ORPP logo
Image from Google Jackets

Condition Assessment for Wastewater Pipelines : Synthesis Report.

By: Contributor(s): Material type: TextTextSeries: WERF Research Report SeriesPublisher: London : IWA Publishing, 2014Copyright date: ©2014Edition: 1st edDescription: 1 online resource (212 pages)Content type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781780405612
Subject(s): Genre/Form: Additional physical formats: Print version:: Condition Assessment for Wastewater PipelinesDDC classification:
  • 628.15
LOC classification:
  • TD491 -- .C663 2013eb
Online resources:
Contents:
Cover -- Copyright -- Acknowledgments -- Abstract and Benefits -- Table of Contents -- List of Tables -- List of Figures -- List of Abbreviations and Acronyms -- Executive Summary -- Chapter 1.0: Introduction -- 1.1 Introduction -- 1.2 Water Infrastructure Database (WATERiD) -- 1.3 Condition Assessment of Wastewater Pipelines -- 1.4 Methodology Overview -- 1.5 Synthesis Report Objectives -- Chapter 2.0: Analysis and Synthesis of Literature and Practice -- 2.1 Analysis and Synthesis -- 2.2 Definition of Condition Assessment -- 2.3 Technology Use -- 2.3.1 Analysis of Pipe Characteristics -- 2.3.2 Analysis of Condition Assessment Techniques Used -- 2.3.3 QA/QC -- 2.3.4 Geographical Trends -- 2.4 Practices Related to Condition Assessment -- 2.4.1 Drivers for Condition Assessment Technique Selection -- 2.4.2 Data Management -- 2.5 Cost -- 2.6 Gaps Between Needs and Available Technologies -- 2.7 Key Lessons and Tips for Success -- Chapter 3.0: Recommendations and Standard Data Structure -- 3.1 Proposed Standard Data Structure -- 3.2 Need for Standard Data Structure -- 3.3 Proposed Data Structure Parameters -- 3.3.1 Utility Name -- 3.3.2 Utility Location -- 3.3.3 Utility Population Served -- 3.3.4 Project Location Description -- 3.3.5 Project Start Date and Project End Date -- 3.3.6 Total Project Cost -- 3.3.7 Pipeline Material -- 3.3.8 Pipeline Internal Diameter -- 3.3.9 Pipeline Installation Year -- 3.3.10 Pipeline Length -- 3.3.11 Pipeline Type -- 3.3.12 Consultant -- 3.3.13 Contractor -- 3.3.14 Technology Vendor -- 3.3.15 Technology Used -- 3.3.16 Product Used -- 3.3.17 Defects Found -- 3.3.18 Known Environmental Characteristics -- 3.3.19 Success of Project -- 3.3.20 Comments -- 3.4 Benefits of Use of the Standard Data Structure -- 3.4.1 Usefulness at Different Managerial Levels within a Utility -- 3.4.2 Usefulness for Detecting Broad Trends.
Chapter 4.0: Conclusions and Recommendations -- 4.1 Conclusions -- 4.2 Recommendations and Future Work -- Appendix A: Pipeline Condition Assessment -- Appendix B: State-of-the-Art Literature Review -- Appendix C: State-of-the-Art Practice Review -- Appendix D: Technological and Geographical Utility Practice Data Gap Analysis -- Appendix E: Example of a Technology Profile in WATERiD -- Appendix F: Example Technology Data Sheet -- Appendix G: Example Case Study -- Appendix H: Table of Reports and Literature Sources Reviewed -- References.
Tags from this library: No tags from this library for this title. Log in to add tags.
Star ratings
    Average rating: 0.0 (0 votes)
No physical items for this record

Cover -- Copyright -- Acknowledgments -- Abstract and Benefits -- Table of Contents -- List of Tables -- List of Figures -- List of Abbreviations and Acronyms -- Executive Summary -- Chapter 1.0: Introduction -- 1.1 Introduction -- 1.2 Water Infrastructure Database (WATERiD) -- 1.3 Condition Assessment of Wastewater Pipelines -- 1.4 Methodology Overview -- 1.5 Synthesis Report Objectives -- Chapter 2.0: Analysis and Synthesis of Literature and Practice -- 2.1 Analysis and Synthesis -- 2.2 Definition of Condition Assessment -- 2.3 Technology Use -- 2.3.1 Analysis of Pipe Characteristics -- 2.3.2 Analysis of Condition Assessment Techniques Used -- 2.3.3 QA/QC -- 2.3.4 Geographical Trends -- 2.4 Practices Related to Condition Assessment -- 2.4.1 Drivers for Condition Assessment Technique Selection -- 2.4.2 Data Management -- 2.5 Cost -- 2.6 Gaps Between Needs and Available Technologies -- 2.7 Key Lessons and Tips for Success -- Chapter 3.0: Recommendations and Standard Data Structure -- 3.1 Proposed Standard Data Structure -- 3.2 Need for Standard Data Structure -- 3.3 Proposed Data Structure Parameters -- 3.3.1 Utility Name -- 3.3.2 Utility Location -- 3.3.3 Utility Population Served -- 3.3.4 Project Location Description -- 3.3.5 Project Start Date and Project End Date -- 3.3.6 Total Project Cost -- 3.3.7 Pipeline Material -- 3.3.8 Pipeline Internal Diameter -- 3.3.9 Pipeline Installation Year -- 3.3.10 Pipeline Length -- 3.3.11 Pipeline Type -- 3.3.12 Consultant -- 3.3.13 Contractor -- 3.3.14 Technology Vendor -- 3.3.15 Technology Used -- 3.3.16 Product Used -- 3.3.17 Defects Found -- 3.3.18 Known Environmental Characteristics -- 3.3.19 Success of Project -- 3.3.20 Comments -- 3.4 Benefits of Use of the Standard Data Structure -- 3.4.1 Usefulness at Different Managerial Levels within a Utility -- 3.4.2 Usefulness for Detecting Broad Trends.

Chapter 4.0: Conclusions and Recommendations -- 4.1 Conclusions -- 4.2 Recommendations and Future Work -- Appendix A: Pipeline Condition Assessment -- Appendix B: State-of-the-Art Literature Review -- Appendix C: State-of-the-Art Practice Review -- Appendix D: Technological and Geographical Utility Practice Data Gap Analysis -- Appendix E: Example of a Technology Profile in WATERiD -- Appendix F: Example Technology Data Sheet -- Appendix G: Example Case Study -- Appendix H: Table of Reports and Literature Sources Reviewed -- References.

Description based on publisher supplied metadata and other sources.

Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.

There are no comments on this title.

to post a comment.

© 2024 Resource Centre. All rights reserved.