Energy Conservation Strategy About Roof Of The Gymnasium

In today’s society, energy shortage is a critical problem. Energy consumption inconstruction industry has always been tremendous. In China, the building energyconsumption accounts for more than27%of total energy consumption, and each year toa one percentage point rate of growth. High energy consumption, low energy-savingrate is the long-standing problems of the construction industry in our country. Thisproblem not only exists in the ordinary building, the large public building seems to bemore prominent. According to Academician Professor Jiangyi of Tsinghua Universitystatistics, in terms of the country, located in Beijing, Shanghai, Guangzhou, Shenzhenand other major cities of large public buildings total about500million square meters,consumed over30%of total electricity consumption on civil buildings. Gymnasiumbuildings as one kind of large public buildings, no doubt is in such a high energyconsumption level. If we take some appropriate energy conservation measures toimprove gymnasium buildings energy efficiency, will be very useful for the cause ofenergy conservation. Therefore, this article hopes to domestic and foreign theories andoutstanding cases related to the interpretation of analysis, combined with the author’sfield research data and design practice experience, summarize the design and technicalaspects of energy conservation policy the on Gymnasium roof, and thus the future of theGymnasium in energy-saving design has played some guidance and reference.This paper selects gymnasium roof as the research object, to take literature search,field research, simulation and practices involved in computer software and othermethods. First of all, we briefly study of the gymnasium roof, including the basiccharacteristics, component element, forms classified and so on. Secondly, we researchon domestic gymnasium roof as well as computer software simulation, analysisgymnasium roof on building energy consumption. Then we were from the perspectiveof design and technology, energy-efficient design principles proposed, influencingfactors and design methods, improving the thermal performance of the roof, improvingthe natural joints practices and use of these three aspects can be given a more detailedgymnasium roof energy-saving measures. Finally, we combine theory with practice,analysis of the relevant energy saving measures and actual results.