Inkqubo yeSOSIAT All in One +PV+ESS
Isishwankathelo seMveliso
Inkqubo edibeneyo ye-PV&ESS sisixhobo sokugcina amandla se-photovoltaic esidibeneyo nesinobuchule obuphezulu esiye sayilwa ngononophelo ukuze sihlangabezane ngokupheleleyo neemfuno eziguqukayo zeenkqubo zokugcina amandla (i-ESS) kunye neenkqubo ezisasazwayo zokugcina amandla ze-photovoltaic. Esi sixhobo siphambili sineempawu ezininzi ezibalaseleyo. Uyilo lwaso lokonga amandla lunciphisa kakhulu ukusetyenziswa kwamandla okusebenza, nto leyo enegalelo ekongeni iindleko ixesha elide kunye nokuzinza kokusingqongileyo. Uxinano olukhulu lwamandla luyenza ikwazi ukugcina amandla amaninzi kwindawo encinci, ngaloo ndlela iphucula ukusetyenziswa kwendawo ekhoyo.
Le nkqubo inokunxibelelana ngokukhawuleza kwaye iqhawuke kwigridi, iqinisekisa ukuhlanganiswa okungenamthungo nenkqubo ye-PV. Olu phawu lubalulekile kuzo zombini izicelo eziqhagamshelwe kwigridi kunye nezingekho kwigridi, nto leyo enika ukuguquguquka nokuthembeka. Le nkqubo iyakwazi ukuguquguquka nokusingqongileyo kwaye indawo yayo encinci iyenza ibe lukhetho olufanelekileyo kwiiprojekthi ezinesithuba esincinci sokufakela.
Inkqubo ye-PV&ESS All in one ibalasele nangakumbi ngokubhekiselele ekusasazweni kwamandla kunye nokusebenza kokugcina amandla. Iqulathe izinto ezibalulekileyo ezininzi, eziquka: ikhabhathi eqinileyo yokubonelela ngokhuseleko oluthembekileyo kwiindawo zangaphakathi; i-air conditioner epholileyo yokulawula ubushushu ngokufanelekileyo; i-inverter yokuguqula amandla; inkqubo yolawulo lwebhetri (i-BMS) yokuqinisekisa ukhuseleko lwebhetri kunye nokugcina ukusebenza kakuhle; iphakheji yebhetri yokugcina amandla; inkqubo yokukhusela umlilo yokuphucula ukhuseleko; kunye nenkqubo yokuncedisa ukhuseleko lombane yokubonelela ngokhuseleko olupheleleyo.
Esi sixhobo sokugcina amandla se-photovoltaic kunye nesixhobo sokugcina amandla esidityanisiweyo sineendlela ezahlukeneyo zokusetyenziswa. Kwiiprojekthi zokugcina amandla e-photovoltaic, sinokugcina ngokufanelekileyo amandla elanga angaphezulu aveliswa emini size siwakhuphe xa kufuneka, ngaloo ndlela siphucula izinga lokusetyenziswa kwamandla avuselelekayo.
Iiparamitha zeMveliso
| Iinkcukacha zenkqubo | 20kW/51.2kWh | 30kW/61.44kWh | 50kW/107kWh |
| Ibhetri yenkqubo ye-DC voltage | 512V | 614V | 716V |
| Uluhlu lwamandla ombane ebhetri | 432-576VDC | 490-690VDC | 582-806VDC |
| Uhlobo lweseli | I-LFP 3.2V/100Ah | I-LFP 3.2V/100Ah | I-LFP 3.2V/150Ah |
| Uqwalaselo lwePHEKI enye | 102.4V100Ah/10.24kWh | 102.4V100Ah/10.24kWh | 102.4V150Ah/15.36kWh |
| Inani leePAKHI zenkqubo | 5PCS | 6PCS | 7PCS |
| Umthamo wenkqubo iyonke | 51.2kWh | 61.44kWh | 107kWh |
| Amandla e-inverter alinganisiweyo | 20kW | 30kW | 50kW |
| Amandla okufaka i-PV aphezulu | 26kW | 39kW | 65kW |
| Izinga lokukhupha intlawulo | ≥0.5C | ≥0.5C | ≥0.5C |
| Indlela yokulawula ubushushu | Ukupholisa umoya okukrelekrele | ||
| Ubunzulu bokukhupha kunye nobomi bebhetri | 90% DOD >6000Times(0.5C@25℃) Izinga lokugcina amandla ≥80% | ||
| Isicwangciso soKhuseleko loMlilo | IPAKI ye-aerosol/ i-aerosol yekhabhinethi | ||
| I-voltage yegridi elinganisiweyo | 380VAC (3L+N+PE) | ||
| Ireyithi yegridi elinganisiweyo | 50/60Hz±5Hz | ||
| Indlela yonxibelelwano | I-CAN/RS485/WiFi (Ukhetho lwe-4G) | ||
| Imo yokusebenza | Igridi evuliweyo/ecinyiweyo | ||
| Indlela yokufikelela | Ukungena komgca osezantsi wonxibelelwano/isigaba sesithathu/i-3L+N+PE | ||
| Ubushushu bokusetyenziswa | 0℃~+50℃ | ||
| Ukufuma kokusingqongileyo okusetyenziselwa ukusetyenziswa | 0~95%RH | ||
| ubushushu bokugcina | -20℃~+60℃ | ||
| Ukuphakama kokusebenza | 2000m (>2000m Ukusetyenziswa okuncitshisiweyo) | ||
| umgangatho wokhuseleko | IP54 | ||
| Ubungakanani bemveliso | 1100*1260*1525mm | 1100*1260*1725mm | 1255*1445*1960mm |
| Ubunzima bemveliso | 1100kg | 1250kg | 2100kg |