I-DKGB2-200-2V200AH IBATHIRI YE-ACID ESEKHOKHELWE IGEL
Iimpawu zobuGcisa
1. Ukutshaja okusebenzayo: Ukusetyenziswa kwezixhobo zokutshaja ezisezantsi ezisezantsi kunye nenkqubo ephucukileyo inceda ukwenza ukuchasana kwangaphakathi kube kuncinci kunye nokwamkelwa kokutshaja okuncinci kwangoku komelele.
2. Ukunyamezela ukushisa okuphezulu kunye nokuphantsi: Uluhlu olubanzi lweqondo lokushisa (i-lead-acid: -25-50 C, kunye nejeli: -35-60 C), ilungele ukusetyenziswa kwangaphakathi nangaphandle kwiindawo ezahlukeneyo.
3. Umjikelo omde wobomi: Ubomi boyilo lwe-asidi yelothe kunye nothotho lwejeli bufikelela kwiminyaka engaphezu kwe-15 kunye ne-18 ngokulandelelanayo, indawo eyomileyo iyakwazi ukumelana nomhlwa.kwaye i-electrolvte ayinamngcipheko wokuhlelwa ngokwestratification ngokusebenzisa ingxubevange emininzi enqabileyo yomhlaba yamalungelo epropathi enomgangatho ophezulu wokuqonda, i-nanoscale fumed silica engeniswe eJamani njengezinto ezisisiseko, kunye ne-electrolyte ye-nanometer colloid yonke ngophando oluzimeleyo kunye nophuhliso.
4. I-Environmental-friendly: I-Cadmium (i-Cd), enetyhefu kwaye ekungekho lula ukuyihlaziya, ayikho.Ukuvuza kwe-Acid ye-gel electrolvte akuyi kwenzeka.Ibhetri isebenza ngokhuseleko kunye nokhuseleko lokusingqongileyo.
5. Ukubuyisela ukusebenza: Ukwamkelwa kweealloys ezikhethekileyo kunye ne-lead paste formulations kwenza ukuzikhupha okuphantsi, ukunyamezela okunzulu kokukhupha, kunye nokukwazi ukubuyisela amandla.
Ipharamitha
| Umzekelo | I-Voltage | Umthamo | Ubunzima | Ubungakanani |
| I-DKGB2-100 | 2v | 100Ah | 5.3kg | 171*71*205*205mm |
| I-DKGB2-200 | 2v | 200Ah | 12.7kg | 171*110*325*364mm |
| I-DKGB2-220 | 2v | 220Ah | 13.6kg | 171*110*325*364mm |
| I-DKGB2-250 | 2v | 250Ah | 16.6kg | 170*150*355*366mm |
| I-DKGB2-300 | 2v | 300Ah | 18.1kg | 170*150*355*366mm |
| I-DKGB2-400 | 2v | 400Ah | 25.8kg | 210*171*353*363mm |
| I-DKGB2-420 | 2v | 420Ah | 26.5kg | 210*171*353*363mm |
| I-DKGB2-450 | 2v | 450Ah | 27.9kg | 241*172*354*365mm |
| DKGB2-500 | 2v | 500Ah | 29.8kg | 241*172*354*365mm |
| I-DKGB2-600 | 2v | 600Ah | 36.2kg | 301*175*355*365mm |
| I-DKGB2-800 | 2v | 800Ah | 50.8kg | 410*175*354*365mm |
| DKGB2-900 | 2v | 900AH | 55.6kg | 474*175*351*365mm |
| DKGB2-1000 | 2v | 1000Ah | 59.4kg | 474*175*351*365mm |
| I-DKGB2-1200 | 2v | 1200Ah | 59.5kg | 474*175*351*365mm |
| DKGB2-1500 | 2v | 1500Ah | 96.8kg | 400*350*348*382mm |
| I-DKGB2-1600 | 2v | 1600Ah | 101.6kg | 400*350*348*382mm |
| DKGB2-2000 | 2v | 2000Ah | 120.8kg | 490*350*345*382mm |
| DKGB2-2500 | 2v | 2500Ah | 147kg | 710*350*345*382mm |
| DKGB2-3000 | 2v | 3000Ah | 185kg | 710*350*345*382mm |
inkqubo yemveliso
Lead ingot imathiriyeli ekrwada
Inkqubo yeplate yepolar
Electrode welding
Hlanganisa inkqubo
Inkqubo yokutywinwa
Inkqubo yokuzalisa
Inkqubo yokutshaja
Ukugcinwa kunye nokuthunyelwa
Iziqinisekiso
Izinto eziluncedo kunye nokungonakali kwebhetri ye-lithium, ibhetri ye-asidi ekhokelayo kunye nebhetri yejeli
Ibhetri yeLithium
Umgaqo osebenzayo webhetri ye-lithium uboniswe kumzobo ongezantsi.Ngexesha lokukhutshwa, i-anode ilahlekelwa yi-electron, kwaye i-lithium ion isuka kwi-electrolyte ukuya kwi-cathode;Ngokuchasene noko, i-lithium ion ifudukela kwi-anode ngexesha lenkqubo yokutshaja.
