能源是發展國民經濟和改善人生活的物質基礎,節約實施效果 是否落實, 對我國整體節能政策成效的影響甚鉅。校園設計內容廣泛是否落實, 對我國整體節能政策成效的影響甚鉅。校園設計內容廣泛是否落實, 對我國整體節能政策成效的影響甚鉅。校園設計內容廣泛是否落實, 對我國整體節能政策成效的影響甚鉅。校園設計內容廣泛是否落實, 對我國整體節能政策成效的影響甚鉅。校園設計內容廣泛是否落實, 對我國整體節能政策成效的影響甚鉅。校園設計內容廣泛是否落實, 對我國整體節能政策成效的影響甚鉅。校園設計內容廣泛是個非常複雜的控制系統,並且涉及有限資源分配本研究將學校視為一個整體,對於各種能源分配、建築節改善等進行系統析評估校園節能設計的替選方案,以改善校內生態環境減少二氧化碳提高校園的能源使用並增加經濟效益等節目標。本研究首先依據約設計的原理,利用系統工程及多目標規劃技術闡明校園再生能源使效益、太陽能發電熱水系統改善建築節等因子之間的關係,建構多目標規劃模式,並以朝陽科技大學為例進行實證研究利用二階 段模糊運算法,尋求一組永續校園節能設計的非劣解說明本式作以供設計者參考。本研究所建立之「永續校園能源結構系統多目標規劃模式」的數學模型,使得設計過程及結果更加科、合理有效率。
Energy being the material basis of human activities is fundamental to the national economy development and to the people''s needs in everyday life and to build a better life. Whether the implementation of energy conservation and renewable energy technologies and their effects are practical or not, the role of national energy policy and its overall effectiveness are greatly affected in this country.Campus energy-saving design involves a wide range of energy-reducing initiatives across all levels of campus operations and as a whole is a very complex control system with unavoidable resource allocation problems.In this study, treating the campus as a whole, a variety of energy distributions, building energy efficiency improvements, and interrelated issues are examined with System Analysis technique and evaluated campus energy-saving design alternatives for improving the campus'' ecological environment, reducing carbon dioxide emission, improving campus energy efficiency, and increasing economic benefit and other energy-saving objectives.The research, based on the principle of energy control design, utilizes System Analysis and Multi-objective Programming modeling to expound the efficient uses and benefits of renewable energy, solar power, solar water heating system, building energy conservation and other factors on campus, and their relationships between and among the factors, to further construct multi-objective programming model.A case study of Chaoyang University of Technology is followed for conducting empirical researches. Two-stage Fuzzy Algorithms are used to search for non-inferior solutions for a set of sustainable energy-saving designs of campus. How to the operate model is explained for the designers who would like to use it.In this study the mathematical model "Multi-objective Programming Model for Sustainable Energy Structure Systems of Campus" was formulated to contribute to the processes of designing and of producing results more scientific, reasonable and efficient.