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随着时代的不断发展,现阶段我国建筑行业的BIM技术发展的越来越高超,所以BIM技术在当前建筑结构设计中得到了更加广泛的应用,通过BIM技术不仅有效的提高了我国建筑结构设计水平,同时还使我国的建筑行业发展更上一层楼。文章主要从BIM技术在中国建筑设计中的发展现状出发,对BIM技术在我国建筑设计中发展的障碍进行深入分析,在分析的过程中阐述BIM技术与建筑设计文化融合的发展趋势。 相似文献
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近年来,国内外对BIM技术在建筑行业中的应用越来越重视,BIM已成为未来建筑行业技术的发展趋势。该文介绍了BIM技术的起源、标准和技术特点,分析了BIM技术的应用对建筑行业带来的变化,讨论了BIM技术在实际应用中存在的问题并提出对策。最后得出了BIM技术的应用需要建筑全行业一起参与,共同推进。 相似文献
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在建筑工程中应用BIM技术,可以为我国建筑行业的可持续发展提供帮助,基于此,文章对BIM技术进行了概述,介绍了BIM技术在建筑行业中的应用优势,并以某建筑工程项目为例探讨了建筑工程中BIM技术的应用,提出了BIM技术在建筑工程各个环节中的应用要点,包括建筑工程项目决策环节、设计环节、施工环节及竣工环节。 相似文献
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何善能 《中国建筑金属结构》2021,(3)
随着我国社会的经济水平的不断提高,BIM技术与装配式建造技术相融合,其应用水平在建筑行业得到很大的提升。本文对BIM技术的融合发展进行了研究,认为BIM技术与装配式建造技术融合发展可以有效地节能降耗,缩短工程工期,提升我国建筑行业的工业化水平,提高工程生产的效率,从而促进我国建筑行业的信息化发展。 相似文献
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BIM技术是兴起于建筑行业的新技术,它在建筑行业的施工中具有重要的应用价值,应该引起政府和建筑行业的充分重视。文章分析BIM技术在建筑施工中的应用价值,探讨了BIM技术在建筑施工中的实施步骤。 相似文献
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我国建筑行业迅猛发展的大背景下,建筑相关技术也在不断更新、升级,BIM信息技术是建筑行业广泛应用的一种技术。它能够为建筑设计方、施工方、业主方等多参与方提供可视化、动态性的设计模型,并通过模块分析对建筑设计缺陷进行审查检验,尽量降低建筑设计的问题发生概率,为建筑项目的有序建设提供技术保障。在建筑工程结构设计工作中应用BIM技术具有较好的前景,本文分析了建筑工程结构设计工作中BIM技术的具体应用,并就其不足进行了分析。 相似文献
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《Energy and Buildings》2004,36(9):925-931
Micro-generation is defined as a notion of simultaneous generation of both heat and power in an individual dwelling. It offers an elegant and economically viable way to meet the residential power/thermal loads and Kyoto targets by demonstrating superior environmental performance with high efficiency and low harmful greenhouse gas emissions. However, before introducing micro-generation systems in large quantities a number of issues should be resolved in terms of system integration, interconnect, reliability and safety.Two demonstration houses were built at the Canadian Centre for Housing Technology that have the capability of assessing different energy and building technologies under real-life conditions. A project was initiated involving a consortia of Canadian electric and gas utilities, Canadian Government agencies and Canadian fuel cell manufacturers to modify one of two existing research houses and to integrate a prototype micro-generation unit in it that would provide electricity and heat to the house, and supply surplus electricity back to the grid. The key research objectives were assessment of building integration, micro-generation system design issues and system performance characteristics. A Stirling engine micro-generation unit, fuelled by natural gas, was used for this demonstration. The unit had an electrical output of 736 We and a thermal output of 6.5 kWth. The Stirling engine was connected in parallel to the grid and the residual heat from the engine was utilized through a specifically designed heat utilization module.The paper discusses the micro-generation system performance in two different setups and scenarios that were tested over the 2003 winter/spring seasons. Data showed that the micro-generation unit was able to satisfy all of the space and water heating loads to the house during the testing period. The unit provided a considerable percentage of the house’s electrical requirement, and even exported, in a few instances, some electricity back to the grid. 相似文献
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L. Jankovic 《Building Research & Information》2013,41(5):261-262
An important message from the presented results is that neither of the systems is better or worse. The suitability of gas and electric heating depends on the circumstances where these systems are applied. Both electricity and gas have advantages and disadvantages, which are listed, and are most sensibly used only when working together 相似文献
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