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101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 00$aRenewal engineering for wastewater pipelines $esynthesis report /$fby Kristi Steiner, E.I.T. [and  six others]
210  1$aAlexandria, Virginia :$cWater Environment Research Foundation,$d2014.
210  4$d2014
215   $a1 online resource (168 p.)
300   $aDescription based upon print version of record.
320   $aIncludes bibliographical references.
327   $a""Cover""; ""Copyright""; ""Acknowledgments""; ""Abstract and Benefits""; ""Table of Contents""; ""List of Tables""; ""List of Figures""; ""List of Acronyms""; ""Executive Summary""; ""Chapter 1.0: Introduction""; ""1.1 General State of American Infrastructure""; ""1.2 Need for Pipeline Renewal and Integration of Innovative Solutions""; ""1.3 Synthesis Analysis Purpose and Goals""; ""1.4 Organization of the Report""; ""Chapter 2.0: Synthesis of Trends from Literature and Practice for Wastewater System Pipeline Technology Applications""; ""2.1 Purpose and Scope of Synthesis""
327   $a""2.2 Drivers for Renewal""""2.3 Trends by Pipe Materials""; ""2.4 Trends by Technology Categories""; ""2.4.1 Repair Technologies""; ""2.4.2 Rehabilitation Technologies""; ""2.4.3 Replacement Technologies""; ""2.5 Summary""; ""Chapter 3.0: Standard Data Structure for Wastewater Pipeline Renewal Projects""; ""3.1 Purpose and Scope of Standard Data Structure""; ""3.2 Standard Data Collection Parameters""; ""3.2.1 Project Background Information""; ""3.2.2 Specific Project Information""; ""3.2.3 Renewal Technology Information""; ""Chapter 4.0: Conclusions and Recommendations""
327   $a""4.1 Introduction""""4.2 Pipeline Renewal Project QA/QC Practices""; ""4.3 Material Qualification""; ""4.4 Design Phase Considerations""; ""4.5 Project Bidding Phase Considerations""; ""4.6 Pre-Construction Phase Considerations""; ""4.7 Construction and Post-Construction Phase Considerations""; ""4.8 Recommendations for Future Work""; ""Appendix A: Renewal Engineering Background""; ""A.1 Pipeline Renewal Engineering Definitions""; ""A.2 Drivers for Wastewater Pipeline Renewal""; ""A.3 Typical Wastewater Pipe Materials""; ""A.4 Wastewater Pipeline QA/QC""
327   $a""A.5 Wastewater Pipeline Renewal Engineering Technologies""""A.5.1 Wastewater Pipeline Repair Technologies""; ""A.6 Renewal Engineering Technologies in WATERiD""; ""A.6.1 Technology Profiles""; ""A.6.2 Technology Datasheets""; ""A.6.3 Technology Case Studies""; ""A.6.4 Additional Resources""; ""Appendix B: State-of-the-Art Literature Review for Wastewater System Pipeline Renewal Technologies""; ""B.1 Introduction""; ""B.2 Scope of the State-of-the-Art Literature Review""; ""B.3 Wastewater Pipe Repair Technologies""; ""B.3.1 Pipe Joint and Leak Seal Technologies""
327   $a""B.3.2 Pipe Point Repair Technologies""""B.3.3 Pipe Coating Technologies""; ""B.4 Wastewater Pipe Rehabilitation Technologies in Literature""; ""B.4.1 CIPP Liner Technologies""; ""B.4.2 FFP Liner Technologies""; ""B.4.3 GIPP Liner Technologies""; ""B.4.4 SIPP Liner Technologies""; ""B.4.5 Sliplining""; ""B.4.6 Modified Sliplining""; ""B.5 Wastewater Pipe Replacement Technologies in Literature""; ""B.5.1 In-Line Pipe Replacement Technologies""; ""B.5.2 Off-Line Pipe Replacement Technologies""; ""B.6 Summary of Technology Use in Literature""
327   $a""Appendix C: State-of-the-Art Practice Review for Wastewater Pipeline System Renewal Technologies""
330 8 $aThe research presented in this report was performed in order to compile and better understand the state of the technology for wastewater pipeline renewal engineering methodologies and technologies, focusing primarily on the geographic regions of the U.S.A.An extensive literature review was performed, covering conference papers, journal articles, vendor literature, and major reports. Additionally, detailed case studies describing utility wastewater pipeline renewal engineering practices were created using information data mined directly from participating utilities. The information gathered through literature review and through data mining was compiled and synthesized, resulting in the presentation of conclusions regarding the state of renewal engineering of domestic wastewater pipelines, recommendations for further research and industry needs, and a description of trends found.Trends in technology use and practices were summarized, cost issues were discussed, and the gaps between needs and available technologies were presented. Furthermore, this report proposes a standard data structure for utilities to use for reporting purposes when performing renewal engineering work on wastewater pipelines. The collection of the information presented in the proposed standard data structure for utility reporting would provide the data needed to greatly improve utility operating processes and to more easily direct research toward industry needs.
606   $aSewage
606   $aPipelines
610   $aWater
610   $aTechnology & Engineering
615  0$aSewage.
615  0$aPipelines.
676   $a628.1683
700   $aSinha$b Sunil K.$01487617
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910796199903321
996   $aRenewal engineering for wastewater pipelines$93819501
997   $aUNINA