top

  Info

  • Utilizzare la checkbox di selezione a fianco di ciascun documento per attivare le funzionalità di stampa, invio email, download nei formati disponibili del (i) record.

  Info

  • Utilizzare questo link per rimuovere la selezione effettuata.

Biblioteca

MARC Lista (tabellare)
Predicting the remaining economic life of wastewater pipes . Phase 1 Development of standard data structure to support wastewater pipe condition and performance prediction / / Suniel K. Sinha, Thiti Angkasuwansiri, Richard Thomasson
Predicting the remaining economic life of wastewater pipes . Phase 1 Development of standard data structure to support wastewater pipe condition and performance prediction / / Suniel K. Sinha, Thiti Angkasuwansiri, Richard Thomasson
Autore Sinha Sunil K.
Pubbl/distr/stampa Alexandria, Virginia ; ; London, England : , : Water Environment Research Foundation : , : Co-published by IWA Publishing, , 2010
Descrizione fisica 1 online resource (120 p.)
Disciplina 363.6
Collana WERF Report Series
Soggetto topico Sewerage - United States - Management
Sanitary engineering - United States
Soggetto genere / forma Electronic books.
ISBN 1-78040-331-3
1-84339-333-6
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto ""Cover""; ""Copyright""; ""Table of Contents""; ""Acknowledgments""; ""Abstract and Benefits""; ""List of Tables""; ""List of Figures""; ""List of Appendices""; ""List of Acronyms and Abbreviations""; ""Executive Summary""; ""Chapter 1.0: Introduction""; ""1.1 Summary Description of WERF Research Tracks""; ""1.2 Track 4 Virginia Tech Research Progress""; ""Chapter 2.0: Background""; ""2.1 Wastewater Infrastructure Asset Management""; ""2.1.1 Collection and Transmission Systems""; ""2.1.2 Wastewater Treatment System""; ""2.1.3 Sludge Management System""; ""2.1.4 Reuse/Recycling System""
""2.2 Wastewater Pipe Infrastructure System""""2.2.1 Overview of U.S. Wastewater Collection and Transmission Systems""; ""2.2.2 Wastewater Pipe Design and Installation""; ""2.2.3 Wastewater Pipe Condition Assessment""; ""Chapter 3.0: Wastewater Pipe Failure Modes and Mechanisms""; ""3.1 Description of Pipe Life Cycle""; ""3.1.1 Life Cycle of Pipe by Material""; ""3.2 Description of Failure Modes and Mechanisms""; ""3.2.1 Concrete Wastewater Pipe Failure Modes and Mechanisms""; ""3.2.2 Ductile Iron Wastewater Pipe Failure Modes and Mechanisms""
""3.2.3 Cast Iron Wastewater Pipe Failure Modes and Mechanisms""""3.2.4 Polyvinyl Chloride (PVC) Wastewater Pipe Failure Modes and Mechanisms""; ""3.2.5 Polyethylene and High-Density Polyethylene Pipe Failure Modes and Mechanisms""; ""3.2.6 Clay Wastewater Pipe Failure Modes and Mechanisms""; ""3.2.7 Brick Sewer Failure Modes and Mechanisms""; ""Chapter 4.0: Data Structure for Lifelihood of Pipe Failure""; ""4.1 Development of Data Structure""; ""4.2 Description of Data Collection Methods and Protocols""; ""Chapter 5.0: Data Structure for Consequence of Pipe Failure""
""5.1 Risk Assessment and Management""""5.1.1 Major Steps in Risk Assessment and Management""; ""5.2 Development of Data Structure""; ""Chapter 6.0: Standardization of Field Data Storage and Retrieval Framework""; ""6.1 Development of Geo-Database""; ""6.1.1 Step 1: Meetings with Participating Utilities""; ""6.1.2 Step 2: Utility Data Transfer""; ""6.1.3 Step 3: Arc SDE Server for Geospatial and Tabular Data""; ""6.1.4 Step 4: Uploading Utility Data for Analysis""; ""6.1.5 Step 5: Development of Standard Geospatial Database""; ""6.1.6 Step 6: Development of Geo-Database Data Model""
""6.1.7 Step 7: Existing Geo-Database - a Priori Data""""6.1.8 Step 8: Example of Geo-Database Visualization System""; ""6.1.9 Step 9: Development of Web Application""; ""6.1.10 Step 10: Pipe Infrastructure Data Standardization""; ""6.2 Security and Confidentiality of Participating Utilities Database""; ""Chapter 7.0: Utilities Case Studies""; ""7.1 Case Study 1: Atlanta, Georgia""; ""7.2 Case Study 2: Pittsburgh, Pennsylvania""; ""7.3 Case Study 3: Seattle, Washington""; ""7.4 Case Study 4: Orange County, California""; ""7.5 Case Study 5: Blacksburg, Virginia""
""Chapter 8.0: Future Research Work""
Record Nr. UNINA-9910453516103321
Sinha Sunil K.  
