Water, Wastewater, and Stormwater Infrastructure Management: The Life Cycle Approach


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The author covers current thinking on best management practices and provides vital information about regulatory requirements, codes and standards, and other management control mechanisms. Useful as a reference and a professional development guide, Water, Wastewater, and Stormwater Infrastructure Management delivers a simple and clear presentation of the material you will need to know in order to comply with national environmental and public health regulations.

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Water, Wastewater, and Stormwater Infrastructure Management: 2nd Edition (Hardback) - Routledge

For Instructors Request Inspection Copy. Urban water services are building blocks for healthy cities, and they require complex and expensive infrastructure systems. Most of the infrastructure is out of sight and tends to be taken for granted, but an infrastructure financing crisis looms in the United States because the systems are aging and falling behind on maintenance. A road map for public works and utility professionals, Water, Wastewater, and Stormwater Infrastructure Management, Second Edition provides clear and practical guidance for life-cycle management of water infrastructure systems.

Stormwater, Asset Management, and Wastewater Seminar

Grounded in solid engineering and business principles, the book explains how to plan, budget, design, construct, and manage the physical infrastructure of urban water systems. It blends knowledge from management fields such as facilities, finance, and maintenance with information about the unique technical attributes of water, wastewater, and stormwater systems. Addresses how to make a business case for infrastructure funding Demonstrates how to apply up-to-date methods for capital improvement planning and budgeting Outlines the latest developments in infrastructure asset management Identifies cutting-edge developments in information technology applied to infrastructure management Presents a realistic view of how risk management is applied to urban water infrastructure settings Explains the latest maintenance and operations methods for water, wastewater, and stormwater systems.

The author describes current thinking on best management practices and topics such as asset management, vulnerability assessment, and total quality management of infrastructure systems. Expanded and updated throughout, this second edition reflects the considerable advances that have occurred in infrastructure management over the past ten years.

Useful as a reference and a professional development guide, this unique book offers tools to help you lower costs and mitigate the rate shocks associated with managing infrastructure for growth, deterioration, and regulatory requirements. The latest infrastructure management and maintenance technologies Information on the inventories of systems and the configuration of infrastructure New design and construction methods such as building information modeling BIM New approaches to rate setting, accounting methods, and cost accounting to help you assess the full cost of infrastructure Advances in SCADA systems Expanded coverage of risk management and disaster preparedness Material on the use of GIS in water and sewer management New laws related to infrastructure, including the U.

Neil S. This approach involves communication and collaboration throughout the entire process. The website contains numerous links to documents, websites, and video files that help support the many aspects of an integrated water resources management approach. Level of Detail: Case study , Qualitative description. Specific Benefits or Trade-offs: Aesthetics , Agriculture , Ambient water quality , Community resilience , Habitat and biodiversity , Local economy , Recreation , Resource recovery , Supply augmentation , System resilience , Water supply reliability.

Achieving Resilience through Water Recycling in Peri-Urban Agriculture examines water recycling for agricultural use in the peri-urban regions of Western Sydney, Australia. The study provides a qualitative assessment of the benefits associated with agricultural water reuse of treated wastewater and drinking water in the context of the communities larger water system.

The benefits identified include enhanced landscape ecology, environmental risk management, water supply reliability, agricultural products and services, reduced wastewater discharges to receiving waters, provision of ecosystem services, community livelihood, social values, and overall enhanced resilience. Author: U. EPA, Geography: U. Specific Benefits or Trade-offs: Aesthetics , Ambient water quality , Habitat and biodiversity , Health and safety , Local economy , Peak flood volume , Supply augmentation.

The major goals of stormwater BMPs are flow control, temperature and pH control, and pollutant removal, including solids, oxygen-demanding substances, nitrogen and phosphorus, pathogens, petroleum hydrocarbons, metals, and synthetic organics. The report provides a recommendation for stormwater BMPs and their associated costs and benefits. Specific Benefits or Trade-offs: Aesthetics , Air quality , Carbon sequestration , Demand reduction , Educational opportunity , Habitat and biodiversity , Health and safety , Peak flood volume , Recreation , Total flood volume , Urban heat island.

The report defines the regulatory landscape for green infrastructure in California, identifies potential for fulfilling multiple regulations and requirements through green infrastructure projects, and lastly, examines the regulatory barriers to green infrastructure implementation.

Institutional Issues for Integrated One Water Management Snapshot Case Studies provides twenty-five case studies that provide practical examples of how agencies and communities worked through institutional barriers. The institutional barriers identified in the report fall under the following categories: 1 planning and partnerships, 2 legislation and regulation, 3 economics and finance, 4 culture, knowledge, and capacity, and 5 citizen and stakeholder engagement.

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The goal of this report is to provide solutions to these barriers so that communities, organizations, and governments can practice a more integrated and sustainable approach to water resource management. Level of Detail: Case study. Envision Project Awards map contains interactive case studies of projects from across the globe that have recieved Envision awards for sustainability.

Envision is a comprehensive framework of 60 criteria that encompass the full range of environmental, social, and economic impacts and are used to assess project sustainability. Specific Benefits or Trade-offs: Affordability , Community resilience , Educational opportunity , Extreme events , Habitat and biodiversity , Health and safety , Local economy , Reputation , System resilience.

City Resilience Framework provides a framework for analyzing the sustainability of a city.


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The report applies the City Resilience Framework to six cities across the globe, where the resiliency of each city was qualitatively analyzed following the four resiliency dimensions. Specific Benefits or Trade-offs: Ambient water quality , Habitat and biodiversity , Supply augmentation. The final solution points out that flood management can have multiple benefits, including restoration of wetlands and rivers, aquifer recharge, and surface water quality improvements.

