Structural Resilience in Sewer Reconstruction
From Theory to Practice
- 1st Edition - August 17, 2017
- Authors: Zihai Shi, Shizuo Watanabe, Kenichi Ogawa, Hajime Kubo
- Language: English
- Paperback ISBN:9 7 8 - 0 - 1 2 - 8 1 1 5 5 2 - 7
- eBook ISBN:9 7 8 - 0 - 1 2 - 8 1 1 6 4 3 - 2
Structural Resilience in Sewer Reconstruction: From Theory to Practice provides engineers with a balanced mixture of theory and practice. Divided into three parts, structura… Read more
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Request a sales quoteStructural Resilience in Sewer Reconstruction: From Theory to Practice provides engineers with a balanced mixture of theory and practice. Divided into three parts, structural resilience is introduced, along with different methods and theories that are needed to assess sewerage networks. The authors begin with a general overview of resilience and lessons learned, then present a comprehensive review of resilience theories in key fields of study. The book also introduces major analysis techniques and computational methods for resilience assessment, also highlighting sewer reconstruction projects carried out in Tokyo, including the reconstruction and development process for construction methods, renovation materials and technical inventions.
The structural resilience considerations incorporated in various stages of development are discussed in detail. Computational examples for assessing structural resilience in the renovated sewer system in Tokyo are also shown, with final chapters summarizing structural resilience theories and areas for future study.
- Provides a comprehensive review of resilience theories and practices in key fields of study
- Presents a detailed study of the structural resilience approach to sewer reconstruction in Tokyo, also including case studies of overseas projects
- Includes a systematic presentation of structural resilience theories
- Covers rich case studies on various issues in sewerage systems for qualitative and quantitative resilience evaluation
Civil Engineers and Structural Engineers
- Cover image
- Title page
- Table of Contents
- Copyright
- Preface
- Acknowledgments
- 1. Introduction
- Abstract
- 1.1 Overview of resilience research
- 1.2 Lessons learned from the Fukushima Daiichi nuclear accident
- 1.3 Building structural resilience by sewer reconstruction in Tokyo
- 1.4 Main features of the book
- References
- 2. Reviews of resilience theories and mathematical generalization
- Abstract
- 2.1. Resilience theories and practices in socioecological systems
- Abbreviations
- 2.1.1 The resilience approach
- 2.1.2 Principle 1—maintain diversity and redundancy
- 2.1.3 Principle 2—manage connectivity
- 2.1.4 Principle 3—manage slow variables and feedbacks
- 2.1.5 Principle 4—foster CAS thinking
- 2.1.6 Principle 5—encourage learning
- 2.1.7 Principle 6—broaden participation
- 2.1.8 Principle 7—promote polycentric governance systems
- 2.1.9 Summary
- 2.2. Resilience theories and practices in sociotechnical systems
- Abbreviations
- 2.2.1 The resilience approach
- 2.2.2 Dealing with the actual: responding
- 2.2.3 Dealing with the critical: monitoring
- 2.2.4 Dealing with the potential: anticipating
- 2.2.5 Dealing with the factual: learning
- 2.2.6 What is the nature of resilience?
- 2.3. Resilience theories and practices in computer systems
- Abbreviations
- 2.3.1 Emerging challenges
- 2.3.2 The resilience approach
- 2.3.3 Impact of radiation on electronics
- 2.3.4 Redundancy in dealing with faults
- 2.3.5 A fault-tolerant system with enhanced resilience against disturbance
- 2.3.6 Hardware and system software support of resilience
- 2.4. Mathematical generalizations of resilience theories and a two-step solution of nonlinear dynamical behavior
- 2.4.1 A mathematical definition of resilience
- 2.4.2 A generalized two-step solution of nonlinear dynamical behavior
- 3. Resilience assessment methodology and fundamentals of graph theory
- Abstract
- 3.1 Performance-based resilience assessment methods
- 3.2 Basic concepts in graph theory
- 3.3 Practical applications of graph theory
- References
- Notations employed in graph theory
- 4. Japan’s efforts to enhance social infrastructure resilience
- Abstract
- 4.1 History of infrastructure development in Japan
- 4.2 Infrastructural challenges for Japan
- 4.3 Latest efforts to enhance Japan’s resilience
- References
- 5. Tokyo’s sewer reconstruction and resilience enhancement measures
- Abstract
- 5.1 Overview of sewer systems in Tokyo
- 5.2 Maintenance and renewal measures
- 5.3 Inundation prevention measures
- 5.4 Earthquake preparedness measures
