I-DKGB2-200-2V200AH IGEL LEAD LEAD IBTHHERI

Incazelo emfushane:

Amandla kagesi alinganiselwe: 2v
Amandla Alinganiselwe: 200 Ah(10 hr, 1.80 V/cell, 25 ℃)
Isisindo Esilinganiselwe(Kg, ±3%): 12.7kg
Itheminali: Ithusi
Icala: ABS


Imininingwane Yomkhiqizo

Omaka bomkhiqizo

Izici Zobuchwepheshe

1. Ukusebenza kahle kokushaja: Ukusetshenziswa kwezinto zokusetshenziswa ezisetshenziswayo ezingamelana kancane ezingenisiwe kanye nenqubo ethuthukisiwe kusiza ukwenza ukumelana kwangaphakathi kube kuncane kanye nekhono lokwamukela lokushaja okuncane kwamanje kuqine.
2. Ukubekezelela izinga lokushisa eliphezulu neliphansi: Ibanga lokushisa elibanzi (i-asidi yomthofu:-25-50 C, nejeli:-35-60 C), ifanele ukusetshenziswa kwangaphakathi nangaphandle ezindaweni ezihlukahlukene.
3. Umjikelezo omude wempilo: Impilo yokuklama ye-lead acid kanye nochungechunge lwejeli ifinyelela eminyakeni engaphezu kwe-15 neyi-18 ngokulandelana, ngoba indawo eyomile imelana nokugqwala.futhi i-electrolvte ayinayo ingozi yokuhlukaniswa ngokusebenzisa ingxubevange eminingi ye-rare-earth yamalungelo empahla yobuhlakani ezimele, i-nanoscale fumed silica engeniswe isuka eJalimane njengezisetshenziswa eziyisisekelo, kanye ne-electrolyte ye-nanometer colloid konke ngocwaningo oluzimele nokuthuthukiswa.
4. Ilungele imvelo: I-Cadmium (Cd), enobuthi futhi okungelula ukuyigaya kabusha, ayikho.Ukuvuza kwe-Acid ye-gel electrolvte ngeke kwenzeke.Ibhethri isebenza ngokuphepha kanye nokuvikela imvelo.
5. Ukusebenza kokululama: Ukwamukelwa kwama-alloy akhethekile kanye nokwakheka kokunamathisela komthofu kwenza ukuzikhipha ngokwakho okuphansi, ukubekezelela okuhle kokukhipha okujulile, nekhono eliqinile lokululama.

I-DKGB2-100-2V100AH2

Ipharamitha

Imodeli

Amandla kagesi

Amandla

Isisindo

Usayizi

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

I-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

I-DKGB2-900

2v

900AH

55.6kg

474*175*351*365mm

I-DKGB2-1000

2v

1000Ah

59.4kg

474*175*351*365mm

I-DKGB2-1200

2v

1200Ah

59.5kg

474*175*351*365mm

I-DKGB2-1500

2v

1500Ah

96.8kg

400*350*348*382mm

I-DKGB2-1600

2v

1600Ah

101.6kg

400*350*348*382mm

I-DKGB2-2000

2v

2000Ah

120.8kg

490*350*345*382mm

I-DKGB2-2500

2v

2500Ah

147kg

710*350*345*382mm

I-DKGB2-3000

2v

3000Ah

185kg

710*350*345*382mm

Ibhethri ye-2v yejeli3

inqubo yokukhiqiza

Izinto zokusetshenziswa zengot yomthofu

Izinto zokusetshenziswa zengot yomthofu

Inqubo yepuleti le-polar

Electrode Welding

Hlanganisa inqubo

Inqubo yokubeka uphawu

Inqubo yokugcwalisa

Inqubo yokushaja

Isitoreji nokuthumela

Izitifiketi

cindezela

Izinzuzo kanye nokubi kwebhethri ye-lithium, ibhethri le-lead acid nebhethri yejeli
Ibhethri ye-lithium
Isimiso sokusebenza sebhethri ye-lithium siboniswa esithombeni esingezansi.Ngesikhathi sokukhishwa, i-anode ilahlekelwa ama-electron, futhi i-lithium ion isuka ku-electrolyte iye ku-cathode;Ngokuphambene nalokho, i-lithium ion ithuthela ku-anode ngesikhathi sokushaja.

