Research|Algae Facade System
綠藻皮層系統
2021.2-6
節能建築立面應用研究。
Research on the application of energy-saving building facades.
與成功大學微藻固碳科技合作,設計建築立面可組裝之循環單元模組,透過綠藻生態水循環,能有效降低室內外溫度差,並在固碳環保的同時提供更佳的室內空氣品質。在環境數據感測器的監控之下,隨周圍空氣品質調整循環速度,達到生態平衡與環境共生。
Algae skin systems is the ecological filtration system mounted on the building facade. The glass pipes filled with flowing algae and water are a vertical algae wall to reduce indoor pollutants and carbon dioxide through photosynthesis.
With indoor and outdoor environmental sensors and their collected data, the AIOS (integrated with three subprojects) will control the direction of outer dynamic shades to filter sunlight for photosynthetic optimization. Algae skin becomes the responsive sentient interface for mediating space and surroundings.
一、初期發展:結合水耕植物、綠藻循環和魚菜共生作為一個系統。
1. Initial development: Combining hydroponic plants, green algae cycle and fish-vegetable symbiosis as a system.
立面的開合隨陽光角度自動調整。
The opening and closing of the facade is automatically adjusted with the angle of sunlight.
綠藻皮層系統
2021.2-6
節能建築立面應用研究。
Research on the application of energy-saving building facades.
與成功大學微藻固碳科技合作,設計建築立面可組裝之循環單元模組,透過綠藻生態水循環,能有效降低室內外溫度差,並在固碳環保的同時提供更佳的室內空氣品質。在環境數據感測器的監控之下,隨周圍空氣品質調整循環速度,達到生態平衡與環境共生。
Algae skin systems is the ecological filtration system mounted on the building facade. The glass pipes filled with flowing algae and water are a vertical algae wall to reduce indoor pollutants and carbon dioxide through photosynthesis.
With indoor and outdoor environmental sensors and their collected data, the AIOS (integrated with three subprojects) will control the direction of outer dynamic shades to filter sunlight for photosynthetic optimization. Algae skin becomes the responsive sentient interface for mediating space and surroundings.
一、初期發展:結合水耕植物、綠藻循環和魚菜共生作為一個系統。
1. Initial development: Combining hydroponic plants, green algae cycle and fish-vegetable symbiosis as a system.
立面的開合隨陽光角度自動調整。
The opening and closing of the facade is automatically adjusted with the angle of sunlight.
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二、實際單元化發展:選定一窗戶模矩,設計模組化單元立面。
2. Experimental development: the modularization of the facade of the design unit based on the window moment.
Algae modular facade unit design
Preliminary test
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三、原型模組單元修正,並在智能種子屋上應用,模擬真實建築可能的綠藻循環生態系統單元化。
3. Modification of the prototype module unit and application in the smart house to simulate the possible unitization of the green algae cycle ecosystem in the real building.
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Design simulation and construction details of the algae filtration system.
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©2020 BY HSIUNG I YAO
TungHai University Department of Architecture / Team Mixⁿ
TungHai University Department of Architecture / Team Mixⁿ