future of urban water management by kala vairavamoorthy
TRANSCRIPT
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FUTURE OF URBAN WATER MANAGEMENT
Kala VairavamoorthyUNIVERSITY OF SOUTH FLORIDA + GWP
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Water Security - Good News & Bad News
Good News• Upper income countries have revolutionized
public health outcomes• Also have made major progress in mitigation
of environmental damage
Bad News• Systems built for narrow objectives with little
resilience – not suited to the challenges ahead
• Extraordinarily resource intensive• ‘All or nothing’ - Unaffordable to 2/3 of the
planet
‘Open the loop’ - linear supply and
disposal
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• Entire earth system is changing!
Bad News – External pressures make the future difficult
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• 155,000 persons per day
• 90% in developing countries
• ~90% in urban areas
• ~850,000 per week in urban settings
The Urban Arithmetic for 2050
Growing but also ‘Growing Up’
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Source: UN (2003)
Opportunity to do Things Differently
G
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Asia has fastest growing economies
(World Bank, 2012)
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Shenzhen
Fishing village of several thousand
Window of Opportunity is Small
City of 7 million – big in electronic
manufacturing
1980 Today
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Need to think differently
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• Urban Water Cycle is one system: understand the relationship between various components
• Urban water cycle closely linked to watershed: City depends on and impacts the wider watershed
• Security through diversity: explore diverse and flexible options for water sources
• Water should be fit for purpose – matching water quality to its intended use.
• Maximize benefits: great potential for water, energy and nutrient recovery (beneficiation)
When designing urban water systems keep in mind the following
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• Innovative technologies can play a role: in helping to serve more people with less
• Adaptive systems work: IUWM must take into account that the future is inherently uncertain
• Water should be managed across institutions: good governance is a critical to operationalize IUWM
• Involve all the players: integration of all stakeholders in decision-making process
When designing urban water systems keep in mind the following
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• Innovative technologies can play a role: in helping to serve more people with less
• Adaptive systems work: IUWM must take into account that the future is inherently uncertain
• Water should be managed across institutions: good governance is a critical to operationalize IUWM
• Involve all the players: integration of all stakeholders in decision-making process
When designing urban water systems keep in mind the following
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We need to break down barriers
6
KI WU … UP…
Catchment
Township
Urban
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And involve all the players
• Why?• Poor uptake of available research findings• Fragmented institutional arrangements• ‘Wicked’ problems - need for ‘integrated’ solutions
• Who?• Policy makers, planners, regulators, service
providers, NGOs, researchers, developers…
• How? • Inception (training, stakeholder analysis…)• Operational (visioning, planning processes..))• Backstopping support (monitoring, evaluation…)
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Example: Bogota, Colombia
Issue:
• pollution of upper Rio Bogota (tanneries)
Key players:
• Association of tanners, Regulator, Local government, NGO, University,…
Outcomes:
• Almost half of small enterprises have implemented cleaner production principles removing 90% pollution
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Example: Lodz, Poland
Issue: • restoring polluted rivers
Key players: • city office, University,
Ecohydrology institute, service providers, developers
Outcomes: • Demonstration
technologies being scaled up as part of city redevelopment
• development of a city-wide strategic plan for water
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We need to put water in the minds of people?
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Doing more with less ‘Integration the key’
Holistic systems approach to the urban watershed
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Source: CSIRO
Intermittent & Irregular
Supply
Water Scarcity
Fast Growing Cities
Irregular Energy Supply
Highly Polluted Water Bodies
Lack of Wastewater
Collection and Treatment
Poor Solid Waste
Management
High Levels of Leakage
Tailored IUWM Framework for Developing Countries Required
Low Pressure
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Case Study: Water Resources for Nairobi and Satellite Towns
• Today 3.14 M Inhabitants
• Prediction year 2035 between 6.4 and 11.2 M Inhabitants
• Huge supply/demand gap
Case study for the application of the framework and the
principles.
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IUWM Application 1 (stormwater, leakage, demand management)
DM=50537 m3/d
111081 m3/d
70000 m3/d
192851 m3/d
780831m3/d
Demand =1205300 m3/d
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• Unit costs of US$ 0.29/m3 (cf. to 0.36)
IUWM Application 1 (stormwater, leakage, demand management)
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Existing Water Sources
New Conventional Sources
New Conventional Sources
Existing Water Sources
Water Demand Mgt.
Stormwater Harvesting
Leakage Mgt.
