Iinkqubo zeSolar kunye ne-Wind Off-Grid Iibhetri ezisetyenziselwa ukugcina amandla elanga nawomoya ngoku ubukhulu becala ziibhetri ezineasidi yelothe. Ubomi obufutshane kunye nenani lomjikelo ophantsi weebhetri ze-lead-asidi ziyenza ibe ngumviwa obuthathaka wokusingqongileyo kunye neendleko-zobuchule. Iibhetri ze-Lithium-Ion zivumela ukuxhobisa izikhululo zamandla elanga okanye zomoya "off-grid", zithathela indawo iibhanki zelifa leebhetri ze-lead-acid. Ukugcinwa kwamandla e-Off-Grid kube nzima ukuza kuthi ga ngoku. Siyile i-Off-Grid Series ngokulula engqondweni. Iyunithi nganye ine-inverter eyakhelwe-ngaphakathi, isilawuli sentlawulo, kunye nenkqubo yokulawula ibhetri. Ngayo yonke into epakishwe kunye, ukuseta kulula njengokudibanisa i-DC kunye/okanye amandla e-AC kwinkqubo yakho yamandla ye-BSLBATT Off-Grid. Kucetyiswa umntu osebenza ngombane oqeqeshiweyo. Kodwa kutheni uzikhathaza ngokusebenzisa iibhetri zeLithium-Ion ukuba zibiza kakhulu kwaye zinzima? Kwiminyaka emihlanu edlulileyo, iibhetri ze-lithium-ion zaziqala ukusetyenziswa kwiinkqubo ezinkulu zelanga, kodwa sele zisetyenziselwa iinkqubo zelanga eziphathwayo kunye neziphathwa ngesandla iminyaka. Ngenxa yobuninzi bamandla abo aphuculweyo kunye nokuhamba lula, kuya kufuneka ucinge nzulu ukusebenzisa iibhetri ze-lithium-ion xa ucwangcisa inkqubo yamandla elanga ephathwayo. Nangona iibhetri ze-Li-ion zineenzuzo zazo kwiiprojekthi ezincinci, eziphathekayo zelanga, ndinokuthandabuza ukuzicebisa kuzo zonke iinkqubo ezinkulu. Uninzi lwabalawuli bentlawulo ye-grid kunye ne-inverters kwiimarike namhlanje zenzelwe iibhetri ze-lead-acid, oku kuthetha ukuba iindawo ezakhelwe ngaphakathi kwizixhobo zokukhusela azilungiselelwe iibhetri ze-lithium-ion. Ukusebenzisa ezi elektroniki ngebhetri ye-lithium-ion kuya kubangela iingxaki zonxibelelwano kunye neNkqubo yoLawulo lweBattery (BMS) ekhusela ibhetri. Oko kuthethwa, sele kukho abavelisi abathile abathengisa abalawuli bentlawulo kwiibhetri ze-Li-ion kwaye elo nani linokuthi likhule kwixesha elizayo. Izibonelelo : ● Ubomi bonke (inani lemijikelo) ngaphezu kweebhetri ze-lead-asidi (ngaphezu kwe-1500 imijikelo kuma-90% ubunzulu bokukhupha) ● Unyawo kunye nobunzima ngamaxesha angama-2-3 ngaphantsi kune-lead-acid ● Akukho londolozo lufunekayo ● Ukuhambelana nezixhobo ezifakiweyo (izilawuli zentlawulo, ii-AC converters, njl.) ngokusebenzisa i-BMS ephezulu ● Izisombululo eziluhlaza (iikhemistri ezingezizo ityhefu, iibhetri ezinokuphinda zisetyenziswe) Sinikezela ngezisombululo eziguquguqukayo kunye nemodyuli ukuhlangabezana nazo zonke iintlobo zezicelo (i-voltage, umthamo, ubukhulu). Ukuphunyezwa kwezi bhetri kulula kwaye kuyakhawuleza, kunye nokuhla ngokuthe ngqo kweebhanki zelifa lelifa. ISICELO: I-BSLBATT® inkqubo yeSolar kunye ne-Wind off-grid systems
Ngaba iibhetri zeLithium zinexabiso eliphantsi kuneLead-Acid? Iibhetri zeLithium-Ion zinokuba neendleko eziphezulu ngaphambili, kodwa ixabiso lexesha elide lobunini linokuba ngaphantsi kunezinye iindidi zebhetri. Iindleko zokuQala ngokoMmandla weBetri nganye Iindleko zokuQala ngokoMmandla weBetri nganye ibandakanya: ●Iindleko zokuqala zebhetri ●Umthamo opheleleyo kwireyithingi yeeyure ezingama-20 ●Ipakethe ye-Li-ion ibandakanya i-BMS okanye i-PCM kunye nezinye izixhobo ngoko inokuthelekiswa ngokufanelekileyo neebhetri ze-lead-acid. ●I-Li-ion 2nd Life ithatha ukusebenzisa iibhetri ze-EV ezindala Iindleko zoBomi zizonke Igrafu yeTotal Lifecycle Cost idibanisa iinkcukacha kule grafu ingentla kodwa ikwabandakanya: ● Ubunzulu obumele ukukhutshwa (DOD) ngokusekelwe kubalo lomjikelo olunikiweyo ●Ukusebenza kakuhle kohambo lokuya nokubuya ngexesha lomjikelo ●Inani lemijikelezo lide