World Engineers Summit Conf, Singapore July 2015 [Compatibility Mode]
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Transcript of World Engineers Summit Conf, Singapore July 2015 [Compatibility Mode]
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Global Water Security:Challenges and Opportunities
by
Roger A. FalconerCH2M Professor of Water Management
IAHR President
Hydro-environmental Research CentreSchool of Engineering, Cardiff University
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Water Security: Increasing Attention
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World of WaterKey facts:
● Total global volume ≈ 1.4 billion km3
● Only 35 million km3
of freshwater
● Only 105 thousand km3 is accessible (0.01% of total vol.)
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Water Availability - Some Challenges● Nearly 70% of world’s fresh water is locked in ice
● Aquifers are being drained much more quickly than natural recharge rate
● 2/3rd of world’s water is used to grow food
● 83 million more people live on planet each year
● Current demand for fresh water is not sustainable
● On average, every $1 invested in water and sanitation provides an economic return of $8
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Water Security - Some Challenges● 1.2 bn people have no access to safe drinking
water and 2 m die annually of diarrhoea
● 2.4 bn people do not have access to basic water sanitation and 10 m contact hepatitis A annually
● Women in developing countries walk an average of 6 km daily to get water
● Flooding causes many deaths globally - e.g. Aceh
● More than 1/2 hospital beds in world are filled by people with water related diseases (BMJ 04)
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Water Security - Typical Challenges
Source: http://water.org/learn-about-the-water-crisis/
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Water Security - Typical Challenges
Source: http://water.org/learn-about-the-water-crisis/
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Water Security - Typical Challenges
Source: http://water.org/learn-about-the-water-crisis/
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Limited but Vital ResourceWater is needed to:
● Sustain human life
● Support production of food
● Support production of energy
● Sustain industry
● Maintain ecosystems biodiversity and landforms
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Stern 2006: Climate Change Impacts
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Impacts of Population Growth
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Water-Food-Energy Nexus
Water
Energy Food
Finance
Trade
Society
Environment
Climate change
Urbanisation
Lifestyle
Diet
Can we just considerCarbon Footprint in isolation?
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Africa Asia EU Global
● Domestic 7% 6% 13% 8%
● Industry 5% 8% 54% 23%
● Agriculture 88% 84% 33% 69%
Water Abstraction - Food Link
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Water Stress Globally: 1990
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Water Stress Globally: 2050
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Four Reasons for Action● Water scarcity is increasing with
1/5th of world’s population living in areas of water scarcity
● Sustainable Development Goals - 5 linked to water issues
● Conflicts over water have taken place and are likely to rise
● Economic growth affected by water availability and quality
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Pressure on Water Resources● Population to increase by ≈ 50% over next 50 yr
● Urbanisation to city regions particularly coastal
● Food production needs to double in 40 years
● Industry demand needs new energy sources
● More disposable income change in diet & more meat consumption, e.g. China: 11 kg/person/yr in 1975 50 kg/person/yr in 2000 (FAO)
● Changing diets more water:- 1 kg beef ≈ 15,500 litres of water, 1 kg of wheat ≈ 1,300 litres of water
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Water Management - Water Cycle
blue
green
riverslakesaquifers
soilmoisture
withdrawals• domestic• industry
returns• wastewater• surplus
irrigation
transpiration (consumptive use)
ocean
food
products(inc. energy)
domestic
export
export
domestic
virtualwater
virtualwater
rivers
consumptive use
returnsto river & groundwater
blue
green
riverslakesaquifers
soilmoisture
withdrawals• domestic• industry
returns• wastewater• surplus
irrigation
transpiration (consumptive use)
ocean
food
products(inc. energy)
domestic
export
export
domestic
virtualwater
virtualwater
rivers
consumptive use
returnsto river & groundwater
100%
36%
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1 bath
Virtual Water Content
26 baths73 baths
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Water Footprint of a Nation● Water used to produce goods and services
consumed within a nation
● Two components:-Internal water footprint - from inside countryExternal water footprint - from other countries
● National water footprint =
National water use +
Virtual water import – Virtual water export
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Water Footprint of Nations3827 58 35 127 314 817Export
Equivalent to
4.5 m3 / day
SOURCE: Hoekstra and Chapagain 2008
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External WF= 63.6 Gm3/yr
Internal WF= 38.6 Gm3/yr
UK Water Footprint (WF)
Internal WF:-Household = 3.3Agriculture = 28.4Industrial = 6.9
External WF:-Household = 0.0Agriculture = 46.4Industrial = 17.2
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Blue WF of EU Cotton Consumption
SOURCE;Hoekstra & Chapagain, 2008]
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Impacts Shrinking Aral Sea
Consumption in one place can impactdrastically on water elsewhere
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Impacts Shrinking Lake Chad
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● Large unsustainable irrigation projects
● Local climate change and local deforestation
● Resulting in:-
Lake area decreased by 95% since 1963
Crop failures
Livestock deaths
Collapsed fisheries
Increased poverty
Impacts Shrinking Lake Chad
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Water Footprint of Biofuels
Source
Source: Gerbens-Leenes et al. National Academy of Sciences 2009
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Public Education of Water FootprintA typical football shirt made of Cotton 2,700 litres of water
Do football clubs need to change their shirt every 1-2 years?