Ibhetri yeLithium inomlinganiselo ophezulu wobunzima bamandla kunye nomlinganiselo womthamo wamandla;Ubomi benkonzo ende.Phantsi kweemeko eziqhelekileyo zokusebenza, inani lemijikelo yokutshaja/yokukhupha ibhetri inkulu kakhulu kune-500;Ibhetri yeLithium idla ngokuhlawuliswa ngoku 0.5 ~ 1 amaxesha omthamo, onokunciphisa ixesha lokutshaja;Izixhobo zebhetri aziqukethe izinto ezinzima zetsimbi, ezingayi kungcolisa indalo;Ingasetyenziswa ngokuhambelana ngokuthanda, kwaye umthamo kulula ukuwabela.Nangona kunjalo, iindleko zayo zebhetri ziphezulu, ezibonakaliswa ngokukodwa kwixabiso eliphezulu lezinto ze-cathode ze-LiCoO2 (izibonelelo ezingaphantsi kwe-Co), kunye nobunzima bokucoca inkqubo ye-electrolyte;Ukuchasana kwangaphakathi kwebhetri kukhulu kunezinye iibhetri ngenxa yenkqubo ye-electrolyte yezinto eziphilayo kunye nezinye izizathu.
Ibhetri yeasidi yelothe
Umgaqo webhetri ye-lead-acid yile ilandelayo.Xa ibhetri ixhunyiwe kumthwalo kwaye ikhutshwe, i-asidi ye-sulfuric ihlambulule iya kusabela kunye nezinto ezisebenzayo kwi-cathode kunye ne-anode ukwenza i-compound lead sulfate entsha.Icandelo le-asidi ye-sulfuric likhutshwa kwi-electrolyte ngokukhupha.Ukukhutshwa kwexesha elide, i-concentration iyancipha;Ngoko ke, ukuba nje ukuxinwa kwe-sulfuric acid kwi-electrolyte kulinganiswa, umbane oseleyo unokulinganiswa.Njengoko i-anode plate ihlawuliswa, i-sulfate ehamba phambili eyenziwa kwi-cathode plate iya kuchithwa kwaye iyancipha ibe yi-sulfuric acid, i-lead kunye ne-lead oxide.Ngoko ke, ukuxinwa kwe-asidi ye-sulfuric kuyanda ngokuthe ngcembe.Xa i-sulfate ekhokelayo kuzo zombini izibonda iyancitshiswa kwizinto zangaphambili, ilingana nokuphela kokutshaja kunye nokulinda inkqubo yokukhupha elandelayo.
Ibhetri ye-lead ye-asidi iye yaphuhliswa ixesha elide, ngoko inobuchwephesha obukhulileyo, ukuzinza kunye nokusebenza.Ibhetri isebenzisa i-asidi yesulfuric exutywe njenge-electrolyte, engatshiyo kwaye ikhuselekile;Uluhlu olubanzi lobushushu bokusebenza kunye nangoku, ukusebenza kakuhle kokugcinwa.Nangona kunjalo, ubuninzi bayo bamandla buphantsi, ubomi bomjikelo bufutshane, kwaye kukho ungcoliseko lwelothe.
Ibhetri yeGel
Ibhetri yeColloidal itywinwe ngumgaqo wokufunxa i-cathode.Xa ibhetri itshajiwe, ioksijini iya kukhutshwa kwi-electrode eyakhayo kwaye i-hydrogen iya kukhutshwa kwi-electrode engalunganga.Ukuvela kweoksijini ukusuka kwi-electrode elungileyo iqala xa intlawulo ye-electrode evumayo ifikelela kuma-70%.I-oksijini ehlanjululwayo ifikelela kwi-cathode kwaye iphendule kunye ne-cathode ngolu hlobo lulandelayo ukufezekisa injongo ye-cathode absorption.
2Pb+O2=2PbO
2PbO+2H2SO4: 2PbS04+2H20
I-hydrogen evolution ye-electrode embi iqala xa intlawulo ifikelela kwi-90%.Ukongeza, ukuncitshiswa kwe-oksijini kwi-electrode engalunganga kunye nokuphuculwa kwe-hydrogen overpotential ye-electrode engalunganga ngokwayo kuthintela isixa esikhulu se-hydrogen evolution reaction.
Kwi-AGM etywiniweyo iibhetri ze-asidi ye-lead, nangona uninzi lwe-electrolyte yebhetri igcinwe kwi-membrane ye-AGM, i-10% ye-membrane pores kufuneka ingangeni kwi-electrolyte.I-oksijini eveliswa yi-electrode efanelekileyo ifikelela kwi-electrode engafanelekanga ngala ma-pores kwaye ixutywe yi-electrode engafanelekanga.
I-electrolyte ye-colloid kwi-battery ye-colloid inokwenza uluhlu oluqinileyo olukhuselekileyo olujikeleze i-electrode plate, engayi kukhokelela ekunciphiseni umthamo kunye nobomi benkonzo ende;Ikhuselekile ukusebenzisa kwaye ilungele ukukhuselwa kokusingqongileyo, kwaye ingokwengqiqo yokwenene yobonelelo lwamandla aluhlaza;Ukuzikhupha okuncinci, ukusebenza kakuhle kokukhupha ubunzulu, ukwamkelwa kwentlawulo eyomeleleyo, umahluko omncinci ongaphezulu kunye osezantsi, kunye namandla amakhulu.Kodwa iteknoloji yokuvelisa inzima kwaye ixabiso liphezulu.
