作者:连增增
页数:185
出版社:中国矿业大学出版社
出版日期:2023
ISBN:9787564647384
电子书格式:pdf/epub/txt
内容简介
交通隧道在施工过程中,为了保证地面人员、建筑物和其他基础设施的安全,密集监控已成为越来越普遍的做法。在这些监视工作中,环境温度变化给建筑物安全监测带来了极大的影响。从而导致,监测数据中不仅包含了由于地下隧道施工对地表建筑物的影响,还包含了由于环境温度变化而产生的建筑物自身形变。在本书中,详细讨论了交通隧道施工过程中环境温度对城市建筑物监控的影响,同时,为了表征并最终纠正“环境变量”的上述影响,对其进行了计算机仿真模拟温度变化时建筑物的运动情况,并证明了环境温度变化在交通隧道实施过程中不能忽略热对结构变形监测的影响。
目录
1 Introduction
1.1 Motivations
1.2 Objectives
1.3 Work outline
2 Structure health monitoring in urban areas-state of the art and current practice
2.1 Structure health monitoring methods in civil engineering
2.2 Environmental factors to be considered in SHM
2.3 Current practice in building monitoring during underground works
3 Modeling the behavior of buildings and monitoring systems when subjected to thermal effects
3.1 Conceptual model
3.2 Implementation of the conceptual model
3.3 Modeling the movements of building subjected to external actions
3.4 Least square adjustment by indirect observation equations
4 Experimental work test area Campus Nord UPC
4.1 Area selection process
4.2 Overall design of the systems and sensors
4.3 Systems and sensors installation
4.4 Data acquisition processes
4.5 Data continuity/availability of final filtered data
5 Matching the model with real world results
5.1 Sensitivity analysis
5.2 Real monitoring results obtained with the standard system in the Campus Nord test area
5.3 Numerical simulation of the standard monitoring system-approach D
5.4 Comparing the real monitoring results with the simulated ones (approach D)
6 Formulation of the strategy to consider thermal effects in building monitoring
6.1 Introduction
6.2 Approach B
6.3 Approach K
6.4 Overview
7 Conclusions and future work
7.1 Conclusions
7.2 Future work
References
1.1 Motivations
1.2 Objectives
1.3 Work outline
2 Structure health monitoring in urban areas-state of the art and current practice
2.1 Structure health monitoring methods in civil engineering
2.2 Environmental factors to be considered in SHM
2.3 Current practice in building monitoring during underground works
3 Modeling the behavior of buildings and monitoring systems when subjected to thermal effects
3.1 Conceptual model
3.2 Implementation of the conceptual model
3.3 Modeling the movements of building subjected to external actions
3.4 Least square adjustment by indirect observation equations
4 Experimental work test area Campus Nord UPC
4.1 Area selection process
4.2 Overall design of the systems and sensors
4.3 Systems and sensors installation
4.4 Data acquisition processes
4.5 Data continuity/availability of final filtered data
5 Matching the model with real world results
5.1 Sensitivity analysis
5.2 Real monitoring results obtained with the standard system in the Campus Nord test area
5.3 Numerical simulation of the standard monitoring system-approach D
5.4 Comparing the real monitoring results with the simulated ones (approach D)
6 Formulation of the strategy to consider thermal effects in building monitoring
6.1 Introduction
6.2 Approach B
6.3 Approach K
6.4 Overview
7 Conclusions and future work
7.1 Conclusions
7.2 Future work
References