This water could be used to grow food
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What Price is Water (e.g. UK)?
$4.6 for 1m3
(1 person’s mean useper week or 150l/d)
$3.80 $1.50 $3.80 $4.60
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Recognising Eco-system Services
EcosystemServices
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Eco-systems Services - Market● Provisional services controlling water quality
and quantity for consumptive use
● Regulatory services buffering for flood flows and provision of habitat services
● Cultural services recreation and tourism
● Support services nutrient cycling and eco-system resilience to adapt for climate change
● Conservation services forests reduce GHG emissions significantly estimated $3.7Tr
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Eco-systems Services - Tidal Energy ● Methodological Approach (Arup): Current market price for services such as:- Flood Risk
Protection, Tourism, Recreation and Regeneration
Value:- Habitat Provision
Impoundment Area 116 km2Potential Energy 1.91 TWh/yr (0-D)
Proposed Clwyd Tidal Impoundment
Impounded Area 500 km2
Potential Energy 17 TWh/yrProposed Severn Barrage
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Tidal Range - Economic Opportunity
Investment
in construction
Total economic
activity
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Tidal Range - Economic EvaluationTourism and Recreation – Severn Barrage and Clwyd Impoundment
Water sportsTourism from a new
landmark
Habitats recreation
Properties safeguarded from flooding
More secure tourism income and scope for
developing
Potential as a dormitory town for North West England
realised
Brings more money into area to strengthen and enhance local facilities
Ecosystem Service Severn BarrageFlood risk and land drainage £219m benefit over 100
yearsHabitat Provision £34m‐£104m cost over
120 yearsTourism and Recreation £3m‐£27m in annual GVA
Regeneration £26.0bn capital cost with up to £47.8bn GVA over 8 years’ construction period
Ecosystem Service Clwyd Tidal ImpoundmentFlood risk and land drainage £2.45bn benefit over 100
yearsHabitat Provision Not assessedTourism and Recreation £270m‐£670m secured
annual tourism spendRegeneration £3.5bn capital cost with up
to £6.5bn GVA over 5 years’ construction period
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Solutions Water Security● Desalination expensive, relatively large carbon
footprint and hydro-environmental challenges
● Conservation and water re-use to be encouraged but only deals with domestic consumption
● Storage, water transfer & integrated water resources management needs more holistic solutions
● Improved water quality in pathways and basins pollution exacerbates water security
● Global population growth needs addressing
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CatchmentModel
GroundwaterModel
SewerModel
1D RiverModel 2D Estuary
Model3D Ocean
Model
Design and BuildChallenges
Particle travels from Cloud to Coast (picking up pollutants etc.) does not know which part of system it’s in at any given time
Cloud to Coast - IWRM Solutions
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Traditional System Layout
Concerns: low flows and ecological impact downstream of abstractions
Abstraction
Reduction in River flow
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Preferred System Layout
No Significant Change in River flow
Benefits: flow and ecology maintained downstream of abstraction
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Fylde Coast - Ribble Estuary, U.K.
