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Uchungechunge lwangaphandle lwe-C&I ESS RENA1000 FAQ

Q1: Ihlangana kanjani i-RENA1000? Ithini incazelo yegama lemodeli i-RENA1000-HB?    

I-RENA1000 uchungechunge lwekhabethe lokugcina amandla lwangaphandle luhlanganisa ibhethri yokugcina amandla, i-PCS(uhlelo lokulawula amandla), uhlelo lokuqapha ukuphathwa kwamandla, uhlelo lokusatshalaliswa kwamandla, uhlelo lokulawula imvelo kanye nohlelo lokulawula umlilo. Nge-PCS(isistimu yokulawula amandla), kulula ukuyigcina futhi yandise, futhi ikhabethe langaphandle lithatha ukulungiswa kwangaphambili, okunganciphisa indawo yaphansi nokufinyelela ekulungiseni, okubandakanya ukuphepha nokuthembeka, ukuthunyelwa okusheshayo, izindleko eziphansi, ukusebenza kahle kwamandla aphezulu kanye nokuhlakanipha. abaphathi.

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Q2: Iyiphi iseli yebhethri ye-RENA1000 esetshenziswe leli bhethri?

Iseli engu-3.2V 120Ah, amaseli angu-32 imojuli yebhethri ngayinye, imodi yokuxhuma engu-16S2P.

 

Q3: Ithini incazelo ye-SOC yaleli seli?

Kusho isilinganiso sokushajwa kwebhethri langempela ekushajweni okugcwele, okubonisa isimo sokushajwa kweseli yebhethri. Isimo sokushajwa kweseli engu-100% SOC sibonisa ukuthi iseli yebhethri ishajwe ngokugcwele ku-3.65V, futhi isimo sokushaja esingu-0% SOC sibonisa ukuthi ibhethri likhishwe ngokuphelele ku-2.5V. I-SOC esethwe ngaphambilini yasefekthri ingu-10% wokuyeka ukukhishwa

 

Q4: Ungakanani umthamo wephakethe ngalinye lebhethri?

Umthamo wemojula yebhethri yochungechunge lwe-RENA1000 ngu-12.3 kWh.

 

Q5: Indlela yokucabangela indawo yokufaka?

Izinga lokuvikela i-IP55 lingahlangabezana nezidingo zezindawo eziningi zohlelo lokusebenza, ngesiqandisi esihlakaniphile se-air conditioning ukuze kuqinisekiswe ukusebenza okuvamile kwesistimu.

 

Q6: Yiziphi izimo zohlelo lokusebenza nge-RENA1000 Series?

Ngaphansi kwezimo ezivamile zohlelo lokusebenza, amasu okusebenza ezinhlelo zokugcina amandla ami kanje:

Ukushefa okuphezulu nokugcwaliswa kwesigodi: lapho intela yokwabelana ngesikhathi isesigabeni sesigodi: ikhabhinethi yokugcina amandla ishajwa ngokuzenzakalelayo futhi imele lapho igcwele; lapho intela yokwabelana ngesikhathi isesigabeni esiphezulu: ikhabethe lokugcina amandla likhishwa ngokuzenzakalelayo ukuze kubonakale ukungezwani komehluko wezindleko futhi kuthuthukiswe ukusebenza kahle kwezomnotho kokugcina ukukhanya kanye nesistimu yokushaja.

Isitoreji se-photovoltaic esihlanganisiwe: ukufinyelela kwesikhathi sangempela kumandla okulayisha wendawo, i-photovoltaic power generation self-generation, isitoreji samandla engeziwe; ukukhiqizwa kwamandla we-photovoltaic akwanele ukunikeza umthwalo wendawo, okubalulekile ukusebenzisa amandla okugcina ibhethri.

 

Q7: Yiziphi izisetshenziswa zokuvikela ukuphepha kanye nezinyathelo zalo mkhiqizo?

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Isistimu yokugcina amandla ifakwe izinto ezibona intuthu, izinzwa zezikhukhula namayunithi okulawula imvelo njengokuvikela umlilo, okuvumela ukulawula okugcwele kwesimo sokusebenza kwesistimu. Uhlelo lokulwa nomlilo lusebenzisa idivayisi yokucima umlilo ye-aerosol wuhlobo olusha lomkhiqizo wokulwa nomlilo ovikela imvelo onezinga eliphezulu lomhlaba. Umgomo wokusebenza: Uma izinga lokushisa le-ambient lifinyelela izinga lokushisa lokuqala locingo olushisayo noma lihlangana nelangabi elivulekile, intambo eshisayo ivele ithungele futhi idluliselwe kudivayisi yochungechunge lwe-aerosol yokucisha umlilo. Ngemva kokuba idivayisi yokucima umlilo ye-aerosol ithola isignali yokuqala, isisebenzi sokucima umlilo sangaphakathi siyasebenza futhi ngokushesha sikhiqize isicishamlilo sohlobo lwe-nano-aerosol bese sifafaza ukuze sifinyelele ukucisha umlilo ngokushesha.

 

Uhlelo lokulawula lucushwe ngokulawulwa kokulawula izinga lokushisa. Lapho izinga lokushisa lesistimu lifinyelela inani elimisiwe, isipholile somoya siqala ngokuzenzakalelayo imodi yokupholisa ukuze siqinisekise ukusebenza okuvamile kwesistimu ngaphakathi kwezinga lokushisa lokusebenza.

 

Q8: Iyini i-PDU?