Alexandria, Virginia ; ; London, England : , : Water Environment Research Foundation : , : Co-published by IWA Publishing, , 2010
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Predicting the remaining economic life of wastewater pipes . Phase 1 Development of standard data structure to support wastewater pipe condition and performance prediction / / Suniel K. Sinha, Thiti Angkasuwansiri, Richard Thomasson
Predicting the remaining economic life of wastewater pipes . Phase 1 Development of standard data structure to support wastewater pipe condition and performance prediction / / Suniel K. Sinha, Thiti Angkasuwansiri, Richard Thomasson
Autore Sinha Sunil K.
Pubbl/distr/stampa Alexandria, Virginia ; ; London, England : , : Water Environment Research Foundation : , : Co-published by IWA Publishing, , 2010
Descrizione fisica 1 online resource (120 p.)
Disciplina 363.6
Collana WERF Report Series
Soggetto topico Sewerage - United States - Management
Sanitary engineering - United States
ISBN 1-78040-331-3
1-84339-333-6
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto ""Cover""; ""Copyright""; ""Table of Contents""; ""Acknowledgments""; ""Abstract and Benefits""; ""List of Tables""; ""List of Figures""; ""List of Appendices""; ""List of Acronyms and Abbreviations""; ""Executive Summary""; ""Chapter 1.0: Introduction""; ""1.1 Summary Description of WERF Research Tracks""; ""1.2 Track 4 Virginia Tech Research Progress""; ""Chapter 2.0: Background""; ""2.1 Wastewater Infrastructure Asset Management""; ""2.1.1 Collection and Transmission Systems""; ""2.1.2 Wastewater Treatment System""; ""2.1.3 Sludge Management System""; ""2.1.4 Reuse/Recycling System""
""2.2 Wastewater Pipe Infrastructure System""""2.2.1 Overview of U.S. Wastewater Collection and Transmission Systems""; ""2.2.2 Wastewater Pipe Design and Installation""; ""2.2.3 Wastewater Pipe Condition Assessment""; ""Chapter 3.0: Wastewater Pipe Failure Modes and Mechanisms""; ""3.1 Description of Pipe Life Cycle""; ""3.1.1 Life Cycle of Pipe by Material""; ""3.2 Description of Failure Modes and Mechanisms""; ""3.2.1 Concrete Wastewater Pipe Failure Modes and Mechanisms""; ""3.2.2 Ductile Iron Wastewater Pipe Failure Modes and Mechanisms""
""3.2.3 Cast Iron Wastewater Pipe Failure Modes and Mechanisms""""3.2.4 Polyvinyl Chloride (PVC) Wastewater Pipe Failure Modes and Mechanisms""; ""3.2.5 Polyethylene and High-Density Polyethylene Pipe Failure Modes and Mechanisms""; ""3.2.6 Clay Wastewater Pipe Failure Modes and Mechanisms""; ""3.2.7 Brick Sewer Failure Modes and Mechanisms""; ""Chapter 4.0: Data Structure for Lifelihood of Pipe Failure""; ""4.1 Development of Data Structure""; ""4.2 Description of Data Collection Methods and Protocols""; ""Chapter 5.0: Data Structure for Consequence of Pipe Failure""
""5.1 Risk Assessment and Management""""5.1.1 Major Steps in Risk Assessment and Management""; ""5.2 Development of Data Structure""; ""Chapter 6.0: Standardization of Field Data Storage and Retrieval Framework""; ""6.1 Development of Geo-Database""; ""6.1.1 Step 1: Meetings with Participating Utilities""; ""6.1.2 Step 2: Utility Data Transfer""; ""6.1.3 Step 3: Arc SDE Server for Geospatial and Tabular Data""; ""6.1.4 Step 4: Uploading Utility Data for Analysis""; ""6.1.5 Step 5: Development of Standard Geospatial Database""; ""6.1.6 Step 6: Development of Geo-Database Data Model""
