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Tide Energy Technologies. San Jose State University FX Rongère April 2008. Tidal Dams. Tidal Dam. The dam creates a difference of potential energy between the tide pond and the open sea. Δ z. Power Generation. For the chosen control volume, the system is in steady state, then:. - PowerPoint PPT Presentation
Transcript of Tide Energy Technologies
Tide EnergyTechnologies
San Jose State University
FX RongèreApril 2008
Tidal Dams
Tidal Dam
The dam creates a difference of potential energy between the tide pond and the open sea
Δz
).( AAAA
AA
AA
AOpen
khmWQdt
dE
Power Generation
121212.
kkhhmW
T
dTCds
dPdTCdh
dTCdu
.
.1
.
.
2
22
1
12
.2
1
0
.
A
mk
k
TT
gz
P Incompressible fluid:
For the chosen control volume, the system is in steady state, then:
Power Generation
0000 ...1
....1
zgPzgzzgPzzh
2
212 .
.2
1.
A
mzzgmW
Power Generation
mdt
dzA
And
zzifzzg
Am
zzifzzg
Am
Then
vAW
tRztz
zzgmW
zzgA
mif
pool
T
T
T
m
1
2121
2121
3
2
12
12
2
2
..
.2..
.2..
2...
..2cos.2
.
.
..
2
1
With:
τ : tidal period
η : Turbine conversion rate
AT: Area of the turbine
R : Range of the tide
Apool: Area of the tidal pool
)()(.)()(..2. 21211 tztzsigntztz
g
A
A
dt
dz
pool
T
Basin Management
To optimize power generation the flow gates are kept closed some time after high and low tides Tide and Basin Management
La Rance
0
2
4
6
8
10
12
0 4 8 12 16 20 24
Time (hour)
Wat
er lev
el (m
) Po
wer
(M
W)
Sea Level
Basin Level
Power
La Rance Tidal Power Plant
Tide mean range: 8.4m Tide basin area: 22 km2
10 m9 m8 m7m6m5m4m3m
La Rance Tidal Power Plant
24 Units of 10 MW each built between 1961 and 1967
700 m dam 480 GWh/y CF=23%
The Severn Barrage (UK) Capacity: 8,640 MW, 17 TWh, CF= 23%,
Length=15.9 km
In the Bristol Channel Range 8.2 m, Basin Area: 480 km2
The Severn Barrage (UK)
Economics
Severn Barrage costsMM MM
Civil Engineering 4,900£ 9,800$ Power Generation 2,400£ 4,800$ Power Control 380£ 760$ Management 300£ 600$ Land sea defences 30£ 60$ Effluent Discharge 80£ 160$
Total 8,090£ 16,180$ Additional cost (Grid) 1,230£ 2,460$
Total investment cost 9,320£ 18,640$ Annual Maintenance cost 70£ 140$ Generation 17 TWhAnnual Revenues ($60/MWh) 595£ 1,190$ Simple Payback Period 15 years
The Severn Barrage (UK)
Tidal Streams
There are generated by the difference of water levels
Golden Gate Currents
Current Golden Gate San Farncisco - 21-24 November 2007
1.8
6.6
-0.8
4.8
2.2
6.9
-1.4
4.9
2.5
7.1
-1.8
4.9
2.8
7.1
-1.8
-6.00
-4.00
-2.00
0.00
2.00
4.00
6.00
8.00
0 24 48 72 96
Time (hours)
Cur
rent
(m
/s)
Model
BasinOcean R
C
z1z2
tctm
tbtz
then
tatz
If
.sin..
.cos.
.cos.
1
2z1 has the same period as z2 and a phase-shiftCurrent has the same period as z2 and is in quadrature with z1
Current Power
The power of the current is similar to the power of the wind
A
AA
A
AA
AA
AAAA
AA
AA
AOpen
vvmW
khmWQdt
dE
2.
2.
).(
32
Available energy is proportional to the cube of the current velocity
2..
