Indawo yokuhlala yebhethri yelangaukwakhiwa kwesistimu kuyinkimbinkimbi, ehlanganisa amabhethri, ama-inverter nezinye izinto zokusebenza. Njengamanje, imikhiqizo embonini izimele komunye nomunye, okungase kubangele izinkinga ezihlukahlukene ekusetshenzisweni kwangempela, ikakhulukazi okuhlanganisa: ukufakwa kwesistimu eyinkimbinkimbi, ukusebenza okunzima nokugcinwa, ukusetshenziswa okungasebenzi kahle kwebhethri yelanga yokuhlala, kanye nezinga eliphansi lokuvikela ibhethri. Ukuhlanganiswa kwesistimu: ukufakwa okuyinkimbinkimbi Isitoreji sebhethri lelanga lendawo yokuhlala siwuhlelo oluyinkimbinkimbi oluhlanganisa imithombo eminingi yamandla futhi luqondiswe ekhaya elivamile, futhi abasebenzisi abaningi bafuna ukulisebenzisa “njengento esetshenziswa yasendlini”, okubeka izidingo eziphezulu ekufakweni kwesistimu. Ukufakwa okuyinkimbinkimbi futhi okudla isikhathi kwe-Residential Solar Battery Storage emakethe sekuyinkinga enkulu kwabanye abasebenzisi. Njengamanje, kunezinhlobo ezimbili eziyinhloko zezixazululo zesistimu yebhethri yelanga yokuhlala emakethe: isitoreji esine-voltage ephansi kanye nokugcinwa kwamandla kagesi aphezulu. I-Low-voltage ResidentialBattery System (I-Inverter & Nokwahlukaniswa Kwebhethri): Indawo yokuhlala ene-voltage low-voltage yokugcina isistimu yebhethri yelanga enebanga lamandla kagesi webhethri angu-40~60V, elihlanganisa amabhethri amaningana axhunywe ngokuhambisana ne-inverter, ehambisana nokuphuma kwe-DC kwe-PV MPPT ebhasini i-DC-DC ehlukanisiwe yangaphakathi ye-inverter, futhi ekugcineni iguqulelwe amandla e-AC ngokusebenzisa okukhiphayo kwe-inverter futhi ixhunywe kugridi, futhi amanye ama-inverter anomsebenzi wokukhipha isipele. [Isistimu yeSolar yasekhaya engu-48V] I-low-voltage yasekhaya ye-Solar Battery System Izinkinga ezinkulu: ① I-Inverter nebhethri zihlakazeka ngokuzimele, okokusebenza esindayo futhi kunzima ukukufaka. ② Imigqa yokuxhuma yama-inverter namabhethri ayikwazi ukumiswa futhi idinga ukucutshungulwa esizeni. Lokhu kuholela esikhathini eside sokufakwa kwesistimu yonke futhi kwandisa izindleko. 2. High Voltage Home Solar Battery System. Indawo yokuhlalaI-high voltage battery sysemisebenzisa i-architecture enezigaba ezimbili, ehlanganisa amamojula ebhethri amaningana axhunywe ochungechungeni ngokuphuma kwebhokisi lokulawula amandla kagesi aphezulu, ububanzi bamandla kagesi ngokuvamile bungu-85~600V, ukuphuma kweqoqo lebhethri kuxhunywe ku-inverter, ngeyunithi ye-DC-DC. ngaphakathi kwe-inverter, kanye nokuphuma kwe-DC okuvela ku-PV MPPT kuhlanganiswe ngokuphambana kubha yebhasi, futhi ekugcineni Ukukhishwa kweqoqo lebhethri kuxhunywe ku-inverter, futhi iyunithi ye-DC-DC ngaphakathi kwe-inverter ihlanganiswe ne- Ukukhishwa kwe-DC kwe-PV MPPT kubha yebhasi, futhi ekugcineni kuguqulelwe amandla e-AC ngokukhishwa kwe-inverter futhi kuxhunywe kugridi. [Isistimu Yelanga Yasekhaya Enamandla Kagesi Aphezulu] Izinkinga eziyinhloko ze-High Voltage Home Solar Battery System: Ukuze ugweme ukusebenzisa ama-batches ahlukene amamojula webhethri ochungechungeni ngokuqondile, ukuphathwa kwe-batch okuqinile kudinga ukwenziwa ekukhiqizeni, ukuthunyelwa, indawo yokugcina impahla kanye nokufakwa, okudinga izinsiza eziningi zabantu nezinto ezibonakalayo, futhi inqubo izoba yisicefe kakhulu futhi ibe yinkimbinkimbi, futhi iletha nezinkinga ekulungiseleleni isitoko samakhasimende. Ngaphezu kwalokho, ukusetshenziswa kwebhethri ngokwayo kanye nokubola kwamandla kubangela ukuthi umehluko phakathi kwamamojula ukhuliswe, futhi uhlelo olujwayelekile ludinga ukuhlolwa ngaphambi kokufakwa, futhi uma umehluko phakathi kwamamojula umkhulu, kudinga futhi ukugcwaliswa ngesandla, okuyisikhathi- ezidlayo kanye nokusebenza kanzima. Ukungafani Komthamo Webhethri: Ukulahleka Kwekhono Ngenxa Yomehluko Kumamojula Ebhethri 1. I-Low-voltage Residential Battery System Parallel Mismatch Yendabukoibhethri yelanga yokuhlalainebhethri elingu-48V/51.2V, elinganwetshwa ngokuxhuma amaphakethe ebhethri afanayo amaningi ngokuhambisana. Ngenxa yomehluko wamaseli, amamojula nezintambo zokuhlanganisa, amandla okushaja/wokukhipha amabhethri anokumelana