| Summary: | 碩士 === 國立臺灣科技大學 === 建築系 === 97 === It is well known that emission of the greenhouse gases lead to greenhouse effect, which is the most important factor of the global warming phenomenon.And carbon dioxide has contributed 55 percent proportion of the huge impact of greenhouse gases which caused global warming.
Due to the result of human activities, carbon dioxide, mainly from the combustion of oil, coal, these kinds of petrochemical raw materials, and architecture which relies on energy-driven is the main industry which caused the emissions of it. In view of this, this study was to set up a building strategy of low-carbon emission for life-cycle phases of the construction process of the carbon dioxide output, and apply this strategy to demonstrate the operation of the case.We expect to use this research as a reference for construction planning, designing, promotion of sustainable building concepts, and help the environmental protection efforts.
The relationship between Architecture and carbon dioxide emissions could be analyzed from environmental (non-construction) part and building part. And building Part can also be subdivided into energy, water and material these three areas, to go to the bottom of the carbon dioxide output. With the limitation of the time and resource constraints, the scope of this study will only talk about the carbon reducing strategy for the "substance" part of the construction.
To carry out this study with the main contents are as follows:
�P Chapter II collects, aggregates the literatures and practical cases relating to low carbon dioxide emission strategy, and analysis, summarized in a feasible way to reduce carbon, as a basis for follow-up operation.
�P Chapter III divides the life cycle of the construction area into "materials capturing to construction", "repair and removal" and "recycling and disposal" three phase process, and put forward: 1. The application of information assessment tools, 2. Materials re-using, 3. Reducing, 4. Zero-pollution for emissions and materials, 5. Maintenance and removal information providing, 6. Re-using, 7. Detachable node, 8. Warranty, 9. Durability, 10. Zero-pollution for consumables maintenance, 11. Circulation and disposal system collocating, 12. Recycling, 13. Zero-pollution for recycle and waste material, with a total of 13 building strategy for low carbon dioxide emissions, and we will state each of them with the theoretical basis and application.
�P Chapter IV applies this low carbon dioxide emissions strategy for the architectural structure, and carries out the operation of a model case, also analyzing and reviewing the overall designed results of it.
Constitutive method and the materials for use are extremely diversified, and with the advancing technology today, modern architecture becomes increasingly large and complex.Therefore, if we can use information technology to develop the carbon dioxide evaluation of the various construction methods for the construction life cycle, also to build a more comprehensive supervision and building materials resume system. It will be more comprehensive to reduce the production of carbon dioxide from the construction life cycle for constructing a full range of Green buildings.
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