3vAW Max
Power Density
(m/s) (Miles/h) (knots) (W/m2)1 2.2 1.9 5002 4.5 3.9 4,0003 6.7 5.8 13,5004 8.9 7.8 32,0005 11.2 9.7 62,500
Current Speed
Shear Effect
Current Velocity Profile (3 knots at
the surface - depth 10m - exp 0.16)
0
2
4
6
8
10
12
0.00 0.50 1.00 1.50 2.00 2.50 3.00
Velocity (Knots)
Altitude fro
m the b
otto
m (m
)
The Golden Gate Site
Golden Gate
maximum depth = 377 feet
Turbine main components
Rotor• Extracts power from flow• Turns at low RPM 10-30
rpm• Efficiency varies with flow
velocity (45% max)
Gearbox• Increase rotational speed
of shaft from turbine• 80-95% efficient
Foundation• Secure turbine to seabed• Resist drag on support
structure and thrust on rotor
Generator and Power Conditioning• Generate electricity• Condition electricity
for grid interconnection
• Turns at high RPM• 95-98% efficient
Source: Brian Polagye Tidal In-Stream Energy Overview March 6, 2007
General concept is similar to wind turbines
Turbines
2...
3vAW TT
η is the conversion rate of the turbine, typically 25% to 35%
300 kW, 6 m prototype developed by Marine Current Technologies in operation in the Bristol Channel since 2003
1 MW, 20m twin rotor prototype currently developed by Marine Current Technologies installed in Northern Ireland’s Strangford Lough (2008)
Marine Current Technologies
Strangford Lough project
Strangford Lough project
Turbines
Verdant Power
35 kW, 5m Diameter turbine developed by Verdant. Prototype installed in New York at Roosevelt Island (2006 2008). Project of 175 kW
Turbines
Lunar Energy
2 MW, 21m 7 blade rotor prototype currently in development
Gravity Foundation: concrete slab
Power augmentation by convergent-divergent ducting to increase conversion rate
Promising since 2
...3v
AW TT
Turbines
Clean Current Pile Mounted 4 bladed, 14 m, 1 MW A 65 kW prototype has
been Tested at Race Rocks from Sep 2006 to May 2007
Race Rock is a marine reserve run by Lester B.Pearson College on Vancouver Island (Canada)
Turbines
Open Hydro Open Center
Rotor Diameter 15 m rated at 1.5 MW
Operating Conditions: Current speed > 0.7 m/s Prototype under test at European Marine Energy Center (UK) – Dec. 2006
Source: Bruce H. Adee Tidal Power Technology Update August 9, 2007
Gorlov Different mounting
Prototype has been tested at Uldomok Strait in Korea in 2002
1 m diameter and 2.5 m high 1.5 kW
Enemar KoboldMoored – surface mounted3 vertical articulating blades vertical: 5.0 m diameter: 6 m chord: 0.4 m25 kW @ 2.0 m/sPrototype has been deployed in Straits of Messina 4 years operational experience
The Energy Business Limited
Foundation TechnologiesMonopile
• Small footprint• Established technology
used in offshore wind
Gravity Base
Chain Anchors
Tension Leg
Hollow steel pile driven or drilled into seabed
Pros:
• High cost in deep water• Installation expensive
for some types of seabed
Cons:
Heavy foundation of concrete and low cost aggregate placed on seabed
• Deep water installation feasible
Pros:
• Large footprint• Scour problems for some
types of seabed• Decommissioning
problems
Cons:
• Small footprint• Deep water
installation feasible
Chains anchored to seabed and turbine
Pros:
• Problematic in practice• Device must have high
natural buoyancy
Cons:
Submerged platform held in place by anchored cables under high tension
• Small footprint• Deep water
installation feasible
Pros:
• Immature technology now being considered for offshore wind in deep water
Cons:
(10-40m)
Source: Brian Polagye Tidal In-Stream Energy Overview March 6, 2007
Projects Worldwide
Gulf Stream Current
Florida Current Resource
2..
3vAW Max
1.9 2.4 2.8 3.1Current speed (knots)
Companies to follow Blue Energy Canada Clean Current Technology Marine Current Turbines GCK (Gorlov) Lunar Energy Open Hydro Enemar Kobold Verdant Power Seapower Tidal Electric Aquantis
Annapolis Tidal Generating Station (USA)
