I-DKGB2-1200-2V1200AH 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
Ukuqulunqwa kunye nomgaqo wokusebenza wenkqubo yokuvelisa amandla e-photovoltaic
Iinkqubo zokuvelisa amandla e-Photovoltaic ikakhulu zibandakanya iisistim eziqhagamshelwe kwigridi kunye neenkqubo zegridi ezivaliweyo.Njengoko igama lithetha, iinkqubo ezidityanisiweyo zegridi zihambisa amandla ombane aveliswa ziinkqubo ze-photovoltaic kwigridi yesizwe ngendlela efanayo.Iinkqubo ezidibeneyo zegridi ziqulunqwe kakhulu kwiimodyuli ze-photovoltaic, ii-inverters, iibhokisi zokuhambisa kunye nezinye izixhobo.Iinkqubo zothungelwano lwegridi zisebenza ngokuzimeleyo kwaye akukho mfuneko yokuba zixhomekeke kwigridi yoluntu.Iinkqubo zegridi ezivaliweyo kufuneka zixhotyiswe ngeebhetri kunye nezilawuli zelanga zokugcina amandla, Inokuqinisekisa ukuzinza kwenkqubo yamandla kunye nokubonelela amandla kumthwalo xa inkqubo ye-photovoltaic ingenzi amandla okanye ukuveliswa kwamandla akwanelanga kwi-overcast eqhubekayo. usuku.
Ngayiphi na indlela, umgaqo wokusebenza kukuba iimodyuli ze-photovoltaic ziguqula amandla okukhanya kwi-current ngqo, kwaye i-current current iguqulwa ibe yangoku phantsi kwefuthe le-inverter, ukuze ekugqibeleni ibone imisebenzi yokusetyenziswa kombane kunye nokufikelela kwi-Intanethi.
1. Imodyuli ye-Photovoltaic
Imodyuli ye-PV iyona nxalenye ephambili yenkqubo yokuvelisa amandla, equlunqwe ngee-chips ze-PV zemodyuli okanye iimodyuli ze-PV zenkcazo eyahlukeneyo enqunywe ngumshini wokusika i-laser okanye umatshini wokusika ucingo.Kuba i-voltage yangoku kunye ne-voltage yeseli ye-photovoltaic enye incinci kakhulu, kuyafuneka kuqala ufumane amandla ombane aphezulu kuthotho, emva koko ufumane i-high current ngokuhambelanayo, uyikhuphe nge-diode (ukuthintela ukuhanjiswa kwangoku ngasemva), kwaye emva koko uyipakishe. insimbi engenasici, i-aluminium okanye enye isakhelo esingeyontsimbi, faka iglasi phezulu kunye ne-backplane ngasemva, uyigcwalise nge-nitrogen, kwaye uyitywine.Iimodyuli ze-PV zidityaniswe kwichungechunge kunye nokuhambelana ukwenza uluhlu lwemodyuli ye-PV, eyaziwa ngokuba yi-PV array.
Umgaqo osebenzayo: ilanga likhanya kwi-semiconductor pn junction, lenza umngxuma omtsha we-electron pair.Ngaphantsi kwempembelelo yombane we-pn junction, imingxuma iphuma kwindawo ye-p ukuya kwindawo ye-n, kwaye i-electron iphuma kwindawo ye-n ukuya kwindawo ye-p.Emva kokuba isiphaluka sidibaniswe, i-current iyenziwa.Umsebenzi wayo kukuguqula amandla elanga kumandla ombane kwaye uyithumele kwibhetri yokugcina ukugcinwa, okanye ukuqhubela umthwalo emsebenzini.
2. Isilawuli (kwinkqubo yegridi)
Isilawuli se-Photovoltaic sisixhobo sokulawula ngokuzenzekelayo esinokuthi sithintele ngokuzenzekelayo ukugqithisa kwebhetri kunye nokugqithisa.I-high-speed CPU microprocessor kunye ne-high-precision A / D converter isetyenziselwa ukufumana idatha ye-microcomputer kunye nenkqubo yokulawula ukubeka iliso, engakwazi ukuqokelela ngokukhawuleza kunye nexesha lokuqokelela imeko yangoku yokusebenza kwenkqubo ye-photovoltaic, ukufumana ulwazi olusebenzayo lwe-PV. kwisikhululo nangaliphi na ixesha, kodwa kwakhona ukuqokelela idatha yembali yesikhululo se-PV ngokweenkcukacha, ukubonelela ngesiseko esichanekileyo nesaneleyo sokuvavanya ingqiqo yoyilo lwenkqubo yePV kunye nokuthembeka komgangatho wamacandelo enkqubo, kwaye inomsebenzi uthumelo lwedatha yonxibelelwano lwe-serial, i-Multiple PV system substations inokulawulwa kwindawo ephakathi kwaye ilawulwe kude.
3. Inverter
I-inverter sisixhobo esiguqula umbane othe ngqo owenziwe ngumbane we-photovoltaic kwi-alternating current.I-photovoltaic inverter yenye yemilinganiselo ebalulekileyo yenkqubo kwi-photovoltaic array system kwaye ingasetyenziselwa kunye nezixhobo eziqhelekileyo ze-AC.I-inverter yelanga inemisebenzi ekhethekileyo yokusebenzisana kunye ne-photovoltaic array, njengokulandelela indawo yamandla aphezulu kunye nokukhusela umphumo wesiqithi.
4. Ibhetri (ayifuneki kwisixokelelwano esiqhagamshelwe kwigridi)
Ukugcinwa kwebhetri sisixhobo sokugcina umbane kwinkqubo yokuvelisa amandla e-photovoltaic.Okwangoku, kukho iintlobo ezine zeebhetri ze-lead-asidi zokulondolozwa kwasimahla, iibhetri ze-lead-asidi eziqhelekileyo, iibhetri zejeli kunye neebhetri ze-alkaline nickel cadmium, kunye nokugcinwa kwe-asidi esetyenziswa ngokubanzi iibhetri zasimahla kunye neebhetri zejeli.
Umgaqo osebenzayo: ukukhanya kwelanga kukhanya kwimodyuli ye-photovoltaic emini, ivelisa i-voltage ye-DC, iguqula amandla okukhanya kumandla ombane, kwaye emva koko idlulisele kumlawuli.Emva kokukhuselwa kokugqithiswa komlawuli, amandla ombane athunyelwa kwimodyuli ye-photovoltaic idluliselwa kwibhetri yokugcina, ukusetyenziswa xa kuyimfuneko.