okuphezulu kwangaphakathi aphansi, kuyilapho ukushaja/ukuphuma kwamandla kwamabhethri anokumelana okuphansi kwangaphakathi kuphezulu, futhi amanye amabhethri awakwazi ukushajwa/ukukhishwa ngokuphelele. isikhathi eside, okuholela ekulahlekelweni komthamo ingxenye yesistimu yebhethri yokuhlala. [I-Home 48V Solar System Parallel Mismatch Schematic] 2. High Voltage Residential Solar Isitoreji System Ibhethri Uchungechunge Ukungafani Ibanga lamandla kagesi wezinhlelo zebhethri lamandla kagesi aphezulu endaweni yokugcina amandla ngokuvamile lisuka ku-85 kuya ku-600V, futhi ukunwetshwa kwamandla kufinyelelwa ngokuxhuma amamojula amaningi ebhethri ngochungechunge. Ngokwezici zesekethe yochungechunge, ukushaja/ukukhishwa kwamanje kwemojula ngayinye kuyafana, kodwa ngenxa yokuhluka komthamo wemojula, ibhethri elinamandla amancane ligcwaliswa/likhishwe kuqala, okuholela ekutheni amanye amamojula ebhethri awakwazi ukugcwaliswa/ ikhishwe isikhathi eside futhi amaqoqo ebhethri alahlekelwa amandla kancane. [Umdwebo Wokungafani Wokungafani Wasekhaya Wamandla Amandla Elanga Aphezulu] Ukugcinwa Kwesistimu Yebhethri Lelanga Lasekhaya: I-High Technical and Cost Threshold Ukuze kuqinisekiswe ukusebenza okuthembekile nokuphephile kwesistimu yokugcina ibhethri yelanga yokuhlala, ukugcinwa okuhle kungenye yezinyathelo ezisebenzayo. Kodwa-ke, ngenxa yesakhiwo esiyinkimbinkimbi uma kuqhathaniswa nesistimu yebhethri yendawo yokuhlala ene-voltage ephezulu kanye nezinga eliphezulu lochwepheshe elidingekayo ekusebenzeni nasekunakekeleni izisebenzi, ukunakekelwa kuvame ukuba nzima futhi kudle isikhathi ngesikhathi sokusetshenziswa kwangempela kwesistimu, ikakhulukazi ngenxa yezizathu ezimbili ezilandelayo. . ① Ukugcinwa kwezikhathi ezithile, kudinga ukunikeza iphekhi yebhethri ukuze kulungiswe i-SOC, ukulinganiswa komthamo noma ukuhlolwa kwesekethe okuyinhloko, njll. ② Uma imojuli yebhethri ingavamile, ibhethri ye-lithium evamile ayinawo umsebenzi wokulinganisa ozenzakalelayo, odinga abasebenzi bokulungisa ukuthi baye esizeni ukuze bagcwalise futhi bangakwazi ukuphendula ngokushesha ezidingweni zekhasimende. ③ Emindenini ehlala ezindaweni ezikude, kuzobiza isikhathi esiningi ukuhlola nokulungisa ibhethri uma lingajwayelekile. Ukusetshenziswa Okuxubile Kwamabhethri Amadala Namasha: Ukusheshisa Ukuguga Kwamabhethri Amasha Nokungafani Kwamandla OkweIbhethri Lelanga LasekhayaUhlelo, amabhethri e-lithium amadala namasha ahlanganisiwe, futhi umehluko wokumelana kwangaphakathi kwamabhethri mkhulu, okuzokwenza kalula ukujikeleza nokwandisa izinga lokushisa lamabhethri futhi kusheshise ukuguga kwamabhethri amasha. Endabeni yesistimu yebhethri ye-high-voltage, amamojula webhethri amasha namadala axubene ngochungechunge, futhi ngenxa yomphumela wombhobho, imojula entsha yebhethri ingasetshenziswa kuphela nomthamo wemojula yebhethri endala, futhi iqoqo lebhethri lizokwazi ukungafani komthamo omkhulu. Isibonelo, umthamo otholakalayo wemodyuli entsha ngu-100Ah, umthamo otholakalayo wemodyuli endala ngu-90Ah, uma exubile, iqoqo lebhethri lingasebenzisa kuphela umthamo we-90Ah. Kafushane, ngokuvamile akunconywa ukusebenzisa amabhethri e-lithium amadala namasha ngokuqondile ochungechungeni noma ngokuhambisana. Ezimweni zokufaka ezedlule ze-BSLBATT, sivame ukuhlangana nokuthi abasebenzisi bazoqale bathenge amabhethri athile ukuze bahlole isistimu yokugcina amandla asekhaya noma ukuhlolwa kokuqala kwamabhethri okuhlala, futhi uma ikhwalithi yamabhethri ihlangabezana nokulindelwe yibo, bazokhetha ukungeza amabhethri amaningi ukuze bahlangabezane izidingo zangempela zohlelo futhi usebenzise amabhethri amasha ngokuhambisana ngqo namadala, okuzobangela ukusebenza okungavamile kwebhethri ye-BSLBATT emsebenzini, njengokuthi ibhethri elisha alilokothi lishajwe ngokugcwele futhi likhishwe, kusheshisa ukuguga kwebhethri! Ngakho-ke, ngokuvamile sincoma amakhasimende ukuthi athenge isistimu yokugcina ibhethri yendawo yokuhlala enenombolo eyanele yamabhethri ngokuya ngesidingo sawo sangempela samandla, ukuze agweme ukuhlanganisa amabhethri amadala namasha kamuva.
Isikhathi sokuthumela: May-08-2024