2024, 16(3): 30-35. doi: 10.16670/j.cnki.cn11-5823/tu.2024.03.06
BIM技术在水厂数字化转型中的应用——以福田水质净化厂项目为例
中国市政工程中南设计研究总院有限公司,武汉 430010 |
The Application of BIM Technology in the Digital Transformation of Water Plants——Taking the Futian Water Purification Plant Project as An Example
China Municipal Engineering Zhongnan Design and Research Co., Ltd., Wuhan 430010, China |
引用本文:
齐维丽, 张辛平, 戴龙. BIM技术在水厂数字化转型中的应用——以福田水质净化厂项目为例[J]. 土木建筑工程信息技术,
2024, 16(3): 30-35.
doi: 10.16670/j.cnki.cn11-5823/tu.2024.03.06
Citation:
Weili Qi, Xinping Zhang, Long Dai. The Application of BIM Technology in the Digital Transformation of Water Plants——Taking the Futian Water Purification Plant Project as An Example[J]. Journal of Information Technologyin Civil Engineering and Architecture,
2024, 16(3): 30-35.
doi: 10.16670/j.cnki.cn11-5823/tu.2024.03.06
摘要:随着物联网、移动互联、大数据等技术的飞速发展与规模化应用,智能建造引领了新一轮的建造业革命。然而,工程项目建设领域仍存在着协同效率低、工程资料查找难、信息同步慢以及各方数据信息共享难等诸多问题,而BIM技术是在三维几何模型的基础上,以数字化形式实现工程数据的时间和空间的可视化管理,是解决目前工程项目管理的重要手段之一。本文以福田水质净化厂二期工程项目为例,阐述了BIM应用需求与组织框架,明确了BIM施工管理平台在工程项目全生命周期中的应用优势,分析了平台的基本功能,从BIM应用、进度、质量、安全、协同办公、智慧工地和图文管理等方面最终探索出净水厂数字化和信息化的优化解决方案,达到减少设计变更、缩短工期及提高施工效率的成效。
Abstract: Thanks to the rapid development and large-scale application of technologies e.g. the Internet of Things, mobile internet, and big data, intelligent construction has led a new round of construction industry revolution. However, in the field of engineering project construction, there are still many problems e.g. low collaboration efficiency, difficulty in searching engineering data, slow information synchronization, and difficulty in sharing data information among all parties etc. BIM technology, based on three-dimensional geometric models, realizes the visualization management of engineering data in time and space in digital form, which is a method to handle current engineering project management. Taking the second phase of the Futian Water Purification Plant project as an example, this paper elaborated on the application requirements and organizational framework of BIM, and clarified the application advantages of BIM construction management platform in the entire lifecycle of engineering projects. Moreover, a detailed analysis was conducted on the basic functions of the platform including BIM applications, progress, quality, safety, collaborative office, smart construction sites, and image and text management. What's more, the paper explored some optimization solutions for digitalization and informatization of water purification plants, which were found available in reducing design changes, shortening construction periods, and improving construction efficiency.
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