BIPV(Building integrated photovoltaic)是一種裝設太陽能板的新思維，BIPV也就是將太陽能板與建築物做一個新的整合，將太陽能板視為建材與建築物結合變成一體。如此一來，說穿了也就是將玻璃去取代一般建材而產生了一個顯少人提的熱效應，淡水八里陽光電城就是一個很好的例子。故本研究就是在探討BIPV的建築藉由光電板的改良再針對熱效應去做一個分析，盼可以將BIPV的負面狀態降至最低。
本研究就是針對E2大樓樓頂以建構的BIPV節能屋進行試驗，其中包含另一棟做為試驗對照的一般屋。節能屋所採用的太陽能板為台灣科技大學營建系楊錦懷教授所研發的太陽能節能玻璃，並將它裝設在立面窗戶與採光天窗；而一般屋則是使用一般10mm透明玻璃。研究進行了節能屋節能效率試驗與節能屋電力監測試驗。並且在研究中發現，太陽能節能玻璃能夠在夏季密閉試驗中與一般屋相差10度以上的溫差，而在通風環境下太陽能節能玻璃更能展現舒適性。於冬季暖氣試驗以及夏季的冷氣試驗中，均證明本身具有一定的保暖及保冷效果。在電力監測試驗中，進行了長達五個月的現地監測，所獲得的數據也藉由斜面與立面的光電板設置方式，找出設置角度與季節的相互關係。

Recent years, solar energy has been used widely. This not only shows human realize the important of saving energy, but also symbolizes human enter the beginning of low carbon energy. In the meanwhile the artificial electric power damages the environment violently will get into history. Relatively, we must understand more about solar energy. Take Taiwan for example, it is an island country, and its land is precious bur rare; especially, cities, stood many tall buildings are worth a gold. If we want to install the solar panels, then we need to have a cautious project of installing it. After all, the price of solar panel is higher than others. Therefore, the idea of BIBV is getting expanding, and to be a new thought of installing the solar panels. BIBV just puts solar panel into buildings to make a different integration, and connect building materials with buildings to be one.
This research is aimed at the BIBV green house to make an experiment on our school top of building, National Taiwan University technology of Science. Among the experiment, including another general house is to be contrasted with the green house. Green house uses the solar panel, which is invited by professor Young of National Taiwan University technology of Science, and installs it on vertical windows and skylight. Instead, the general house uses original 10 mm glasses. The research tests the efficiency of saving energy and power monitoring on green house. In the research, founded that solar panel in summer airtight test can have more 10 degrees than the general house. Besides, in good ventilation environment, solar panel can show good comforts. In winter heating test and summer cool air test, all of them prove solar panel has good efficiency of keeping warm and cold. In addition, in power monitoring test, have more than 5 months terrain monitoring. And the data is also depended on the setting way of solar panel in ramp and vertical. Moreover, find the interrelation between setting angle and season.

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