Ibhethri ye-lithium inesilinganiso esiphezulu sesisindo samandla kanye nesilinganiso sevolumu yamandla;Impilo ende yesevisi.Ngaphansi kwezimo ezijwayelekile zokusebenza, inani lemijikelezo yokushajwa/yokukhipha ibhethri likhulu kakhulu kunama-500;Ibhethri ye-lithium ivamise ukushajwa ngokwamanje izikhathi ezingu-0.5~1 zomthamo, ezingafinyeza isikhathi sokushaja;Izingxenye zebhethri aziqukethe izakhi zensimbi ezisindayo, ezingeke zingcolise imvelo;Ingasetshenziswa ngokuhambisana ngokuthanda kwakho, futhi umthamo kulula ukuwabeka.Kodwa-ke, izindleko zayo zebhethri ziphakeme, ezibonakala ngokuyinhloko ngentengo ephezulu yezinto ze-cathode i-LiCoO2 (izinsiza ezingaphansi kwe-Co), kanye nobunzima bokuhlanza uhlelo lwe-electrolyte;Ukumelana kwangaphakathi kwebhethri kukhulu kunokwamanye amabhethri ngenxa yesistimu ye-organic electrolyte nezinye izizathu.

Ibhethri ye-lead acid
Umgomo webhethri le-lead-acid umi kanje.Uma ibhethri ixhunywe emthwalweni futhi ikhishwa, i-sulfuric acid exutshiwe izosabela nezinto ezisebenzayo ku-cathode ne-anode ukuze kwakhe i-lead sulfate entsha ehlanganisiwe.Ingxenye ye-sulfuric acid ikhishwa ku-electrolyte ngokuphuma.Uma ukukhishwa kuthatha isikhathi eside, ukugxila kuba mncane;Ngakho-ke, inqobo nje uma ukugcwala kwe-sulfuric acid ku-electrolyte kulinganiswa, ugesi osele ungalinganiswa.Njengoba ipuleti ye-anode ishajwa, i-lead sulfate ekhiqizwa epuleti le-cathode izobola futhi ibe yi-sulfuric acid, i-lead ne-lead oxide.Ngakho-ke, ukuhlushwa kwe-sulfuric acid kancane kancane kuyanda.Lapho i-sulfate eholayo kuzo zombili izigxobo iyancipha ibe yinto yokuqala, ilingana nokuphela kokushaja nokulinda inqubo elandelayo yokukhipha.

Ibhethri ye-lead acid yenziwe yizimboni isikhathi eside kakhulu, ngakho inobuchwepheshe obuvuthwe kakhulu, ukuzinza nokusebenza.Ibhethri lisebenzisa i-sulfuric acid exutshiwe njenge-electrolyte, engashi futhi ephephile;Ububanzi obubanzi bokushisa okusebenzayo kanye namanje, ukusebenza kahle kwesitoreji.Nokho, ukuminyana kwayo kwamandla kuphansi, impilo yomjikelezo wayo ifushane, futhi kukhona ukungcoliswa komthofu.

Ibhethri yeGel
Ibhethri ye-Colloidal ivalwe ngomgomo wokumuncwa kwe-cathode.Lapho ibhethri lishajwa, umoya-mpilo uzokhishwa ku-electrode ephozithivu bese kuthi i-hydrogen ikhishwe ku-electrode eyinegethivu.Ukuguquguquka komoyampilo ku-electrode eqondile kuqala lapho ukushajwa kwe-electrode ephozithivu kufinyelela ku-70%.I-oxygen precipitated ifinyelela ku-cathode futhi isabela nge-cathode kanje ukuze kuzuzwe inhloso yokumuncwa kwe-cathode.
2Pb+O2=2PbO
2PbO+2H2SO4: 2PbS04+2H20

Ukuvela kwe-hydrogen kwe-electrode engalungile kuqala lapho ukushaja kufinyelela ku-90%.Ngaphezu kwalokho, ukuncishiswa kwe-oksijini ku-electrode engalungile kanye nokuthuthukiswa kwe-hydrogen overpotential ye-electrode engalungile ngokwayo kuvimbela inani elikhulu le-hydrogen evolution reaction.

Kumabhethri e-AGM e-lead lead avaliwe, nakuba iningi le-electrolyte yebhethri ligcinwe kulwelwesi lwe-AGM, u-10% wezimbotshana zolwelwesi akumele zingene ku-electrolyte.I-oksijini ekhiqizwa i-electrode eqondile ifinyelela ku-electrode engemihle ngalezi zimbotshana futhi imuncwa i-electrode engeyinhle.

I-electrolyte ye-colloid kubhethri ye-colloid ingakha isendlalelo esiqinile sokuvikela eduze kwepuleti le-electrode, elingeke liholele ekwehleni komthamo kanye nempilo ende yesevisi;Kuphephile ukusebenzisa futhi kuhambisana nokuvikelwa kwemvelo, futhi kungowomqondo wangempela wokunikezwa kwamandla aluhlaza;Ukuzikhulula okuncane, ukusebenza kahle kokukhipha okujulile, ukwamukela ukushaja okuqinile, umehluko omncane ongaba khona phezulu naphansi, namandla amakhulu.Kodwa ubuchwepheshe bayo bokukhiqiza bunzima futhi izindleko ziphezulu.


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