Private BoreholesGreywater Harvesting
Nairobi - It’s about having a Portfolio of viable options
IUWM ApproachUnit costs US$ 0.29/m3
Conventional Approach
Unit costs US$ 0.36/m3
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Phnom Penh’s Water Success Story
• NRW reduced from 72% to 6.19% (1993-2008)
• Water saving about 25,000m3/d (serving about one million more people)
• Increasing revenues by over US$ 20 million per annum
Biswas and Tortajada 2009
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Fresh Water Supply
Waste Water
Small Water Consuming
Industry
Fresh Water Source
Waste Water from Durban City
Reuse of Water
[Reduction in Wastewater discharge @10%]
[7% (47.50 Ml/d) of City’s Current Demand ]
[Ehekwini Water Services:Build on PPP Concept]
It’s already happening: Ethekwini
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It’s already happening: Windhoek
NGWRP Dam Water
Groundwater
Domestic
Consumers
Industrial
Irrig. -Parks
WW Treatment
26% 66% 8%
45%
7%
6%
10% Unaccounted for Water
WW Treatment
Irrig. - Fodder
River
Reuse for Irrigation
Reu
se f
or
dri
nkin
g
wate
r
OGWRO
13%
83%
Consumed38%
26%
90%
Security through diversity
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Rain Sea
Indirect Potable
Use
Direct Non-
Potable Use
It’s already happening: Singapore
Security through diversity
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NEWRI 2010
Unconventional water sources: more energy intensive
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bank filtration, soil-aquifer treatment, constructed wetlands,
hybrid systems
O2
O2
Natural systems can help close the water cycle
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Reservoir
River
Dam Water
Trans.
Water
Consumer
WW
Primary Treatmentand/or CW & WSP
RBF
LBF
SAT/ARR
Distribution
IrrigationEH
EH
Low Energy – Water Efficient’ Closed Loop
Natural systems can help close the water cycle
$0.067/m3 (cf 0.28/m3)
0.012 -0.024 $/m3
(cf 0.05-0.15 $/m3)
(0.17 $/m3)
Lake Bank Filtration
River Bank Filtration
Soil Aquifer TreatmentArtificial Recharge Recovery
Ecohydrology
Constructed Wetlands Stabilization Ponds
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Kibera
Nairobi Dam
Ngong River
Greywater from
unserviced households
Polluted runoff from
streets
Overflow from pit latrines
Flows from Kibera pollute Nairobi Dam No longer used as a water source
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Cost for provision of drainage and sanitation for Kibera
• EAC US$ 1.0M
Condominium sewers
Condominium sewers
DEWATS
DEWATS
Potential water resources after slum improvement
• Yield 17,300m3/d
• Cost of water (0.16 $/m3)
• More than US$ 800,000 revenue per year
SUDS
SUDS
Urban water infrastructure provision to Kibera benefit all of
Nairobi
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Riv
er
City
Slum
Slum networking can provide improved flood protection to city
Flooding
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Riv
er
City
Slum
Pressure
Illegal connections
Pressure deficits
Equity pressure distribution
Slum networking can provide improved water services to all
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Manage water supply, wastewater & stormwater together (one urban water cycle)……. and think creatively about what could be your water sources (and don’t focus on the obvious ones).
Take home message
(educate future urban leaders on the integrated perspective of the urban water cycle and contextualize each component of the water system within this perspective)
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Gray Water
Waste water
Storm water
Potable water
Rain water
We need to build connections between silos
G, I
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The water sector can’t do it alone
Land plannersArchitectsDevelopers
Gov’t officialsFinanciersEnergy experts
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Think about Harvesting
Integrated Treatment
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Entrepreneurs see the harvesting potential, India
Collection, transport, treatment and reuse-system (GTZ,2009)
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Entrepreneurs see the harvesting potential, Durban
Fecal sludge into safe fertilizer: LaDePa machine
Fecal Sludge
Medium-wave
Infrared
Radiation
Save Pellets
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We’re harvesting for Agriculture: China
Under the 11th five-year plan, 400 million m3 treated wastewater available for agriculture in Beijing in 2010
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Heat exchanger in sewers
MITIGATIONHarvesting heat from sewers
Dalian-Xinghai (China) : Environment-friendly heating and cooling
Heat is reclaimed from treated sewage water of the adjacent sewage treatment plant
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Grey water
Brownwater
Urine
Solid waste
Think about a Water Machine
Surface Water
Ground Water
Rain Water
Energy
Heat E
n.en
ergy Potable
WaterReclaimed non-potable
QualityA,B,C
Hygienized Sludge
Nutrients
Electr
ic En
.
G,R,FX-S
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Photos courtesy: West Basin MWD
Tertiary: Irrigation
RO(Double): Refinery
RO (Single): Refinery
Nitrified: Cooling
2nd+RO+MF: AAR
Water Machine – ‘designer waters’
1
3
2
4
5
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Water Machine: Semi - Centralized
TU Darmstadt | Institute IWAR | Cornel et al.
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Xing Dao – water machine proposal
TU Darmstadt | Institute IWAR | Cornel et al.
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But how will water machines be plumbed?