- 5.5 Improvement of water environment
- 5.6 Environmental load reduction
- 5.7 Crisis management
- 5.8 Strong vision, scientific management, and swift action for resilience enhancement
- References
- 6. Developing structural resilience in sewer reconstruction through technological innovation
- Abstract
- 6.1 Issues with aging sewer pipelines and outline of resilience enhancement measures
- 6.2 Asset management of sewer pipelines
- 6.3 Soundness evaluation method for existing sewers
- 6.4 Existing sewer serviceability evaluation
- 6.5 Sewer renovation
- 6.6 Development of the sewage pipe renewal method
- 6.7 Enhancing structural resilience of sewer system through technological innovation
- References
- 7. Structural analysis theories and experimental studies on sewer renovation
- Abstract
- 7.1 Introduction
- 7.2 Review of code requirements
- 7.3 Experimental studies on sewer renovation
- 7.4 A semi-composite pipe model and fracture mechanics based material modeling
- 7.5 Numerical analyses of fracture behaviors in renovated sewer pipes using the smeared crack method
- 7.6 Numerical analyses of fracture behaviors in renovated manholes using the discrete crack method
- 7.7 Buckling theory of invert lining under groundwater pressure
- 7.8 Building structural resilience with strength redundancy
- Appendix A Localized smeared crack model using the secant modulus of elasticity for strain softening
- Appendix B Formulation of the EFCM for mode I-type fracture
- Appendix C Derivation of buckling equation for invert lining
- References
- 8. Performance-based renovation design of aging sewers
- Abstract
- 8.1 Enhancing structural resilience through performance-based design
- 8.2 Performance requirements for sewer renovation
- 8.3 Performance verification under normal loading
- 8.4 Performance verification under earthquake loading
- 8.5 Experimental verifications on seismic performance of renovated sewer pipes
- 8.6 Development of design-aid software
- 8.7 Design case study
- References
- 9. Structural resilience of sewer system
- Abstract
- 9.1 Structural resilience theory
- 9.2 Evaluation of structural resilience of a sewer network during postearthquake emergency rehabilitation
- 9.3 Two classical graph-theory problems applied to postearthquake emergency operations using a road network
- 9.4 Relationship between two resilience definitions
- 9.5 Concluding remarks on the structural resilience theory and complex socio-infrastructure systems
- Reference
- 10. Domestic and global expansion of sewer reconstruction projects
- Abstract
- 10.1 Outline of sewer reconstruction projects in Japan
- 10.2 Renovation projects of aging sewer and nonsewer pipelines
- 10.3 Examples of manhole seismic retrofits
- 10.4 Postconstruction follow-up investigation
- 10.5 Global expansion of sewer renovation projects
- 10.6 Case studies of overseas sewer renovation projects
- References
- Appendix A Local government report by Miyagi Prefecture Tobu Sewerage Office: performance of seismically retrofitted sewer lines in the Great East Japan Earthquake
- Index
- No. of pages: 498
- Language: English
- Edition: 1
- Published: August 17, 2017
- Imprint: Butterworth-Heinemann
- Paperback ISBN: 9780128115527
- eBook ISBN: 9780128116432
ZS
Zihai Shi
Zihai Shi; R&D Centre, Nippon Koei Co., Ltd.; 2304 Inarihara, Tsukuba-shi, Ibaraki 300-1259He has engaged in renovation design of ageing sewers since 1995, and is familiar with resilience theories and practices in structural engineering.
Affiliations and expertise
Senior Researcher, Nippon Koei Co., LtdSW
Shizuo Watanabe
Shizuo Watanabe, Technical Supervisor, Bureau of Sewerage, Tokoy Metropolitan Government; Mr. Watanabe is the technical supervisor/deputy director at Bureau of Sewerage, Tokyo Metropolitan Government.
Affiliations and expertise
Technical Supervisor, Bureau of Sewerage, Tokyo Metropolitan Government, JapanKO
Kenichi Ogawa
Kenichi Ogawa, President, Tokyo Sewerage Service Co., Ltd. He is the former Bureau Chief, and has engaged in planning, design, construction and maintenance of Tokyo’s sewerage system since 1977.
Affiliations and expertise
President, Tokyo Sewerage Servic Co. Ltd, JapanHK
Hajime Kubo
Mr. Kubo is the senior managing executive officer of Sekisui Chemical Co., Ltd, which is a world-class maker of chemical products. He serves as the general director for development of high-performance chemical products, including the development of lining materials for sewer renovation.
Affiliations and expertise
Executive Officer, Sekisui Chemical Co. Ltd, JapanRead Structural Resilience in Sewer Reconstruction on ScienceDirect