建筑节能
建築節能
건축절능
CONSTRUCTION CONSERVES ENERGY
2014年
4期
35-38,67
,共5页
陈江恩%孙杰%冯博%麦耀华
陳江恩%孫傑%馮博%麥耀華
진강은%손걸%풍박%맥요화
光伏建筑一体化%安装方式%光伏幕墙%光伏屋顶%彩钢瓦
光伏建築一體化%安裝方式%光伏幕牆%光伏屋頂%綵鋼瓦
광복건축일체화%안장방식%광복막장%광복옥정%채강와
building integrated photovoltaic%installation method%PV curtain wall%PV roof%color steel tile
作为分布式光伏发电的重要应用方式,光伏建筑一体化(BIPV)受到越来越多的重视,但是实现光伏组件和建筑的美观、可靠和低成本的结合仍是一个具有挑战性的难题。在一个获得财政部和住建部“光伏建筑一体化”资金资助的项目中实验了不同的BIPV组件安装方式,包括隐框光伏幕墙、彩钢瓦屋顶夹具安装、彩钢瓦屋顶黏接安装方式,其中采用粘贴的方式在彩钢瓦屋顶安装双玻组件为我们独创的施工方法,具有快捷、质轻、低成本和高可靠性等特点,而且不需要在彩钢瓦上打孔,避免漏水隐患。发电量结果表明,在干燥、多粉尘的季节,在立面安装的光伏组件的单位装机容量的发电量也可能大大高于安装于斜面屋顶的组件,说明光伏玻璃幕墙有着很大的发展前途。
作為分佈式光伏髮電的重要應用方式,光伏建築一體化(BIPV)受到越來越多的重視,但是實現光伏組件和建築的美觀、可靠和低成本的結閤仍是一箇具有挑戰性的難題。在一箇穫得財政部和住建部“光伏建築一體化”資金資助的項目中實驗瞭不同的BIPV組件安裝方式,包括隱框光伏幕牆、綵鋼瓦屋頂夾具安裝、綵鋼瓦屋頂黏接安裝方式,其中採用粘貼的方式在綵鋼瓦屋頂安裝雙玻組件為我們獨創的施工方法,具有快捷、質輕、低成本和高可靠性等特點,而且不需要在綵鋼瓦上打孔,避免漏水隱患。髮電量結果錶明,在榦燥、多粉塵的季節,在立麵安裝的光伏組件的單位裝機容量的髮電量也可能大大高于安裝于斜麵屋頂的組件,說明光伏玻璃幕牆有著很大的髮展前途。
작위분포식광복발전적중요응용방식,광복건축일체화(BIPV)수도월래월다적중시,단시실현광복조건화건축적미관、가고화저성본적결합잉시일개구유도전성적난제。재일개획득재정부화주건부“광복건축일체화”자금자조적항목중실험료불동적BIPV조건안장방식,포괄은광광복막장、채강와옥정협구안장、채강와옥정점접안장방식,기중채용점첩적방식재채강와옥정안장쌍파조건위아문독창적시공방법,구유쾌첩、질경、저성본화고가고성등특점,이차불수요재채강와상타공,피면루수은환。발전량결과표명,재간조、다분진적계절,재립면안장적광복조건적단위장궤용량적발전량야가능대대고우안장우사면옥정적조건,설명광복파리막장유착흔대적발전전도。
Building integrated photovoltaic (BIPV) as an important application of distributed photo-voltaic power generation, has being focused more and more, but it still faces challenges of achieving the aesthetics with PV modules, and combining of reliability and low cost. Various BIPV application methods are studied, and experimented in the project funded by Ministry of Finance and Ministry of Housing and Urban-Rural Development, including curtain wall hidden frame, color steel tile roof with clamps, and color steel tile roof bonding. The color steel tile roof bonding is our original one, characterized by fast installing, light weight, low cost and high reliability. More important, this method does not need holing the color steel tile to avoid leakage risk. Power generation results show, during the dry and dusty seasons, the power gen-eration of modules in facades may higher than slope-roof modules’.
