(NgoNovemba 3), iNkomfa yeGlobal Hard Technology Innovation ye-2023 yavulwa eXi'an.Kumsitho wokuvula, uthotho lweempumelelo ezinkulu zenzululwazi nezobuchwepheshe zakhululwa.Enye yazo yicrystalline silicon-perovskite tandem solar cell ephuhliswe ngokuzimeleyo ziinkampani zelizwe lam zephotovoltaic, eziye zaphula irekhodi lehlabathi kulo mmandla nge-photoelectric conversion performance ye-33.9%.
Ngokwesatifikethi samva nje esivela kwimibutho egunyazisiweyo yamazwe ngamazwe, ukusebenza kakuhle kwecrystalline silicon-perovskite iiseli ezipakishwe ngokuzimeleyo eziphuhliswe ziinkampani zaseTshayina zifikelele kwi-33.9%, zaphula irekhodi yangaphambili ye-33.7% ebekwe liqela lophando laseSaudi kwaye ibe yinkokeli yangoku yehlabathi kwi-stacked. ukusebenza kakuhle kweeseli zelanga.irekhodi eliphezulu.
U-Liu Jiang, ingcali yobuchwephesha kwi-LONGi Green Energy Central Research Institute:
Ngokubeka phezulu umaleko we-wide-bandgap perovskite material phezu kwe-crystalline silicon solar cell cell, ukusebenza kwayo komda wethiyori kunokufikelela ngakumbi kwi-43%.
Ukuphumelela kokuguqulwa kwe-Photoelectric sisalathisi esiphambili sokuvavanya amandla obuchwepheshe be-photovoltaic.Ukubeka ngokulula, ivumela iiseli zelanga zendawo enye kunye nokufunxa ukukhanya okufanayo ukukhupha umbane ongaphezulu.Ngokusekwe kumthamo we-photovoltaic wehlabathi osanda kufakwa we-240GW ngo-2022, nokunyuka kwe-0.01% kwimpumelelo kunokuvelisa umbane ongezelelweyo ozizigidi ezili-140 zeeyure zombane minyaka le.
Jiang Hua, usekela bhala-jikelele weChina Photovoltaic Industry Association:
Emva kokuba obu buchwepheshe bebhetri buphezulu buveliswe ngobuninzi, kuya kuba luncedo olukhulu ukukhuthaza ukukhula kwemarike ye-photovoltaic kwilizwe lam nakwihlabathi.
Ixesha lokuposa: Mar-06-2024