Amandla Okuqalisa Imoto Yezizukulwane Ezintathu
Iziqalisi zebhethri eziphathwayo, ezaziwa nangokuthi imithombo yamandla aqala imoto e-China, zibizwa nge-Jump Starters phesheya kwezilwandle.Eminyakeni yamuva nje, iNyakatho Melika, iYurophu, neChina seziphenduke izimakethe ezibalulekile zalesi sigaba. Imikhiqizo enjalo isiphenduke imikhiqizo yamandla omthengi anemvamisa ephezulu, kungaba kunkundla ye-Amazon eku-inthanethi e-United States noma i-Costco engaxhunyiwe ku-inthanethi.
Ukuduma kwe-Jump Starters kuhlobene eduze nenani elikhulu lezimoto emakethe yomhlaba kanye nezindleko eziphezulu zabasebenzi bezinsizakalo zokuhlenga izimoto. Isizukulwane sokuqala samandla okuqalisa imoto sakhiwe ngamabhethri e-lead-asidi, amakhulu futhi angalungile ukuwaphatha;ngaphezu kwalokho, isizukulwane sesibili samandla okuqalisa imoto sisebenzisa amabhethri e-lithium amandla sazalwa. Esizokwethula ngezansi wugesi wesizukulwane sesithathu osebenzisa ama-super capacitor.Uma kuqhathaniswa nezizukulwane ezimbili ezedlule zemikhiqizo, ingachazwa njengengcweti yobuchwepheshe obuningi, ikakhulukazi ukuphepha nokuphila isikhathi eside abathengi abakhathazeke ngakho kakhulu.
Ama-Supercapacitor we-Automotive Jump Start
Ama-Supercapacitorsziyigatsha lama-capacitor, aziwa nangokuthi ama-farad capacitors.Zinezici zokushaja okusheshayo nokukhipha ama-capacitor, futhi futhi zinezinzuzo zokumelana okuphansi kwangaphakathi, i-capacitance enkulu nokuphila isikhathi eside.Ngokuvamile zisetshenziselwa ukugcinwa kwamandla noma ukuvikela ukwehluleka kwamandla.
Ukusetshenziswa kwama-supercapacitor kuletha izinzuzo eziningi zobuchwepheshe nezomnotho zamandla okuqala ezimo eziphuthumayo zezimoto.
Ukuqala kokusheshisa ukumelana kwangaphakathi okuphansi kakhulu: ukumelana okuncane kwangaphakathi, okungahlangabezana nokukhishwa kwamandla amakhulu futhi kuthuthukise ububanzi bokufaka isicelo sokunikezwa kwamandla kumamodeli ahlukahlukene.
I-electrostatic energy storage mechanism inezinhlelo eziningi ezihlukene zokusebenza: umshini wokugcina amandla kagesi we-electrostatic wenza i-supercapacitor iqede ukushaja futhi ikhiphe phakathi nemizuzwana eyishumi, futhi isebenze ngokujwayelekile ebangeni lokushisa elibanzi elingu -40 kuya +65 °C, iqinisekisa ukuthi izinto zokuqalisa izimo eziphuthumayo zingasebenza ebangeni elibanzi lamazinga okushisa namazinga okushisa.Ukusetshenziswa kwendawo.
Impilo yomjikelezo omude kakhulu: Ama-Super capacitor anempilo yomjikelezo omude weminyaka engaphezu kwe-10 (izikhathi ezingama-50W) ezindaweni ezibucayi (-40℃~+65℃).
I-JYH HSU (JEC) yethule isisombululo sokuqalisa izimo eziphuthumayo zemoto esisekelwe emikhiqizweni ye-supercapacitor.Ama-Supercapacitor anokusebenza okuhle kokushisa okuphezulu nokuphansi, futhi angagcinwa isikhathi eside endaweni yokushisa ephezulu emotweni ngaphandle kwezinkinga zokuphepha.Uma kuqhathaniswa nezinga lokushisa elisebenzayo elingu-45°C lamabhethri e-lithium, ama-super capacitor anezinga lokushisa elibanzi lokusebenza, ngakho ungakhathazeki ngokuwafaka emotweni.
Futhi i-super capacitor ingagcinwa ku-voltage engu-zero, futhi ingashajwa ngokunikezwa kwamandla eselula noma amandla ebhethri asele ngesikhathi sokusetshenziswa, ngakho-ke asikho isidingo sokukhathazeka ngokuphepha.Ngenxa yokushaja okusheshayo nokukhipha izici zama-supercapacitor, angashajwa ngokugcwele emashumini amasekhondi ukuqalisa imoto.
Ngenxa yokwanda kokukhiqizwa kwezimoto, ama-supercapacitor azoba namandla amakhulu embonini.
Isikhathi sokuthumela: Oct-12-2022