IMPACTS OF MARINE ENERGY ON COASTAL ......B) TIDAL POWERB) TIDAL POWER – BARRIER...
Transcript of IMPACTS OF MARINE ENERGY ON COASTAL ......B) TIDAL POWERB) TIDAL POWER – BARRIER...
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IMPACTS OF MARINE ENERGYON COASTAL SEDIMENTATION
DAVID PRANDLEDAVID PRANDLE
A) MARINE ENERGY – PRACTICALITIES?A) MARINE ENERGY PRACTICALITIES?
B) TIDAL POWER
C) COASTAL SEDIMENTS
D) GRAND CHALLENGES
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MARINE ENERGY – PRACTICALITIES ?
PARAMETER
THEORY
LA
KOREA
FUNDY
BRISTOL
RANCE CHANNEL SURFACE AREA
22
56
86
420
Km2
TIDAL A AMPLITUDE
4.25 4.0 5.0 4.0 m
EMAX= 4ρgA2S/P
350
360
1900
5900
MW
ρg Actual Output
27
16
17
20
19
%
Rated Head h
1 2
1 3
1 4
1 3
2 2
h/ARated Head, h
1.2 1.3 1.4 1.3 2.2 h/A
Rated Flow, q
0.4
0.5
0.2
0.4
1.9
q/Q
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ONLY WITH A CARBON TAX/SUBSIDY
PARAMETER
THEORY
LA
KOREA
FUNDY
BRISTOL
RANCE CHANNEL SURFACE AREA
22
56
86
420
Km2
TIDAL A AMPLITUDE
4.25 4.0 5.0 4.0 m
EMAX= 4ρgA2S/P
350
360
1900
5900
MW
ρg Actual Output
27
16
17
20
19
%
Rated Head h
1 2
1 3
1 4
1 3
2 2
h/ARated Head, h
1.2 1.3 1.4 1.3 2.2 h/A
Rated Flow, q
0.4
0.5
0.2
0.4
1.9
q/Q
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LIKELY SCENARIO ?LIKELY SCENARIO ?
10 20 year 'window' for bitter 'proof' of GCC10-20 year window for bitter proof of GCC
Renewable Energy Research Requirements:gy q
Assess scale & nature of availability
Engineering designs for extraction
Assess associated environmental impacts*
*diff ti t f t GCC i t*differentiate from concurrent GCC impacts
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B) TIDAL POWER – BARRIER CHARACTERISTICSB) TIDAL POWER BARRIER CHARACTERISTICS
N t i ld 27% f ' i ' ( )• Net energy yield ~ 27% of 'maximum' (one-way)• ~ 37% ( two-way
• Sea levels in impounded basin ~ msl to HW• Flushing rate reduced ~ 50%g
• 10 year construction period• No energy production until completion• No energy production until completion
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Tidal energyTidal energy Tidal stream devices
Marine current turbines e.g. Seaflow (left)
Stingray (below)
La Rance tidal barrage
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Tapping the Tidal Power Potential of the Eastern Irish SeaCromarty FirthLoch Broom
Tapping the Tidal Power Potential of the Eastern Irish Sea
? Tidal barrage or
Loch Etive
R ( ) L th ( ) C it (MW) O t t (GWh)
7.46m
?