""6.1.7 Step 7: Existing Geo-Database - a Priori Data""""6.1.8 Step 8: Example of Geo-Database Visualization System""; ""6.1.9 Step 9: Development of Web Application""; ""6.1.10 Step 10: Pipe Infrastructure Data Standardization""; ""6.2 Security and Confidentiality of Participating Utilities Database""; ""Chapter 7.0: Utilities Case Studies""; ""7.1 Case Study 1: Atlanta, Georgia""; ""7.2 Case Study 2: Pittsburgh, Pennsylvania""; ""7.3 Case Study 3: Seattle, Washington""; ""7.4 Case Study 4: Orange County, California""; ""7.5 Case Study 5: Blacksburg, Virginia""
""Chapter 8.0: Future Research Work""
Record Nr. UNINA-9910790703303321
Sinha Sunil K.  
Alexandria, Virginia ; ; London, England : , : Water Environment Research Foundation : , : Co-published by IWA Publishing, , 2010
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Predicting the remaining economic life of wastewater pipes . Phase 1 Development of standard data structure to support wastewater pipe condition and performance prediction / / Suniel K. Sinha, Thiti Angkasuwansiri, Richard Thomasson
Predicting the remaining economic life of wastewater pipes . Phase 1 Development of standard data structure to support wastewater pipe condition and performance prediction / / Suniel K. Sinha, Thiti Angkasuwansiri, Richard Thomasson
Autore Sinha Sunil K.
Pubbl/distr/stampa Alexandria, Virginia ; ; London, England : , : Water Environment Research Foundation : , : Co-published by IWA Publishing, , 2010
Descrizione fisica 1 online resource (120 p.)
Disciplina 363.6
Collana WERF Report Series
Soggetto topico Sewerage - United States - Management
Sanitary engineering - United States
ISBN 1-78040-331-3
1-84339-333-6
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto ""Cover""; ""Copyright""; ""Table of Contents""; ""Acknowledgments""; ""Abstract and Benefits""; ""List of Tables""; ""List of Figures""; ""List of Appendices""; ""List of Acronyms and Abbreviations""; ""Executive Summary""; ""Chapter 1.0: Introduction""; ""1.1 Summary Description of WERF Research Tracks""; ""1.2 Track 4 Virginia Tech Research Progress""; ""Chapter 2.0: Background""; ""2.1 Wastewater Infrastructure Asset Management""; ""2.1.1 Collection and Transmission Systems""; ""2.1.2 Wastewater Treatment System""; ""2.1.3 Sludge Management System""; ""2.1.4 Reuse/Recycling System""
""2.2 Wastewater Pipe Infrastructure System""""2.2.1 Overview of U.S. Wastewater Collection and Transmission Systems""; ""2.2.2 Wastewater Pipe Design and Installation""; ""2.2.3 Wastewater Pipe Condition Assessment""; ""Chapter 3.0: Wastewater Pipe Failure Modes and Mechanisms""; ""3.1 Description of Pipe Life Cycle""; ""3.1.1 Life Cycle of Pipe by Material""; ""3.2 Description of Failure Modes and Mechanisms""; ""3.2.1 Concrete Wastewater Pipe Failure Modes and Mechanisms""; ""3.2.2 Ductile Iron Wastewater Pipe Failure Modes and Mechanisms""
""3.2.3 Cast Iron Wastewater Pipe Failure Modes and Mechanisms""""3.2.4 Polyvinyl Chloride (PVC) Wastewater Pipe Failure Modes and Mechanisms""; ""3.2.5 Polyethylene and High-Density Polyethylene Pipe Failure Modes and Mechanisms""; ""3.2.6 Clay Wastewater Pipe Failure Modes and Mechanisms""; ""3.2.7 Brick Sewer Failure Modes and Mechanisms""; ""Chapter 4.0: Data Structure for Lifelihood of Pipe Failure""; ""4.1 Development of Data Structure""; ""4.2 Description of Data Collection Methods and Protocols""; ""Chapter 5.0: Data Structure for Consequence of Pipe Failure""