London
Blackpool
LythamSt Anne’s
Ribble Estuary
River Wyre
Southport
Fleetwood
Compliance point
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Background● Failure to meet EU Bathing Water standards
● Storm sewers and sewage works discharging along coast thought to be main problem
● Combined storm water and sewer overflows discharge into water courses and rivers
● Field surveys undertaken to establish inputs and failure levels at compliance points Surveys unable to provide definitive conclusions Data could not allow for impact of future proposed
capital improvements to works to be assessed
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Blackpool
Lytham St AnnesRiver Ribble
River DouglasRibble Estuary
River Wyre
Bathing waterPumping stationTreatment works
Key
Southport
Water Assets● $800 million
invested from 1993 – 1996
● 3 major sewage treatment works
● 5 pumping stations with storm outfalls along coast
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Objectives● Refine HRC hydro-environmental modelling tools
● Quantify impact of sewage inputs into Ribble basin on coastal bathing water quality
● Investigate influence of various parameters such as wind, tidal range, river discharge, etc
● Allow for continuous and intermittent inputs
● Incorporate land use changes and diffuse source inputs as boundary fluxes when data available
● Propose management strategies for basin
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Linked 2-D and 1-D Models
326000 330000 334000 338000 342000 346000 350000 354000 358000 362000418000
422000
426000
430000
434000
7mile
3mile
Tarleton Lock
Bullnose
PenworthamBlue Bridge
Darwen Boundary
Douglas River
Ribble Boundary
Downstream Boundary
Measuring Water Elevation
Tide Survey
Measuring Discharge
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Current Calibration
53 54 55W
ater
Ele
vatio
n (m
) Model
Measured
-4-3-2-10123456
30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52
-0.5
0
0.5
1
1.5
2
2.5
30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55
Tim e (hours)
Spee
d (m
/s)
Model
Measured
-500
50100150200250300350400
30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55
Tim e (hours)
Dire
ctio
n (d
eg)
Model
Measured
Time (hours)
Time (hours)
11 Milepost
3/12/98Emax=4.7%
Emin=1.9%
Emax=13.0%
Emin=9.7%
Emin=2.2%
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Ribble EstuaryModel Calibration
11 milepost
11 May 1999 Wet Weather Neap Tide
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19 May 1999 Dry Weather Spring Tide
Ribble EstuaryModel Calibration
11 milepost
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Coliform Predictions
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Review of Previous Study ● Previous study undertaken at Cardiff gave good
calibration agreement separately for 1-D and 2-D models before linking, but needed:
Different values of decay rates
Different values of dispersion coefficients
Different flow area representations over linked region
Different values and formulations for roughness coefficients in 1-D (ks) and 2-D (n) models
Simplified treatment of kinetic decay and source inputs for stochastic inputs from discharges
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Overview of Previous Study ● Observations made between 1-D & 2-D parts of
linked model Different dispersion coefficients
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C2C: Common Dispersion● 1-D / 2-D longitudinal dispersion (Preston 1985):
Distribution FIO Levels at Mid Ebb Tide
(a) Old Model (b) Common Dispersion
Fully integrated model shows greater sensitivityto land use changes at compliance point
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General Challenges● Security of clean water supply will become an
increasing challenge over next 30-50 years
● Increasing concern about water quality in rivers, estuaries and coastal basins world-wide
● Traditionally water engineers and scientists have focused emphasis on flow and gross water quality
● Increasing emphasis now needs to be focused on improving bio-geochemistry and health risk in hydro-epidemiological impact assessment tools
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Conclusions General● Intensify debate around fundamental role of water
● Better understand levers to close supply-demand gap
● Government, private sector and communities must better harmonise their aspirations for water use
● Correlate countries hydrologically best suited to grow food for 9 bn people by addressing trade barriers, price supports and other subsidies
● Water professionals need to stand up and be counted and get out of the box
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Conclusions Hydroscience● Need better tools for weather modelling, precipitation
prediction and better data to understand processes
● Need new tools for improved process representation in design of water supply and treatment works
● Need better monitoring strategies for highly episodic events, both for flow and epidemiological data etc.
● Need new hydroinformatics tools for more efficient use of water for agriculture more ‘crop per drop’
● Hydroscience tools driver for global water security