Kwihlabathi lanamhlanje, ukugcinwa kwamandla kuye kwaba yinto ebalulekileyo ebomini bethu. Ngokufika kwemithombo yamandla avuselelekayo njengamandla elanga kunye nomoya, imfuno yezisombululo ezisebenzayo zokugcina amandla ayizange ibaluleke ngakumbi. Kulapho ibhetri ye-TCS ingena khona, inikezela ngeyona ndlela iphambiliiinkqubo zokugcina amandlaeyilelwe ukubonelela ngogcino lwamandla olusebenzayo, oluthembekileyo noluneendleko ezifanelekileyo zokuhlala kunye nezakhiwo ezincinci zorhwebo.
Embindini weenkqubo zethu zokugcina amandla ziibhetri zethu ze-lithium-ion ezikumgangatho ophezulu. Iibhetri zeLithium-ion zaziwa ngokusebenza kwazo okugqwesileyo, ukuxinana kwamandla aphezulu, ukutshaja okukhawulezileyo, kunye nobomi bomjikelezo omde. Oku kuthetha ukuba iibhetri zethu zigcina kwaye zihambisa amandla ngokufanelekileyo, siqinisekisa ukuba usoloko unawo amandla owafunayo, xa uwafuna.
Kodwa ayipheleli apho. Iinkqubo zethu zokugcina amandla zikwadibanisa iinkqubo zolawulo lwebhetri oluphezulu (BMS). Ii-BMS zidlala indima ebalulekileyo ekuqinisekiseni ukusebenza ngokukhuselekileyo nokufanelekileyo kweebhetri ngokubeka iliso kunye nokulawula ukutshaja, ukukhupha kunye nobushushu bazo. Oku akugcini nje ukwandisa ubomi bebhetri, kodwa kuphucula ukhuseleko jikelele lwenkqubo.
Ukongeza kwiibhetri zethu ze-lithium-ion eziphezulu kunye ne-BMS ephezulu, iinkqubo zethu zokugcina amandla nazo zixhotyiswe ngee-inverters eziphezulu. Itekhnoloji ye-inverter esiyisebenzisayo inokuguqulwa okuphezulu kunye nokusebenza okuthembekileyo, ukuqinisekisa ukuba amandla agcinwe kwibhetri aguqulwa ngokufanelekileyo kwaye asetyenziswe xa kufuneka. Le ndibaniselwano yetekhnoloji ye-cutting-edge iqinisekisa iinkqubo zethu zokugcina amandla zihambisa ukusebenza okubalaseleyo kunye nokuthembeka.
Enye yezinto ezibalaseleyo kwiinkqubo zethu zokugcina amandla luyilo lwazo oluhlangeneyo. Siyazi ukuba indawo inokuba yinto ethintelayo kwiindawo ezininzi zokuhlala kunye nezakhiwo ezincinci zorhwebo. Yiyo loo nto sidibanise ugcino lwamandla, ulawulo lwebhetri kunye nobuchwepheshe be-inverter kwiphakheji enye. Le nkqubo ye-in-one ayigcini nje indawo, yenza lula inkqubo yokufakela, iyenze kube lula kwaye ingabizi kakhulu ukuhambisa izisombululo zethu zokugcina amandla.
Njengenkampani, iBattery ye-TCS ibiphambili kuphando lwebhetri kunye nophuhliso, imveliso kunye nokuthengisa ukusukela ekusekweni kwayo ngo-1995. Siyazingca ngokuba yenye yeebrendi zokuqala zebhetri eTshayina kwaye siyaqhubeka nokutyhala imida yobuchwepheshe bebhetri ukubonelela. abathengi bethu kunye nezisombululo ezintsha. Uluhlu lwethu olubanzi lwemveliso lubandakanya iibhetri zesithuthuthu, iibhetri ze-UPS, iibhetri zeemoto, iibhetri ze-lithium kunye neebhetri zemoto yombane.
Ngobuchule bethu kunye nokuzinikela kwethu kumgangatho, ibhetri ye-TCS ikwindawo entle ukuhlangabezana nemfuno ekhulayo yezisombululo zokugcina amandla. Inkqubo yethu yokugcina amandla asekhaya i-lithium yonke-kwi-one ibhetri BESS T5000P iquka umbono wethu wokubonelela ngokufanelekileyo, okuthembekileyo kunye nokugcinwa kwamandla okunendleko kwindawo yokuhlala kunye nezakhiwo ezincinci zorhwebo. Ngomgangatho ophezulu webhetri ye-lithium-ion, inkqubo yokulawula ibhetri ephezulu kunye ne-inverter ephezulu, sisisombululo esiphezulu kuye nabani na ojonge ukusebenzisa amandla avuselelekayo kunye nokugcina ukusetyenziswa kwamandla kujonge.
Ukuqukumbela, imfuno yezisombululo zokugcina amandla iyaqhubeka ikhula, iqhutywa kukwamkelwa kokunyuka kwamandla avuselelekayo. Ibhetri ye-TCS iphambili kule ntshukumo, inikezela ngeenkqubo zokugcina amandla ezinqamlekileyo ezidibanisa iibhetri ze-lithium-ion eziphezulu, iinkqubo zokulawula ibhetri eziphambili kunye ne-inverters ephezulu. Izisombululo zethu zonke-ezinye zenzelwe ukubonelela ngokufanelekileyo, okuthembekileyo kunye nokugcinwa kwamandla okuneendleko ezifanelekileyo zokuhlala kunye nezakhiwo ezincinci zorhwebo. Ngamava ethu abanzi kwishishini lebhetri kunye nokuzinikela ekuveliseni izinto ezintsha, ibhetri ye-TCS liqabane elithembekileyo lazo zonke iimfuno zakho zokugcina amandla.
Ixesha lokuposa: Jun-21-2023