawulo, amandla okugcina i-electrolyte, ukuqina komjikelo, ukumelana nokungcangcazela, kunye nokumelana nokutshintsha kobushushu.
1.6.5 Ukuziqhelanisa noluhlu olubanzi lweemeko (amaqondo obushushu). Ingasetyenziswa kuluhlu lwamaqondo obushushu -40℃–65℃, ingakumbi ukusebenza kobushushu obuphantsi bulungile, bufanele ummandla weAlpine osemntla. Inokusebenza kakuhle kwe-seismic kwaye inokusetyenziswa ngokukhuselekileyo kwiindawo ezahlukeneyo ezinzima. Ayikhawulelwanga yindawo kwaye inokubekwa kuyo nayiphi na indlela xa uyisebenzisa.
2. Ubomi obude kakhulu
2.1 Ulwakhiwo olukhethekileyo lwegridi, i-alloy ekhethekileyo ye-super corrosion-resistant kunye nefomyula yezinto ezisebenzayo ezizodwa ziphucula kakhulu izinga lokusetyenziswa kwezinto ezisebenzayo, kunye nokukwazi ukubuyisela ibhetri emva kokukhutshwa okunzulu kugqwesileyo, nokuba ibekwe kwi-volts zero, inako. buyisela ngokuqhelekileyo , ukuze ibhetri ibe nokuqina komjikelo obalaseleyo, umthamo owaneleyo kunye nobomi obude.
2.2 Zonke izinto eziluhlaza ezicocekileyo zisetyenzisiweyo, kwaye i-electrode yokukhupha ibhetri incinci.
2.3 I-electrolyte ye-colloidal ene-low density isetyenzisiweyo, kwaye izongezo ezikhethekileyo ze-electrolyte zongezwa, ezinokunciphisa ukubola kwe-electrolyte kwipleyiti ye-electrode, ukunciphisa ukwenzeka kwe-electro-hydraulic stratification, kunye nokuphucula ukwamkelwa kwentlawulo kunye nokusebenza ngokugqithisileyo kwebhetri. . Ngokwenza ngcono kakhulu ubomi benkonzo yebhetri.
2.4 Isakhiwo esikhethekileyo segridi ye-radial samkelwa, kwaye ubukhulu beplate ye-0.2mm bunyuswe ukufezekisa injongo yokwandisa ubomi benkonzo yebhetri. Ibhetri inokuqonda ukukhutshwa kokuzikhusela kwebhetri ngexesha lokukhupha, ngaloo ndlela ikhusela ibhetri ekukhutshweni kakhulu.
2.5 Izinto ezisebenzayo zepleyiti ye-electrode ikakhulu ngumgubo okhokelayo. Kulo phuculo lweteknoloji, i-formula yamva nje yezinto ezisebenzayo zongezwa kwi-plate ye-electrode, eyenza ukutshaja kunye nokukhupha ngokukhawuleza kwaye akuchaphazeli ixesha lokuphila.
2.6 Yamkela itekhnoloji yokudibanisa eqinileyo yokuqina ukuqinisekisa ngcono ukhuseleko lwebhetri. Itekhnoloji ye-4BS ehamba phambili yokuncamathisela, ubomi bomjikelo webhetri ixesha elide.
2.7 Bonke basebenzisa iteknoloji yokwakheka emva kokuba ibhetri idityanisiwe, nto leyo enciphisa ukuba nokwenzeka kongcoliseko lwesibini lweepleyiti kunye nokuphucula ukuhambelana kwebhetri. Ngelo xesha, izinga lokusetyenziswa kwepleyiti ye-electrode ephinda isetyenziswe kwakhona iyaphuculwa. (ukhetho longezwe)
2.8 Isebenzisa itekhnoloji yegesi yokwenziwa kwakhona kweekhemikhali, ibhetri inokusebenza ngokugqithisileyo kokutywina, akukho mvula yenkungu yeasidi, ukhuseleko, ukhuseleko lokusingqongileyo, kwaye akukho ngcoliseko.
2.9 Itekhnoloji ethembekileyo yokutywina kunye neevalvu zokhuseleko ezikumgangatho ophezulu zisetyenziselwa ukuqinisekisa ukuba ibhetri inomsebenzi wokutywina okhuselekileyo nothembekileyo.
I-CSPower HTL ibhetri yejeli ephezulu yobushushu obuphezulu obunobuchwephesha obuhlaziyiweyo (izinto ezininzi ngaphakathi) ngaphandle kokunyuka kwexabiso, yenza ibhetri ikhuseleke kwaye ube nobomi obude!
#Umgangatho ophezulu webhetri yelanga # umjikelo onzulu ibhetri yejeli #ibhetri yejeli eqinile #longlifegelbattery #ibhetri yetekhnoloji entsha
Ixesha lokuposa: May-05-2022