11 hours
SolwayTidal barrage or tidal fence
Solway Firth
Morecambe bay
Mersey WashHumber
Range (m) Length (m) Capacity (MW) Output (GWh)Severn 7 20000 15000 22000Morecambe 6.3 16600 4000 5400Solway 5.5 30000 5580 10050
Tidal stream
Relative time of
DeeDovey
Milford Haven Severn
Langstone HarbourThames
Hamford water
Dee 5.95 9500 800 1250Humber 4.1 8300 1200 2010Wash 4.45 19600 2760 4690Thames 4.2 9000 1120 1370
Irish Morecambe
Relative time of tidal high water levelDirection of tidal
Padstow Langstone 3.13 550 24 53Padstowe 4.75 550 28 55Hamford 3 3200 20 38L. Etive 1.95 350 28 55Irish
Sea ? Ribble
Direction of tidal propagation
Tid l l
Cromarty 2.75 1350 47 100Dovey 2.9 1300 20 45L. Broom 3.15 500 29 42Milford Haven 4.5 1150 96 180
Mersey
8.5m
5.5m10 hours
? Tidal lagoons
Spring tidal rangePrevious UK barrage studies
Milford Haven 4.5 1150 96 180Mersey 6.45 1750 620 1320
MerseyDee
5 5 e ous U ba age s ud es
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OPERATIONAL, UNDER CONSTRUCTION, DESIGNED BARRIER SCHEMES
PARAMETER
THEORY
LA RANCE
KOREA
FUNDY
BRISTOL CHANNEL
RANCE CHANNEL SURFACE AREA
22
56
86
420
Km2
TIDAL A AMPLITUDE
4.25 4.0 5.0 4.0 m
EMAX
350
360
1900
5900
MWEMAX=
4ρgA2S/P 350 360 1900 5900 MW
Actual
27
16
17
20
19
%
Output Rated Head, h
1.2
1.3
1.4
1.3
2.2
h/A
Rated Flow, q
0.4 0.5 0.2 0.4 1.9 q/Q
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C) COASTAL SEDIMENTATIONC) COASTAL SEDIMENTATION
FORCING(tides,waves,storms)
↕ ↕
SEDIMENT ↔ MORPHOLOGICALTRANSPORT EVOLUTIONTRANSPORT EVOLUTION
all 3 closely inter-dependent at the coasty p
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Sediment transport – conservation eqn. with problems
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NEAR FIELD localised scour/sedimentationNEAR-FIELD localised scour/sedimentation
FAR-FIELD exchange of sediments on scales of :gtides
stormsseasonsseasons
climate eventsglacial cyclesglacial cycles
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IMPACTS OF MARINE ENERGY ON SEDIMENTSIMPACTS OF MARINE ENERGY ON SEDIMENTS
Wind 'Mills' – local/small effect on wave climate
Tidal Barriers - 'settling pond' large-scale shift of tidal patternsg p
Tidal Streams interruption of sediment pathwaysTidal Streams – interruption of sediment pathways
Wave - potential changes in magnitude and direction of longshore drift
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DepthBreadth
100000
Breadth
10000
100
1000
ista
nce
(m)
10
D
11 6 11 16 21 26 31 36 41 46 51 56 61 66 71 76 81 86 91 96
FutureCoast estuaries number
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Challenges for coastal sedimentation
IMPROVE DESCRIPTIONS OF:
1) SINKS & SOURCES1) SINKS & SOURCES coast/estuary
2)EROSION & DEPOSITION cohesives/mixed
3) FORMATION OF MESO-SCALE MORPHOLOGYdunes/saltmarsh/channels/banks
4)EFFECTS OF 'INTERVENTIONS' training walls/dredging/railways/offshore energytraining walls/dredging/railways/offshore energy
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GRAND CHALLENGESCOASTAL SEDIMENTATION
sensor instrument development
l tfplatform
flume experiments modellingmodelling
coastal observatory
forecasting morphologyseasonal/post-event/long-termseasonal/post-event/long-term
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10
8utflo
w
8
nt in
flow
/ou
onne
s)
ws = 0.0005 ms−16
ive
sedi
men
(mill
ion
to
inflows
outflow4
0
2
Cum
ulat
i
ws = 0.005 ms−1
inflowoutflow
2 4 6 8 1410 12 16 18 20 22 24 26 280 30 32 34 36 38 40 42 44 46 48 50 52 54 56 580
Semi-diurnal tidal cycles
NEAP SPRING NEAPNEAP SPRING NEAP
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High resolution Liverpool Bay/Dee coupled modelEA LIDAR/sonar survey, 2003, Dee Experiment
Model grid:1/400 degree1/400 degree longitude by 1/600 degree latitude ~200m resolution
Repeated 1-month
267*187 grid points
Repeated 1 month process studies including observations of waves, currents, turbulence, suspended sediment and bottom profile measurements aremeasurements are being made
PhD project on morphodynamic evolution
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GeologyTidesSurges gy
morphologySurgesWavesSed supplySed supplyBiol/chemevents
coastal protection
events
phabitat conservation
I t fturbulenceerosion/deposition
b d & t l f t
Impacts of GCC
bed & coastal features ‘interventions'