(Ebook PDF) Integrated Sustainable Urban Water Energy and Solids Management Achieving Triple Net Zero Adverse Impact Goals and Resiliency of Future Communities 1st Edition by Vladimir Novotny 1119593662 9781119593669 full chapters

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ISBN-10 :  1119593662 

ISBN-13 :  9781119593669

Author:  Vladimir Novotny 

Integrated Sustainable Urban Water, Energy, and Solids Management presents an integrated and sustainable system of urban water, used (waste) water, and waste solids management that would save and protect water quality, recover energy and other resources from used water and waste solids including plastics, and minimize or eliminate the need for landfills. The author–a noted expert on the topic–explains how to accomplish sustainability with drainage infrastructures connected to receiving waters that protect or mimic nature and are resilient to natural and anthropogenic stresses, including extreme events.

Integrated Sustainable Urban Water Energy and Solids Management Achieving Triple Net Zero Adverse Impact Goals and Resiliency of Future Communities 1st Table of contents:

1 SUSTAINABILITY GOALS FOR URBAN WATER AND SOLID WASTE SYSTEMS
1.1 INTRODUCTION TO URBAN SUSTAINABILITY
1.2 HISTORIC AND CURRENT URBAN PARADIGMS
1.3 GLOBAL CLIMATE CHANGES
1.4 NEED FOR A PARADIGM SHIFT TO SUSTAINABILITY
1.5 POPULATION INCREASE, URBANIZATION, AND THE RISE OF MEGALOPOLISES
1.6 WHAT IS A SUSTAINABLE ECOCITY?
2 THE NEW PARADIGM OF URBAN WATER, ENERGY, AND RESOURCES MANAGEMENT
2.1 THE SEARCH FOR A NEW PARADIGM
2.2 FROM LINEAR TO HYBRID URBAN METABOLISM
2.3 URBAN RESILIENCE AND ADAPTATION TO CLIMATE CHANGE
3 GOALS AND CRITERIA OF URBAN SUSTAINABILITY
3.1 REVIEW OF EXISTING SUSTAINABILITY CRITERIA
3.2 ZERO SOLID WASTE TO LANDFILL GOAL AND FOOTPRINT
3.3 IMPORTANCE OF RECYCLING VERSUS COMBUSTING OR LANDFILLING
4 ORIGIN OF HYDROGEN ENERGY, GHG EMISSIONS, AND CLIMATIC CHANGES
4.1 INTRODUCTION TO ENERGY
4.2 HYDROGEN ENERGY
4.3 CARBON DIOXIDE SEQUESTERING AND REUSE
4.4 SOLAR AND WIND BLUE POWER
4.5 FOOD/WATER/ENERGY/CLIMATE NEXUS
4.6 WORLD AND US ENERGY OUTLOOK
5 DECENTRALIZED HIERARCHICAL URBAN WATER, USED WATER, SOLIDS, AND ENERGY MANAGEMENT SYSTEMS
5.1 ECONOMY OF SCALE DOGMA FORCED CENTRALIZED MANAGEMENT 45 YEARS AGO
5.2 DISTRIBUTED BUILDING AND CLUSTER LEVEL DESIGNS AND MANAGEMENT
5.3 FLOW SEPARATION: GRAY WATER RECLAMATION AND REUSE
6 BIOPHILIC SUSTAINABLE LANDSCAPE AND LOW IMPACT DEVELOPMENT
6.1 URBAN NATURE AND BIOPHILIC DESIGNS
6.2 LOW‐IMPACT DEVELOPMENT
6.3 RESTORING, DAYLIGHTING, AND CREATING URBAN WATER BODIES
6.4 BIOPHILIC URBAN BIOMASS MANAGEMENT AND CARBON SEQUESTERING
7 BUILDING BLOCKS OF THE REGIONAL INTEGRATED RESOURCES RECOVERY FACILITY (IRRF)
7.1 TRADITIONAL AEROBIC TREATMENT
7.2 ENERGY‐PRODUCING TREATMENT
7.3 TRIPLE NET‐ZERO: COF FUTURE DIRECTION AND INTEGRATED RESOURCE RECOVERY FACILITIES
7.4 CO‐DIGESTION OF SLUDGE WITH OTHER ORGANIC MATTER
7.5 CONVERSION OF CHEMICAL AND SENSIBLE ENERGY IN USED WATER INTO ELECTRICITY AND HEAT
8 INTEGRATING GASIFICATION AND DEVELOPING AN INTEGRATED “WASTE TO ENERGY” POWER PLANT
8.1 TRADITIONAL WASTE-TO-ENERGY SYSTEMS
8.2 PYROLYSIS AND GASIFICATION
8.3 CONVERTING BIOGAS TO ELECTRICITY
8.4 MICROBIAL FUEL CELLS (MFCS) AND MICROBIAL ELECTROLYSIS CELLS (MECS)
8.5 HYDROGEN YIELD POTENTIAL BY INDIRECT GASIFICATION
8.6 HYDROGEN FUEL CELLS
8.7 THE IRRF POWER PLANT
9 NUTRIENT RECOVERY
9.1 THE NEED TO RECOVER, NOT JUST REMOVE NUTRIENTS
9.2 BIOLOGICAL NUTRIENT REMOVAL AND RECOVERY
9.3 UNIT PROCESSES RECOVERING NUTRIENTS
10 BUILDING THE SUSTAINABLE INTEGRATED SYSTEM
10.1 ASSEMBLING THE SYSTEM
10.2 UPGRADING TRADITIONAL SYSTEMS TO CITIES OF THE FUTURE
10.3 VISIONARY MID‐TWENTY‐FIRST CENTURY REGIONAL RESOURCE RECOVERY ALTERNATIVE
10.4 WATER–ENERGY NEXUS AND RESOURCE RECOVERY OF THREE ALTERNATIVE DESIGNS
11 CLOSING THE QUEST TOWARD TRIPLE NET‐ZERO URBAN SYSTEMS
11.1 COMMUNITY SELF‐RELIANCE ON TMZ SYSTEM FOR POWER AND RECOVERING RESOURCES
11.2 ECONOMIC BENEFITS AND APPROXIMATE COSTS OF THE 2040+ INTEGRATED WATER/ENERGY/MSW MANAGEMENT
11.3 CAN IT BE DONE IN TIME TO SAVE THE EARTH FROM IRREVERSIBLE DAMAGE?

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