Service water for toilet & laundryService water for garden
Potable water
Pipe Bundles for Different Water Qualities
Kitchen Bath
ToiletLaundry
Garden
Water Machine Water Users
Challenge: Deliver Water Quality Fit for Purpose
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Driver for water management should be beneficiation –maximize
value added (institutions & regulations to support and
not hinder)
‘All water is good water: fit for purpose’
Take home message
(educate future urban leaders on all benefits of water – public health, aesthetics, economic development, drive green economy)
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Clustered Approach to UWM
In order to implement the principles a clustered approach to water management is helpful.
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Clusters allow maximum efficiency while giving adaptive capacity
A supply and treatment unit (water machine) for each district
• Semi central supply and treatment unit as part of clustered city structure
• Use scalability of treatment technology (membranes)
• Customized supply and treatment for each cluster
• Utilizing synergy effects and re-use potentials
TU Darmstadt | Institute IWAR | Cornel et al.
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CHP
CHP
CHP
CHP
CHP
CHP
CHP
CHP
CHP
CHP
CHP
Energy sector is already thinking in these lines
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Look for opportunities to create new paradigms (not extended old ones)
Formalised Water System
Small scale providers
Growth
Decentralizedcommunity based
Expansion of existing system to serve new
demand
New demand
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Xi’anCentral
city
Qujiang New District
Xi’an – newly developed district as independent water system
North lake
South lake
Associatedwetland
Districtwastewatertreatment
plant
District wastewater network
District storm water drainage
(Secondary treatment)
(Tertiary treatment)
(Regulationlakes)
Gardening
Forestation
Miscellaneoususes
Car washing
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ARUA
MBALE
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Central infrastructure core expanding
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A1
A2
A3
A4
A5
A8
A7
A6
Let’s ring fence the old paradigm
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A1
A2
A3
A4
A5
A8
A7
A6
Let’s ring fence the old paradigm
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Riv
er
Surface water
Greywater
Groundwater
Black waterPotable water
Biogas Productio
n
A8
Discharge to the river
Tailor made solutions for cluster
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Semi-Centralized is cheaper?
A9
Average Annual Costs 3,787,000 US$
Average Annual Costs 5,148,000 US$
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Manage water supply, wastewater & stormwater together (one urban water cycle)……. and think creatively about what could be your water sources (and don’t focus on the obvious ones).
Take home message
(educate future urban leaders on the integrated perspective of the urban water cycle and contextualize each component of the water system within this perspective)
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Smart Thinking
Smart Water, Smart Networks, Smart by Design
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New low pressure/super strong membranes make them attractive to developing countries
Storage tank
0.4m hydrostatic pressure
To the tapClean water storage tank
Super smooth carbon nano-tubes Buckyball treated membranesRichard Merritt (2009)
Source: eawag
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Scalability of membranes makes them very attractive across a continuum of options
City/Town Scale
Point-of-Use
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Networks of the future will have lives of their own
Smart Pipes
• Nano scale sensors embedded into pipes during manufacturing.
• Sensors monitor data on hydraulic, material, and environmental
• Sensors provide geo-referenced data points
Metje et al. 2011
Corrosion formation
Corrosion Repair
Self Healing
• Various strategies: capsule, vascular, intrinsic
• Pipes store healing agents and polymerizers that solidify when mixed
• Healing efficiencies 100%
• Recovery strength >100%
White et al. 2011
Frictionless
• Slippery Liquid-Infused Porous Surfaces (SLIPS)
• Super-thin Nano-substrates infused with a liquid lubricant creates a smooth surface
• Reduced biofilm formation by 96-99%
Epstein et al. 2012
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‘Smart’ helps manage pipe-bursts more effectively
Allen et al. 2011
Calculate Location of Burst Optimal ValveIsolation
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Allen et al. 2011
Isolate Leak
‘Smart’ helps manage pipe-bursts more effectively
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Allen et al. 2011
Repair Team
Alert Customer
Pipe Break- Location GPS- Pipe Material- Pipe Depth- …
‘Smart’ helps manage pipe-bursts more effectively
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‘Smart’ allows appliances to negotiate with the water market
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Smart meter
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Smart meter
Central Control Unit
‘Smart’ allows appliances to negotiate with the water market
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Central Control Unit
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Flattened Peak
Flattened Peak
‘Smart’ allows appliances to negotiate with the water market
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Transitioning
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Transitioning
Graph Theory Transition Systems
Existing System
Future System Based on Old System
Future System Totally
New System
Transit
ioning ?
Transitioning
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Sempewo, J., Vairavamoorthy, K. and Grimshaw, F. (2010)
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Move away from tinkering and think about how you might have designed from scratch -then look at transitional pathways & don’t be scared to decommission
Take home message
Institutions are the origin of change and the
medium for legitimizing change
MMM
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Choices Before Us
What You Know..
What You Don’t Know..
What You Know..
Stay in Lane - Business as
Usual
Try Harder, Spend More for
Traditional Sys
Truly Different Approach