I-DKGB2-200-2V200AH IBATHIRI YE-ACID ESEKHOKHELWE IGEL

Inkcazelo emfutshane:

Umbane olinganisiweyo: 2v
Umthamo olinganisiweyo: 200 Ah(10 hr, 1.80 V/cell, 25 ℃)
Ubunzima obusondele (Kg, ±3%): 12.7kg
Itheminali: Ubhedu
Ityala: ABS


Iinkcukacha zeMveliso

Iithegi zeMveliso

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.

DKGB2-100-2V100AH2

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

Ibhetri ye-2v yejeli3

inkqubo yemveliso

Lead ingot imathiriyeli ekrwada

Lead ingot imathiriyeli ekrwada

Inkqubo yeplate yepolar

Electrode welding

Hlanganisa inkqubo

Inkqubo yokutywinwa

Inkqubo yokuzalisa

Inkqubo yokutshaja

Ukugcinwa kunye nokuthunyelwa

Iziqinisekiso

cinezela

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.


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