Izimo Zohlelo Lokuphikisa
Kunezigaba ezinhlanu eziyinhloko zemikhiqizo evamile yokugcina amandla: isitoreji esisetshenziswayo, indawo yokugcina amandla kadizili, indawo yokugcina amandla kaphethiloli, indawo yokugcina amandla omoya, indawo yokugcina amandla e-photovoltaic.
Okufana nesitoreji sasekhaya / isitoreji sasendlini (indawo yokugcina amandla e-photovoltaic), indawo yokugcina amandla aphathekayo yangaphandle, indawo yokugcina amandla ezimbonini nakwezentengiselwano, izimoto ezishaja isitoreji samandla eselula (njengegalaji langaphambili likaphethiloli), isiteshi samandla esikhulu sokugcina amandla e-photovoltaic, isikhungo esikhulu samandla okugcina amandla omoya, isizinda sokugcina amandla esiteshi, isiteshi samandla okugcina amandla okushefa okuphezulu, nokunye.
Impahla yokugcina amandla ihlanganisa:
★ Amabhethri e-Lithium-ion: asetshenziswa ezimotweni zikagesi, amafoni ahlakaniphile, amalaptop nezinye izinto zikagesi.
★ Amabhethri e-lead-acid: asetshenziswa ezimotweni, i-UPS nezinye izinhlelo zokusebenza.
★ Amabhethri e-sodium-sulfur: yokugcina amandla egridi, isitoreji samandla elanga nomoya, njll.
★ Amabhethri okugeleza kwe-Vanadium: asetshenziselwa ukugcinwa kwamandla egridi, isitoreji samandla omoya, njll.
★ I-Supercapacitor: isetshenziselwa ukugcinwa kwamandla ngokushesha kanye nokukhipha amandla, njengokuqala nokubhuleka kwezimoto zikagesi.
★ Amaseli amafutha e-hydrogen: asetshenziswa ezimotweni, emikhunjini, ezindizeni nakwezinye izindlela zokuhamba.
★ Isitoreji samandla omoya ocindezelwe: isitoreji somoya esicindezelwe, sisetshenziselwa ukugcinwa kwamandla egridi.
★ Isitoreji samandla adonsela phansi: ukusebenzisa amandla anamandla adonsela phansi ukugcina amandla, njengokukhiqizwa kwamandla echibi.
★ Isitoreji samandla ashisayo: ukusebenzisa amandla ashisayo ukugcina amandla, njengesistimu yokugcina amanzi ashisayo.
★ Ibhethri lamandla: lisetshenziswa ezimotweni zikagesi, ezimotweni eziyingxubevange, njll.
Ukusetshenziswa/Imisebenzi nezithombe zama-Resistors in Field
Ukugcinwa kwamandla kuyinqubo yokugcina amandla engeziwe kwasekuqaleni bese uwabiza futhi lapho edingeka. Izindima zayo eziyinhloko ukukhuphuka, ukulayisha, ukuqala kanye nokukhulula izithiyo zokudlulisela, nokubambezela ukuthuthukiswa kwenethiwekhi yokudlulisela nokusabalalisa yamagridi okudlulisela nokusabalalisa.
Njengoba ukunikezwa kwamandla kufanele kukhokhise i-capacitor ekuqaleni kwamandla, uma kunganqunyelwe, ukushaja kwamanje kuzoba phezulu kakhulu. Uma kunganqunyelwe, ukushaja kwamanje okudlulele kuzodala umonakalo kuma-relay, izilungisi nezinye izingxenye okufanele zikhokhiswe. Uma kungakhawulelwe, amandla okushaja azoba nkulu kakhulu ukuthi i-relay, isilungisisi kanye ne-capacitor ingashajwa. Ngakho-ke, kuyadingeka ukukhawulela okwamanje nge-resistor, okuyi-Pre-charging resistance (esetshenziswa kakhulu njenge-capacitor pre-charging resistance). Ukuvikelwa okuphumelelayo kwama-capacitor, umshwalense, othintana nabo be-DC; Vimbela amandla aqondile ngesikhathi, ukushaja kwamandla kungase kube kukhulu kakhulu, amandla asheshayo angabangela ukulimala kwe-capacitor, futhi kulimaze isixhumi esithinta i-DC futhi kulimaze isixhumi se-DC nezinye izinto ezishintshayo. Umsinga wokushaja ungaba phezulu kakhulu ngesikhathi sokukhanyisa okuqondile.
Ikhabhinethi yokugcina amandla yakhiwe inombolo enkulu yamabhethri e-lithium anamandla aphezulu, uxhumano lwe-series-parallel, futhi i-voltage yayo ye-DC iphezulu kakhulu, ingxenye ifika ku-1500 volts.
Ama-resistors afanele isicelo esinjalo
★ Aluminium Resistor Series
★ High Voltage Resistors Series
★ Cement Resistor Series
Ama-resistors ngokuvamile abizwa ngokuthi ama-resistors angaphambi kokushaja, ama-resistors wokushaja, ama-resistors akhiphayo, ama-resistors okuvimbela, njalonjalo.
Izidingo ze-Resistor
Isikhathi esifushane umthelela omkhulu, amandla aphezulu.
Isikhathi sokuthumela: Aug-18-2023