I-RENA1000 idibana njani? Iyintoni intsingiselo yegama lemodeli iRENA1000-HB?
I-RENA1000 uchungechunge lwekhabhathi yokugcina amandla yangaphandle idibanisa ibhetri yokugcina amandla, i-PCS (inkqubo yokulawula amandla), inkqubo yokulawula amandla, inkqubo yokuhambisa amandla, inkqubo yokulawula indalo kunye nenkqubo yokulawula umlilo. Nge-PCS (inkqubo yokulawula amandla), kulula ukuyigcina kunye nokwandisa, kwaye ikhabhinethi yangaphandle ithatha ukugcinwa kwangaphambili, okunokunciphisa indawo yomgangatho kunye nokufikelela kulondolozo, ebonisa ukhuseleko kunye nokuthembeka, ukuthunyelwa ngokukhawuleza, ixabiso eliphantsi, ukusebenza kakuhle kwamandla kunye nobukrelekrele. ulawulo.
Q2: Yeyiphi iseli yebhetri yeRENA1000 esetyenziswa yile bhetri?
I-3.2V 120Ah iseli, iiseli ze-32 kwimodyuli yebhetri nganye, imodi yokudibanisa i-16S2P.
Q3: Ithini inkcazo yeSOC yale seli?
Ithetha umlinganiselo weyona ntlawulo yebhetri itshajiswe ngayo, ibonakalisa ubume bebhetri. I-cell of charge ye-100% ye-SOC ibonisa ukuba i-cell cell ihlawuliswe ngokupheleleyo kwi-3.65V, kwaye imeko yentlawulo ye-0% ye-SOC ibonisa ukuba ibhetri ikhutshwe ngokupheleleyo kwi-2.5V. Umzi-mveliso osetwe kwangaphambili we-SOC yi-10% yokuyeka ukukhutshwa
I-Q4: Uthini umthamo webhetri nganye?
Umthamo wemodyuli yebhetri yeRENA1000 yi-12.3 kWh.
I-Q5: Indlela yokuqwalasela indawo yokufakela?
Inqanaba lokukhusela i-IP55 linokuhlangabezana neemfuno zeendawo ezininzi zesicelo, kunye nefriji ehlakaniphile yomoya womoya ukuqinisekisa ukusebenza okuqhelekileyo kwenkqubo.
Q6: Yintoni iimeko isicelo kunye RENA1000 Series?
Ngaphantsi kweemeko zokusetyenziswa eziqhelekileyo, izicwangciso zokusebenza kweenkqubo zokugcina amandla zimi ngolu hlobo lulandelayo:
I-Peak-shaving kunye ne-valley-filling: xa intlawulo yokwabelana ngexesha likwicandelo lentlambo: ikhabhinethi yokugcina amandla ihlawuliswa ngokuzenzekelayo kwaye imele xa igcwele; xa intlawulo yokwabelana ngexesha ikwinqanaba eliphezulu: ikhabhinethi yokugcina amandla ikhutshwe ngokuzenzekelayo ukuze ibone i-arbitrage yokwahlukana kwentlawulo kunye nokuphucula ukusebenza kakuhle kwezoqoqosho kwenkqubo yokugcina ukukhanya kunye nokutshaja.
Ukugcinwa kwe-photovoltaic edibeneyo: ukufikelela ngexesha langempela kumandla omthwalo wendawo, i-photovoltaic yokuvelisa i-priority self-generation, i-surplus yokugcina amandla; Ukuveliswa kwamandla e-photovoltaic akwanele ukubonelela ngomthwalo wendawo, eyona nto iphambili kukusebenzisa amandla okugcina ibhetri.
I-Q7: Ziziphi izixhobo zokukhusela ukhuseleko kunye nemilinganiselo yale mveliso?
Inkqubo yokugcina amandla ixhotyiswe ngezixhobo zokujonga umsi, izinzwa zesikhukula kunye neeyunithi zokulawula indalo ezifana nokukhuselwa komlilo, okuvumela ulawulo olupheleleyo lwesimo sokusebenza kwenkqubo. Inkqubo yokulwa nomlilo isebenzisa isixhobo sokucima umlilo se-aerosol luhlobo olutsha lwemveliso yokulwa nomlilo yokusingqongileyo kunye nenqanaba eliphezulu lehlabathi. Umgaqo osebenzayo: Xa ubushushu be-ambient bufikelela kwiqondo lobushushu lokuqala locingo lwe-thermal okanye ludibana nedangatye elivulekileyo, ucingo lwe-thermal luvutha ngokuzenzekelayo kwaye lugqithiselwe kwisixhobo sokucima umlilo se-aerosol. Emva kokuba isixhobo sokucima umlilo se-aerosol sifumene umqondiso wokuqala, i-arhente yokucima umlilo yangaphakathi ivuliwe kwaye ivelise ngokukhawuleza i-aerosol yokucima umlilo yohlobo lwe-nano kunye nokutshiza ukuze kufezekiswe ukucima umlilo ngokukhawuleza.
Inkqubo yokulawula iqwalaselwe ngokulawula ulawulo lobushushu. Xa ubushushu benkqubo bufikelela kwixabiso elisethiweyo, i-air conditioner iqalisa ngokuzenzekelayo imo yokupholisa ukuqinisekisa ukusebenza okuqhelekileyo kwenkqubo ngaphakathi kobushushu bokusebenza.
Q8: Yintoni iPDU?
