I-DKGB2-3000-2V3000AH IBHETRI 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 okukhuphayo, kunye nokukwazi ukubuya kwakhona.
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
Okunye ukufunda
Umgaqo webhetri yokugcina eqhelekileyo
Ibhetri lunikezelo lwamandla olubuyiselwa umva lweDC, isixhobo sekhemikhali esibonelela kwaye sigcine amandla ombane.Into ebizwa ngokuba yi-reversible ibhekisela ekubuyiseleni amandla ombane emva kokukhutshwa.Amandla ombane ebhetri aveliswa kukusabela kweekhemikhali phakathi kweepleyiti ezimbini ezahlukeneyo ezintywiliselwe kwi-electrolyte.
Ukukhutshwa kwebhetri (i-discharge current) yinkqubo apho amandla ekhemikhali aguqulwa abe ngamandla ombane;Ukutshaja ibhetri (inflow current) yinkqubo apho amandla ombane aguqulwa abe ngamandla ekhemikhali.Ngokomzekelo, ibhetri ye-lead-asidi iqulethwe ngamacwecwe afanelekileyo kunye ne-negative, i-electrolyte kunye ne-electrolytic cell.
I-substance esebenzayo yepleyiti ephilileyo yi-lead dioxide (PbO2), into esebenzayo ye-negative plate yi-grey spongy metal lead (Pb), kunye ne-electrolyte isisombululo se-sulfuric acid.
Ngethuba lenkqubo yokutshaja, phantsi kwesenzo sommandla wombane wangaphandle, i-ion ezintle kunye ne-negative zifuduka kwi-pole nganye, kwaye ukuphendulwa kweekhemikhali kwenzeka kwi-interface yesisombululo se-electrode.Ngethuba lokutshaja, i-sulfate ye-lead ye-electrode plate ibuyisela kwi-PbO2, i-sulfate ekhokelayo ye-electrode plate engalunganga ibuyisela kwi-Pb, i-H2SO4 kwi-electrolyte iyanda, kwaye ukuxinana kuyanda.
Ukutshaja kuqhutyelwa de into esebenzayo kwipleyiti ye-electrode ibuyele ngokupheleleyo kurhulumente ngaphambi kokukhutshwa.Ukuba ibhetri iyaqhubeka nokuhlawuliswa, iya kubangela i-electrolysis yamanzi kwaye ikhuphe amaqamza amaninzi.I-electrode ephilileyo kunye ne-negative yebhetri intywiliselwa kwi-electrolyte.Njengoko inani elincinci lezinto ezisebenzayo zichithwa kwi-electrolyte, amandla e-electrode ayenziwa.I-electromotive force yebhetri yenziwe ngenxa yokwahlukana kwamandla e-electrode yeepleyiti ezintle kunye nezibi.
Xa ipleyiti elungileyo intywiliselwa kwi-electrolyte, inani elincinci le-PbO2 lichithwa kwi-electrolyte, livelise i-Pb (H O) 4 ngamanzi, kwaye libole kwi-ion ye-load yesine kunye ne-hydroxide ions.Xa befikelela kwibhalansi eguquguqukayo, amandla e-positive plate amalunga + 2V.
I-Pb yensimbi kwi-negative plate isabela kunye ne-electrolyte ibe yi-Pb + 2, kwaye i-electrode plate ihlawuliswe kakubi.Ngenxa yokuba iintlawulo ezintle nezimbi zitsala enye kwenye, iPb+2 idla ngokutshona kumphezulu wepleyiti ye-electrode.Xa ezi zimbini zifikelela kwibhalansi eguquguqukayo, amandla e-electrode yepleyiti ye-electrode malunga -0.1V.I-static electromotive force E0 yebhetri egcwele ngokupheleleyo (iseli enye) imalunga ne-2.1V, kwaye isiphumo sovavanyo lwangempela yi-2.044V.
Xa ibhetri ikhutshwa, i-electrolyte ngaphakathi kwebhetri i-electrolyzed, ipleyiti eyi-PbO2 kunye ne-negative plate Pb ibe yi-PbSO4, kwaye i-electrolyte sulfuric acid iyancipha.Ukuxinana kuyancipha.Ngaphandle kwebhetri, ipali yentlawulo engalunganga kwipali engalunganga iqukuqela ukuya kwipali evumayo ngokuqhubekayo phantsi kwentshukumo yamandla ebhetri yombane wombane.
Yonke inkqubo yenza iluphu: i-oxidation reaction yenzeke kwipali engalunganga yebhetri, kwaye ukusabela kokunciphisa kwenzeka kwipali echanekileyo yebhetri.Njengoko impendulo yokunciphisa kwi-electrode elungileyo yenza amandla e-electrode epleyiti evumayo anciphe ngokuthe ngcembe, kwaye impendulo ye-oxidation kwipleyiti engalunganga yenza ukwanda okunokwenzeka kwe-electrode, yonke le nkqubo iya kubangela ukuhla kwamandla ebhetri e-electromotive.Inkqubo yokukhutshwa kwebhetri ibuyele umva inkqubo yayo yokutshaja.
Emva kokuba ibhetri ikhutshwe, i-70% ukuya kwi-80% yezinto ezisebenzayo kwipleyiti ye-electrode ayinayo umphumo.Ibhetri elungileyo kufuneka iphucule ngokupheleleyo izinga lokusetyenziswa kwezinto ezisebenzayo kwipleyiti.