上海节能
上海節能
상해절능
Shanghai Energy Conservation
2015年
8期
445-449
,共5页
乔虹桥%冯相赛%张海磊%唐寅彬%王翀%王训春%赵欣侃
喬虹橋%馮相賽%張海磊%唐寅彬%王翀%王訓春%趙訢侃
교홍교%풍상새%장해뢰%당인빈%왕충%왕훈춘%조흔간
通过对普通光伏组件与新型耐热斑组件的对比,分析研究了普通组件与耐热斑组件在有无阴影遮挡下的发电性能,结果表明:具有耐热斑芯片的组件在不影响组件系统发电频率的条件下,能够有效降低组件系统的工作温度,提高组件系统的输出电流,最终提高组件系统的输出功率。
通過對普通光伏組件與新型耐熱斑組件的對比,分析研究瞭普通組件與耐熱斑組件在有無陰影遮擋下的髮電性能,結果錶明:具有耐熱斑芯片的組件在不影響組件繫統髮電頻率的條件下,能夠有效降低組件繫統的工作溫度,提高組件繫統的輸齣電流,最終提高組件繫統的輸齣功率。
통과대보통광복조건여신형내열반조건적대비,분석연구료보통조건여내열반조건재유무음영차당하적발전성능,결과표명:구유내열반심편적조건재불영향조건계통발전빈솔적조건하,능구유효강저조건계통적공작온도,제고조건계통적수출전류,최종제고조건계통적수출공솔。
Through comparison between new type hot spot resistant component and common photovoltaic component, the article analyzes power generation performance of new type hot spot resistant component and common photovoltaic component with and without sun shadow. The results show that system with hot spot resistant component could reduce component working temperature and increase component system output current and improve component system output power under the condition of keeping system power generation frequence.
