太阳能学报
太暘能學報
태양능학보
ACTA ENERGIAE SOLARIS SINICA
2010年
4期
447-453
,共7页
秦红%沈辉%张仁元%史保新%梁振南%陈维%邓晨冕
秦紅%瀋輝%張仁元%史保新%樑振南%陳維%鄧晨冕
진홍%침휘%장인원%사보신%량진남%진유%산신면
太阳电池%蓄冷降温式太阳电池组件%转换效率%电能输出特性%冷却%温度
太暘電池%蓄冷降溫式太暘電池組件%轉換效率%電能輸齣特性%冷卻%溫度
태양전지%축랭강온식태양전지조건%전환효솔%전능수출특성%냉각%온도
solar cell%solar PV module with cool-storage mode%conversion efficiency%power output characteristics%cooling%temperature
根据太阳电池温度特性,研究通过工程热物理途径来提高太阳电池光电转换效率的方法,开发出新型蓄冷降温式太阳电池组件,利用夜间大气自然冷量吸收太阳电池热量,降低其工作温度.室外试验于07年10月~08年11月在广州地区进行,测试分析了该组件及对照组平板式太阳电池组件的温度-电能输出及转换效率特性.结果表明:与平板式组件相比,蓄冷降温式太阳电池组件工作温度大大降低,效率相应提高.蓄冷降温式组件最大温降达26.5℃,瞬时电能输出相对提高18%,全天电能输出增长14%以上.
根據太暘電池溫度特性,研究通過工程熱物理途徑來提高太暘電池光電轉換效率的方法,開髮齣新型蓄冷降溫式太暘電池組件,利用夜間大氣自然冷量吸收太暘電池熱量,降低其工作溫度.室外試驗于07年10月~08年11月在廣州地區進行,測試分析瞭該組件及對照組平闆式太暘電池組件的溫度-電能輸齣及轉換效率特性.結果錶明:與平闆式組件相比,蓄冷降溫式太暘電池組件工作溫度大大降低,效率相應提高.蓄冷降溫式組件最大溫降達26.5℃,瞬時電能輸齣相對提高18%,全天電能輸齣增長14%以上.
근거태양전지온도특성,연구통과공정열물리도경래제고태양전지광전전환효솔적방법,개발출신형축랭강온식태양전지조건,이용야간대기자연랭량흡수태양전지열량,강저기공작온도.실외시험우07년10월~08년11월재엄주지구진행,측시분석료해조건급대조조평판식태양전지조건적온도-전능수출급전환효솔특성.결과표명:여평판식조건상비,축랭강온식태양전지조건공작온도대대강저,효솔상응제고.축랭강온식조건최대온강체26.5℃,순시전능수출상대제고18%,전천전능수출증장14%이상.
Solar PV module with cool-storage mode, a new type of photovoltaic module integrated a cool storage tank was developed for improving the conversion efficiency of solar cell by engineering thermophysics ways. Outdoor experiments were done from Oct., 2007 to Nov., 2008, and the characteristics of temperature, power output and conversion efficiency of the PV modular were measured and analyzed. The results show that operating temperature of the solar PV module with cool-storage mode has been greatly reduced, and the effciency has a corresponding increases. Comparing with the flat solar PV module, the maximum temperature drop of solar PV module with cool-storage mode is up to 26.5℃, instantaneous power output raises 18% relatively as well as the daily power output increases more than 14%.