I-PDU (Iyunithi yoSabelo lwaMandla), eyaziwa ngokuba yiYunithi yokuSasaza amandla kwiikhabhinethi, yimveliso eyenzelwe ukubonelela ukuhanjiswa kwamandla kwizixhobo zombane ezifakwe kwiikhabhathi, kunye noluhlu lweenkcazo ezinemisebenzi eyahlukeneyo, iindlela zofakelo kunye nokudibanisa iplagi ezahlukeneyo, inokubonelela ngezisombululo ezifanelekileyo zokusasazwa kombane kwi-rack-mounted kwiindawo ezahlukeneyo zamandla. Ukusetyenziswa kwee-PDU kwenza ukuhanjiswa kwamandla kwiikhabhathi kucoceke ngakumbi, kuthembekile, kukhuselekile, kubuchwephesha kwaye kuthandeke ngobuhle, kwaye kwenza ukugcinwa kwamandla kwiikhabhathi kube lula kwaye kunokwethenjelwa.
I-Q9: Ithini intlawulo kunye nomlinganiselo wokukhupha ibhetri?
Umyinge wentlawulo kunye nokukhutshwa kwebhetri ngu ≤0.5C
I-Q10: Ngaba le mveliso idinga ukugcinwa ngexesha lewaranti?
Akukho mfuneko yolondolozo olongezelelweyo ngexesha lokusebenza. Iyunithi yokulawula inkqubo ekrelekrele kunye ne-IP55 yoyilo lwangaphandle iqinisekisa ukuzinza kokusebenza kwemveliso. Ixesha elisemthethweni lokucima umlilo yiminyaka eyi-10, eqinisekisa ngokupheleleyo ukhuseleko lwamacandelo
Q11. Yintoni i-algorithm ye-SOX echanekileyo ephezulu?
I-algorithm ye-SOX echanekileyo kakhulu, isebenzisa ukudibanisa indlela yokudibanisa ixesha le-ampere kunye nendlela evulekileyo yesiphaluka, ibonelela ngokubala ngokuchanekileyo kunye nokulinganisa kwe-SOC kwaye ibonisa ngokuchanekileyo imeko ye-SOC yebhetri yexesha langempela.
Q12. Yintoni ulawulo lwexesha elibukhali?
Ulawulo lobushushu obukrelekrele lithetha ukuba xa ubushushu bebhetri buphakama, inkqubo iya kuvula ngokuzenzekelayo i-air conditioning ukuze ilungelelanise iqondo lobushushu ngokweqondo lobushushu ukuqinisekisa ukuba yonke imodyuli izinzile ngaphakathi koluhlu lobushushu bokusebenza.
Q13. Kuthetha ntoni ukusebenza kweemeko ezininzi?
Iindlela ezine zokusebenza: imowudi yezandla, ukuzivelisa, imowudi yokwabelana ngexesha, ukugcinwa kwebhetri, ukuvumela abasebenzisi ukuseta imowudi ukuze ihambelane neemfuno zabo.
Q14. Indlela yokuxhasa i-EPS-level switching kunye nokusebenza kwe-microgrid?
Umsebenzisi unokusebenzisa ugcino lwamandla njenge-microgrid kwimeko kaxakeka kwaye ngokudibanisa ne-transformer ukuba i-voltage yokunyuka okanye esezantsi iyafuneka.
Q15. Indlela yokuthumela ngaphandle idatha ?
Nceda usebenzise i-USB flash drive ukuyifaka kujongano lwesixhobo kwaye ukhuphele ngaphandle idatha kwiscreen ukufumana idatha efunekayo.
Q16. Indlela yokulawula kude?
Ukujongwa kwedatha ekude kunye nolawulo olusuka kwi-app ngexesha lokwenyani, kunye nokukwazi ukutshintsha useto kunye nokuphuculwa kwe-firmware ukude, ukuqonda imiyalezo yangaphambi kwe-alarm kunye neempazamo, kunye nokugcina umkhondo wophuhliso lwexesha lokwenyani.
Q17. Ngaba iRENA1000 iyakuxhasa ukwandiswa komthamo?
Iiyunithi ezininzi zinokudityaniswa ngokuhambelana neeyunithi ezi-8 kunye nokuhlangabezana neemfuno zabathengi bomthamo
Q18. Ngaba iRENA1000 inzima ukuyifaka?
Ufakelo lulula kwaye kulula ukusebenza, kuphela i-AC terminal i-harness kunye nentambo yokunxibelelana kwesikrini kufuneka idityaniswe, enye idibaniso ngaphakathi kwikhabhinethi yebhetri sele iqhagamshelwe kwaye ivavanyiwe kumzi-mveliso kwaye ayifuni ukudityaniswa kwakhona ngumthengi.
Q19. Ngaba imowudi ye-RENA1000 EMS ingahlengahlengiswa kwaye isetwe ngokweemfuno zabathengi?
I-RENA1000 ithunyelwa nge-interface esemgangathweni kunye noseto, kodwa ukuba abathengi bafuna ukwenza utshintsho kuyo ukuze bahlangabezane neemfuno zabo zesiko, banokuphendula kwi-Renac yokuphuculwa kwesoftware ukuhlangabezana neemfuno zabo zokwenza ngokwezifiso.
Q20. Lide kangakanani ixesha lewaranti yeRENA1000?
Iwaranti yemveliso ukususela kumhla wokuhanjiswa kweminyaka emi-3, iimeko zewaranti yebhetri: kwi-25 ℃, i-0.25C / 0.5C intlawulo kunye nokukhupha amaxesha angama-6000 okanye iminyaka emi-3 (nantoni na efika kuqala), umthamo oseleyo ungaphezulu kwe-80%