Smart water utilities : complexity made simple

Smart water utilities complexity made simple

Today there is increasing pressure on the water infrastructure and although unsustainable water extraction and wastewater handling can continue for a while, at some point water needs to be managed in a way that is sustainable in the long-term. We need to handle water utilities "smarter". N...

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Detalles Bibliográficos
Otros Autores: Ingildsen, Pernille, author (author), Olsson, Gustaf, author
Formato: Libro electrónico
Idioma:Inglés
Publicado: London, England : IWA Publishing 2016.
Edición:1st ed
Materias:
Water > Purification.
Sustainable development.
Water treatment plants > Management.
Ver en Biblioteca Universitat Ramon Llull:https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009720229806719
Tabla de Contenidos:
  • Cover
  • Dedication
  • Copyright
  • Contents
  • Foreword 1: A New Emerging Paradigm
  • Foreword 2: The Future is Smart
  • 1. Introduction
  • 2. Approach
  • What is a Smart Water Utility
  • Objectives in a Smart Water Utility
  • M-A-D: A New Mind-Set for Smart Water Utilities
  • Implementation
  • 3. Measure
  • Sensors: The Basis of "Smart"
  • Sensor Selection
  • Electrical Control Systems
  • 4. Analyse
  • Single Signal Analysis
  • Mathematical Models
  • Performance Measures
  • 5. Decide
  • Strategic Decision Making
  • Operational Decision Making
  • Automatic Decision Making: Control
  • 6. Case Studies
  • Real-Time Monitoring of Ganges River Basin During Kumbh Mela Ceremony
  • A Glimpse into Smart Water Data
  • Understanding Combined Sewer Overflows (CSOS)
  • Advanced Process Control in Decentralised MBR Wastewater Treatment Plant
  • Paradigm Shift in Sensor Usage: From Measuring Tool to Process Understanding and Intelligent Control
  • Model-Supported Design, Testing, and Implementation of Process Control Strategies
  • The Risk of Not Measuring
  • Modelling Integrated Wastewater Systems for Design and Operation in Eindhoven (Netherlands)
  • Lessons Learnt from Implementing Ammonium Controllers at Three Full-Scale Plants
  • CFD Analysis of Sludge and Hydraulic Performance of a Waste Stabilisation Pond
  • Predictive Control of a Water Supply System in the Netherlands
  • 7. Trends
  • 1. Decentralisation
  • 2. Water Re-Use
  • 3. Utility Integration
  • 4. Symbiosis
  • 5. Community Involvement
  • 6. Climate Adaptation
  • 7. Water Scarcity
  • 8. Water and Energy
  • 9. Micro-Pollutants
  • 10. Water Pricing
  • 8. New Perspectives
  • Smartening the Energy-Water Nexus
  • The Operational Need for "Smart Operation"
  • Future Innovation in the Field of Water Technology
  • Meeting Water Customer Demands Using (The Right) Data.
  • Performance of Water Utilities Beyond Compliance
  • The Perception of Water
  • Pioneering New Technology in the Water Industry
  • Urban Metabolism and Smart Water Systems
  • Butterflies and a New Leadership Philosophy
  • 9. Next Steps
  • Acknowledgements.

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