I-PDU (Power Distribution Unit), eyaziwa nangokuthi i-Power Distribution Unit yamakhabethe, iwumkhiqizo oklanyelwe ukunikeza ukusatshalaliswa kwamandla emishini kagesi efakwe emakhabetheni, enochungechunge lwezicaciso ezihlukahlukene ezinemisebenzi ehlukene, izindlela zokufaka nezinhlanganisela ezahlukene zamapulaki, okuyinto ingahlinzeka ngezixazululo ezifanele zokusabalalisa amandla afakwe endaweni yokubeka ezindaweni ezahlukene zamandla. Ukusetshenziswa kwama-PDU kwenza ukusatshalaliswa kwamandla emakhabetheni kucoceke kakhudlwana, kuthembekile, kuphephe, kuchwepheshe futhi kujabulise ngobuhle, futhi kwenza ukugcinwa kwamandla kumakhabethe kube lula futhi kuthembekile.

 

Q9: Iyini isilinganiso sokushajwa nokukhipha ibhethri?

Isilinganiso sokushajwa nokukhipha kwebhethri ngu-≤0.5C

 

Q10: Ingabe lo mkhiqizo udinga ukunakekelwa ngesikhathi sewaranti?

Asikho isidingo sokulungiswa okwengeziwe ngesikhathi sokusebenza. Iyunithi yokulawula yesistimu ehlakaniphile kanye nedizayini yangaphandle ye-IP55 iqinisekisa ukuzinza kokusebenza komkhiqizo. Isikhathi sokuqinisekisa sesicishamlilo siyiminyaka eyi-10, eqinisekisa ngokugcwele ukuphepha kwezingxenye

 

Q11. Ithini i-algorithm ye-SOX enembayo ephezulu?

I-algorithm ye-SOX enembe kakhulu, isebenzisa inhlanganisela yendlela yokuhlanganisa ye-ampere-time kanye nendlela yomjikelezo ovulekile, inikeza ukubala okunembile nokulinganisa kwe-SOC futhi ibonisa ngokunembile isimo se-SOC yebhethri eguqukayo yesikhathi sangempela.

 

Q12. Kuyini ukuphathwa kwe-smart temp?

Ukulawulwa kwezinga lokushisa okuhlakaniphile kusho ukuthi lapho izinga lokushisa lebhethri likhuphuka, isistimu izovula ngokuzenzakalelayo isimo somoya ukuze silungise izinga lokushisa ngokuvumelana nezinga lokushisa ukuze kuqinisekiswe ukuthi yonke imojula izinzile ngaphakathi kwebanga lokushisa lokusebenza.

 

Q13. Kusho ukuthini ukusebenza kwezimo eziningi?

Izindlela ezine zokusebenza: imodi yezandla, ukuzikhiqiza, imodi yokwabelana ngesikhathi, ikhophi yasenqolobaneni yebhethri, okuvumela abasebenzisi ukusetha imodi ukuze ivumelane nezidingo zabo.

 

Q14. Ungakusekela kanjani ukushintshwa kwezinga le-EPS nokusebenza kwe-microgrid?

Umsebenzisi angasebenzisa isitoreji samandla njenge-microgrid esimweni esiphuthumayo futhi ehlanganiswe ne-transformer uma kudingeka i-voltage yokukhuphuka noma eyehlayo

 

Q15. Indlela yokuthekelisa idatha?

Sicela usebenzise idrayivu ye-USB ukuze uyifake kusixhumi esibonakalayo sedivayisi futhi uthumele idatha esibukweni ukuze uthole idatha oyifunayo.

 

Q16. Indlela yokulawula kude?

Ukuqapha nokulawula idatha yesilawuli kude kusuka kuhlelo lokusebenza ngesikhathi sangempela, enekhono lokushintsha izilungiselelo nokuthuthukiswa kwe-firmware ukude, ukuqonda imilayezo yangaphambi kwe-alamu namaphutha, kanye nokulandelela intuthuko yesikhathi sangempela.

 

Q17. Ingabe i-RENA1000 isekela ukunwetshwa komthamo?

Amayunithi amaningi angaxhunywa ngokuhambisana namayunithi ayi-8 futhi ahlangabezane nezidingo zamakhasimende ngomthamo

 

Q18. Ingabe i-RENA1000 iyinkimbinkimbi ukuyifaka?

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Ukufakwa kulula futhi kulula ukusebenza, ihhanisi letheminali ye-AC kuphela kanye nentambo yokuxhumana kwesikrini okudingeka kuxhunywe, okunye ukuxhumeka ngaphakathi kwekhabhinethi yebhethri sekuvele kuxhunyiwe futhi kwahlolwa efekthri futhi akudingi ukuxhunywa futhi ikhasimende.

 

Q19. Ingabe imodi ye-RENA1000 EMS ingalungiswa futhi isethwe ngokwezidingo zamakhasimende?

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I-RENA1000 ithunyelwa inesixhumi esibonakalayo esijwayelekile nezilungiselelo, kodwa uma amakhasimende edinga ukwenza izinguquko kuyo ukuze ihlangabezane nezidingo zawo zangokwezifiso, angaphendula kwa-Renac ngokuthuthukiswa kwesofthiwe ukuze ahlangabezane nezidingo zawo ngokwezifiso.

 

Q20. Side kangakanani isikhathi sewaranti ye-RENA1000?

Iwaranti yomkhiqizo kusukela ngosuku lokulethwa kweminyaka engu-3, ​​izimo zewaranti yebhethri: ku-25 ℃, 0.25C/0.5C ukushaja nokukhipha izikhathi ezingu-6000 noma iminyaka engu-3 (noma yikuphi okufika kuqala), umthamo osele ungaphezu kuka-80%