lifikelele ekupheleni komgangatho wobomi be-80% State of Health (SOH) ●Kwi-Li-ion, i-2nd Life, imijikelezo ye-1,000 yayicingelwa de ibhetri iye yahlala phantsi. Yonke idatha esetyenzisiweyo kwiigrafu ezimbini apha ngasentla isebenzise iinkcukacha ezichanekileyo ezivela kubameli beenkcukacha zedatha kunye nexabiso lemarike. Ndikhetha ukungadwelisi abavelisi bokwenene kwaye endaweni yoko ndisebenzise imveliso ephakathi kwicandelo ngalinye. Iindleko zokuqala zeebhetri zeLithium zinokuba phezulu, kodwa iindleko zomjikelo wobomi ziphantsi. Kuxhomekeke ukuba yeyiphi igrafu oyijongayo kuqala, ungafikelela kwizigqibo ezohlukileyo kakhulu malunga nokuba yeyiphi iteknoloji yebhetri eyonga kakhulu. Iindleko zokuqala zebhetri zibalulekile xa uhlahlo lwabiwo-mali lwenkqubo, kodwa inokuthi ingabonakali ukuba igxininise kuphela ukugcina ixabiso lokuqala liphantsi xa ibhetri ebiza kakhulu inokugcina imali (okanye ingxaki) ekuhambeni kwexesha. I-Lithium Iron vs. Iibhetri zeAGM zeSolar Undoqo xa uqwalasela phakathi kwentsimbi ye-lithium kunye nebhetri ye-AGM yokugcina ilanga lakho liza kuhla kwixabiso lokuthenga. I-AGM kunye neebhetri ze-lead-asidi yindlela yokugcina umbane ozanyiweyo kunye noyinyani oza kwiqhekeza lexabiso le-lithium. Nangona kunjalo, oku kungenxa yokuba iibhetri ze-lithium-ion zihlala ixesha elide, zineeyure ze-amp ezisebenzisekayo ngakumbi (iibhetri ze-AGM zinokusebenzisa kuphela malunga ne-50% yomthamo webhetri), kwaye zisebenza ngakumbi, zikhuselekile, kwaye zikhaphukhaphu kuneebhetri zeAGM. Enkosi kubomi obude, iibhetri ze-lithium ezisetyenziswa rhoqo ziyakukhokelela kwixabiso eliphantsi ngomjikelo ngamnye kuneebhetri ezininzi zeAGM. Ezinye zeendawo eziphezulu zomgca weebhetri ze-lithium zineziqinisekiso ezide njenge-10 iminyaka okanye i-6000 imijikelezo. Ubungakanani bebhetri yeSolar Ubungakanani bebhetri yakho buhambelana ngqo nobungakanani bamandla elanga onokuwagcina kwaye uwasebenzise ubusuku bonke okanye imini enamafu. Ngezantsi, unokubona ezinye zeebhetri zelanga eziqhelekileyo esizifakayo kunye noko zingasetyenziselwa amandla. ●5.12 kWh – Isikhenkcisi + Izibane zokucima kombane ixesha elifutshane (ukususwa komthwalo kumakhaya amancinci) ●10.24 kWh – Ifriji + Izibane + Ezinye iziXhobo (ukutshintsha umthwalo kumakhaya aphakathi) ●I-18.5 kWh – Ifriji + Izibane + Ezinye iziXhobo + Ukusetyenziswa kwe-HVAC yokukhanya (ukutshintsha umthwalo kumakhaya amakhulu) ●37 kWh – Amakhaya amakhulu afuna ukusebenza njengesiqhelo ngexesha lokucima kwegridi (umthwalo wokutshintsha kumakhaya e-xl) BSLBATT Lithiumyi-100% yemodyuli, i-19 intshi yenkqubo yebhetri yeLithium-Ion. Inkqubo edibeneyo ye-BSLBATT®: le teknoloji ifakela ubukrelekrele be-BSLBATT obubonelela ngemodyuli engakholelekiyo kunye ne-scalability kwinkqubo: I-BSLBATT inokulawula i-ESS encinci njenge-2.5kWh-48V, kodwa inokunyuka ngokulula ukuya kwi-ESS enkulu ngaphezu kwe-1MWh-1000V. I-BSLBATT Lithium inikezela ngoluhlu lwe-12V, i-24V, kunye ne-48V ye-Lithium-Ion yebhetri yepakethe ukuhlangabezana noninzi lweemfuno zabathengi bethu. Ibhetri ye-BSLBATT® inikezela ngezinga eliphezulu lokhuseleko kunye nokusebenza ngokubonga ekusebenziseni isizukulwana esitsha se-lithium iron phosphate Square aluminium shell cell, elawulwa yinkqubo ye-BMS edibeneyo. I-BSLBATT® inokuhlanganiswa kwiichungechunge (i-4S ephezulu) kunye ne-parallel (ukuya kwi-16P) ukwandisa amandla okusebenza kunye namandla agcinwe. Njengoko iinkqubo zebhetri ziqhubeka nokuqhubela phambili, siya kubona abantu abaninzi basebenzisa obu buchwepheshe kwaye silindele ukubona imarike iphucula kwaye ikhulile, njengoko sibonile nge-photovoltaic solar kwiminyaka eyi-10 edlulileyo.
Ixesha lokuposa: May-08-2024