Specific Benefits or Trade-offs: Air quality , Ambient water quality , Carbon sequestration , Educational opportunity , Energy for wastewater , Health and safety , Recreation , Secondary energy demand , Supply augmentation , Urban heat island. The report includes costs and quantified benefits for tree benefits tree canopy, carbon storage, carbon sequestration, energy savings , stormwater benefits runoff reduction, avoided storage , and air pollution benefits ozone, SO2, NO2, PM10, and CO removal.

The report also includes a discussion of additional non-quantified benefits including student health and safety, green waste reuse, and green recreation space. Green Infrastructure and Water Supply: A Case Study of the City of Los Angeles presents a two-page report on a modeling effort that identified areas in Los Angeles with potential for groundwater recharge, particularly using stormwater. The results showed potential for recharge to go from the current average of 0.

Level of Detail: Decision support tool , Economic valuation. Specific Benefits or Trade-offs: Aesthetics , Air quality , Ambient water quality , Carbon sequestration , Extreme events , Habitat and biodiversity , Local economy , Recreation , Supply augmentation , Urban heat island. Green Infrastructure: Guide for Water Management examines case studies of green infrastructure projects throughout the United States.

The report argues that a lack of awareness of the solutions and additional cost benefits that green infrastructure projects can provide is the major barrier to implementation of green infrastructure solutions.


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  • The case studies include green infrastructure projects such as green roofs, permeable pavement, levee setbacks, wetland conservation and construction, reforestation and afforestation, and flood bypasses and coastal protection. The case studies cite benefits from the ecosystem service categories i. Stormwater Financing and Outreach Resources provides resources for stormwater financing in the Chesapeake Bay region.

    The website includes resources for local government stormwater financing manuals, as well as case studies from specific community stormwater projects in Maryland, Virginia, Pennsylvania, and West Virginia. Additionally, the Stormwater Financing and Outreach Unit offers financing and management support from local, state, and non-governmental organizations. The webinars are divided into four series, or thrusts: Thrust A addresses the sustainability of urban water systems by comparing past land and water use trends to future predictions, Thrust B examines solutions for sustainability of urban water systems using data and models, Thrust C discusses how cities can encourage the adoption of sustainable water management solutions, and finally, Thrust D analyzes how decision making can be advanced through integration of data, models, and results from past projects.

    Specific Benefits or Trade-offs: Aesthetics , Carbon sequestration , Community resilience , Educational opportunity , Habitat and biodiversity , Health and safety , Local economy , Recreation , Urban heat island. Green Infrastructure in Parks: A Guide to Collaboration, Funding, and Community Engagement analyzes green infrastructure projects in parks and the resulting benefits. The report uses case studies to discuss the multiple benefits and encourage cities to invest in green infrastructure projects within their public parks.

    The multiple benefits cited within the report include recreation value, attractive park features, social and environmental equity, reduced maintenance, drainage, education, water quality, economic benefits, and overall benefits to environment. Author: Mika et al. LA Sustainable Water Project: Los Angeles River Watershed provides an in-depth analysis of the potential future opportunities for water recycling, stormwater capture, groundwater recharge, and water quality improvements along the Los Angeles River.

    The analysis takes into account current water supply and water quality projects and management practices along the river. The report deduces that more work is needed to better understand optimal levels of stormwater capture and water recycling along the river so as to balance the impact on in-stream flows. Specific Benefits or Trade-offs: Agriculture , Air quality , Ambient water quality , Carbon sequestration , Community resilience , Demand reduction , Drinking water quality , End use energy , Energy for wastewater , Energy for water extraction , Energy for water treatment , Habitat and biodiversity , Health and safety , Local economy , Peak flood volume , Recreation , Soil health , System resilience , Total flood volume , Water supply reliability.

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    The Envision V3 Draft Credits for Public Review and Comment user manual outlines additions to the Envision framework, a sustainability framework that aims to analyze infrastructure projects and promote collaboration on multi-benefit projects in order to improve system synergy. Envision is a framework that provides the guidance needed to initiate this systemic change in the planning, design and delivery of sustainable and resilient infrastructure.

    Envision is a decision-making guide, not a set of prescriptive measures. Envision provides industry-wide sustainability metrics for all types and sizes of infrastructure to help users assess and measure the extent to which their project contributes to conditions of sustainability across the full range of social, economic, and environmental indicators.

    Water, Wastewater, and Stormwater Infrastructure Management: The Life Cycle Approach Water, Wastewater, and Stormwater Infrastructure Management: The Life Cycle Approach
    Water, Wastewater, and Stormwater Infrastructure Management: The Life Cycle Approach Water, Wastewater, and Stormwater Infrastructure Management: The Life Cycle Approach
    Water, Wastewater, and Stormwater Infrastructure Management: The Life Cycle Approach Water, Wastewater, and Stormwater Infrastructure Management: The Life Cycle Approach
    Water, Wastewater, and Stormwater Infrastructure Management: The Life Cycle Approach Water, Wastewater, and Stormwater Infrastructure Management: The Life Cycle Approach
    Water, Wastewater, and Stormwater Infrastructure Management: The Life Cycle Approach Water, Wastewater, and Stormwater Infrastructure Management: The Life Cycle Approach
    Water, Wastewater, and Stormwater Infrastructure Management: The Life Cycle Approach Water, Wastewater, and Stormwater Infrastructure Management: The Life Cycle Approach
    Water, Wastewater, and Stormwater Infrastructure Management: The Life Cycle Approach Water, Wastewater, and Stormwater Infrastructure Management: The Life Cycle Approach
    Water, Wastewater, and Stormwater Infrastructure Management: The Life Cycle Approach Water, Wastewater, and Stormwater Infrastructure Management: The Life Cycle Approach
    Water, Wastewater, and Stormwater Infrastructure Management: The Life Cycle Approach

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