生态建筑表皮与光伏建筑一体化研究
发布时间:2018-12-11 11:12
【摘要】:从世界建筑发展的历史长河中我们可以发现一种规律。技术的发展和人文的进步对建筑的影响极其深刻,尤其是技术的更新换代,直接的推动建筑行业的进步。科学技术的发展方向,以及人类的需求已经成为建筑行业发展的风向标。现在,更多的环境和能源问题涌现主来,使得生态、绿色、环保这些词汇充满了我们的生活中的各个角落,也将可持续发展的理念植入到了各个行业中,而作为人们生产生活所必须的建筑业,则首当其冲的被摆在了首要地位。对传统建筑行业带来了新的挑战与机遇。 本文通过对各种生态表皮的介绍和与传统建筑表皮的比较,探索出了适合当代建筑设计的生态表皮策略。在地球环境遭到严重破坏,资源接近枯竭,各国又高度重视经济发展的今天,太阳能光伏建筑一体化成为建筑行业为数不多的可行之路之一,它兼顾了节能、环保、美观、适用等特点,,值得广大建筑行业从业人员深入研究和广泛推广。
[Abstract]:From the history of the development of architecture in the world, we can find a kind of law. The development of technology and the progress of humanities have a profound impact on architecture, especially the upgrading of technology, which directly promotes the progress of the construction industry. The development direction of science and technology, as well as the needs of human beings, has become the vane of the development of the construction industry. Now, more environmental and energy issues are emerging, so that the vocabulary of ecology, green and environmental protection is filled with every corner of our lives, and the concept of sustainable development is embedded in every industry. The construction industry, which is necessary for people's production and life, is the first to be placed in the primary position. It brings new challenges and opportunities to the traditional construction industry. Through the introduction of various ecological epidermis and the comparison with the traditional architectural epidermis, this paper explores the ecological epidermis strategy suitable for contemporary architectural design. Today, when the earth's environment is seriously damaged, resources are nearly exhausted and countries attach great importance to economic development, the integration of solar photovoltaic buildings has become one of the few feasible ways in the construction industry, which takes into account energy conservation, environmental protection, and beauty. Applicable and other characteristics, worthy of extensive construction industry practitioners in-depth research and extensive promotion.
【学位授予单位】:河北工程大学
【学位级别】:硕士
【学位授予年份】:2014
【分类号】:TU201.5;TU18
本文编号:2372436
[Abstract]:From the history of the development of architecture in the world, we can find a kind of law. The development of technology and the progress of humanities have a profound impact on architecture, especially the upgrading of technology, which directly promotes the progress of the construction industry. The development direction of science and technology, as well as the needs of human beings, has become the vane of the development of the construction industry. Now, more environmental and energy issues are emerging, so that the vocabulary of ecology, green and environmental protection is filled with every corner of our lives, and the concept of sustainable development is embedded in every industry. The construction industry, which is necessary for people's production and life, is the first to be placed in the primary position. It brings new challenges and opportunities to the traditional construction industry. Through the introduction of various ecological epidermis and the comparison with the traditional architectural epidermis, this paper explores the ecological epidermis strategy suitable for contemporary architectural design. Today, when the earth's environment is seriously damaged, resources are nearly exhausted and countries attach great importance to economic development, the integration of solar photovoltaic buildings has become one of the few feasible ways in the construction industry, which takes into account energy conservation, environmental protection, and beauty. Applicable and other characteristics, worthy of extensive construction industry practitioners in-depth research and extensive promotion.
【学位授予单位】:河北工程大学
【学位级别】:硕士
【学位授予年份】:2014
【分类号】:TU201.5;TU18
【参考文献】
相关期刊论文 前10条
1 董密;罗安;;光伏并网发电系统中逆变器的设计与控制方法[J];电力系统自动化;2006年20期
2 李芳;沈辉;许家瑞;陈维;;光伏建筑一体化的现状与发展[J];电源技术;2007年08期
3 孙颖;;太阳能光伏建筑一体化及其应用研究[J];建筑节能;2009年12期
4 胡子_g,谢士涛;几种新型建筑幕墙的设计与应用[J];广东土木与建筑;2002年03期
5 郭永庆;玻璃幕墙设计浅析[J];黑龙江水利科技;2002年01期
6 汪铮,李保峰,白雪;可呼吸的表皮——积极适应气候的“双层皮”幕墙解析[J];华中建筑;2002年01期
7 高辉,何泉;太阳能利用与建筑的一体化设计[J];华中建筑;2004年01期
8 张雯,张三明;建筑遮阳与节能[J];华中建筑;2004年05期
9 云端;;国外太阳能利用情况[J];建筑;2008年05期
10 肖潇;李德英;;太阳能光伏建筑一体化应用现状及发展趋势[J];节能;2010年02期
相关博士学位论文 前2条
1 李宪莉;太阳能热风采暖系统与村镇建筑一体化研究[D];天津大学;2010年
2 梁境;大型公共建筑节能运行监管模式的研究[D];重庆大学;2009年
本文编号:2372436
本文链接:https://www.wllwen.com/guanlilunwen/chengjian/2372436.html