""5.1 Risk Assessment and Management""""5.1.1 Major Steps in Risk Assessment and Management""; ""5.2 Development of Data Structure""; ""Chapter 6.0: Standardization of Field Data Storage and Retrieval Framework""; ""6.1 Development of Geo-Database""; ""6.1.1 Step 1: Meetings with Participating Utilities""; ""6.1.2 Step 2: Utility Data Transfer""; ""6.1.3 Step 3: Arc SDE Server for Geospatial and Tabular Data""; ""6.1.4 Step 4: Uploading Utility Data for Analysis""; ""6.1.5 Step 5: Development of Standard Geospatial Database""; ""6.1.6 Step 6: Development of Geo-Database Data Model""
""6.1.7 Step 7: Existing Geo-Database - a Priori Data""""6.1.8 Step 8: Example of Geo-Database Visualization System""; ""6.1.9 Step 9: Development of Web Application""; ""6.1.10 Step 10: Pipe Infrastructure Data Standardization""; ""6.2 Security and Confidentiality of Participating Utilities Database""; ""Chapter 7.0: Utilities Case Studies""; ""7.1 Case Study 1: Atlanta, Georgia""; ""7.2 Case Study 2: Pittsburgh, Pennsylvania""; ""7.3 Case Study 3: Seattle, Washington""; ""7.4 Case Study 4: Orange County, California""; ""7.5 Case Study 5: Blacksburg, Virginia""
""Chapter 8.0: Future Research Work""
Record Nr. UNINA-9910824693503321
Sinha Sunil K.  
Alexandria, Virginia ; ; London, England : , : Water Environment Research Foundation : , : Co-published by IWA Publishing, , 2010
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Renewal engineering for wastewater pipelines : synthesis report / / by Kristi Steiner, E.I.T. [and six others]
Renewal engineering for wastewater pipelines : synthesis report / / by Kristi Steiner, E.I.T. [and six others]
Autore Sinha Sunil K.
Pubbl/distr/stampa Alexandria, Virginia : , : Water Environment Research Foundation, , 2014
Descrizione fisica 1 online resource (168 p.)
Disciplina 628.1683
Soggetto topico Sewage
Pipelines
Soggetto non controllato Water
Technology & Engineering
ISBN 1-78040-570-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto ""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""
""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""
""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""
""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""
""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""
""Appendix C: State-of-the-Art Practice Review for Wastewater Pipeline System Renewal Technologies""
Record Nr. UNINA-9910796199903321
Sinha Sunil K.  
Alexandria, Virginia : , : Water Environment Research Foundation, , 2014
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Renewal engineering for wastewater pipelines : synthesis report / / by Kristi Steiner, E.I.T. [and six others]
Renewal engineering for wastewater pipelines : synthesis report / / by Kristi Steiner, E.I.T. [and six others]
Autore Sinha Sunil K.
Pubbl/distr/stampa Alexandria, Virginia : , : Water Environment Research Foundation, , 2014
Descrizione fisica 1 online resource (168 p.)
Disciplina 628.1683
Soggetto topico Sewage
Pipelines
Soggetto non controllato Water
Technology & Engineering
ISBN 1-78040-570-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto ""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""
""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""
""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""
""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""
""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""
""Appendix C: State-of-the-Art Practice Review for Wastewater Pipeline System Renewal Technologies""
Record Nr. UNINA-9910822572003321
Sinha Sunil K.  
Alexandria, Virginia : , : Water Environment Research Foundation, , 2014
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui