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Deck 14: Ocean Thermal Energy Conversion and Ocean Salinity Gradient Energy
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Question
Compare the osmotic power available from freshwater flowing at a rate of 
Question
An offshore OTEC facility operates with a warm reservoir temperature of 
Question
(a) Calculate the energy available when a 106 kg parcel of water is cooled 
Question
Calculate the average thermal power that is available during that time. Question
A 20 MWe OTEC facility operates at a thermal efficiency of 2.4%. The 
Question
Question
The Amazon River has a flow rate of 
Question
Consider the possible design of an OTEC facility that has an electrical 
Question
An OTEC facility has a total flow rate of 
water from the deep ocean is at 5°C. During the year the surface water temperature varies
from 19°C to 22°C. Plot the output as a function of warm water temperature over this
range.
water from the deep ocean is at 5°C. During the year the surface water temperature variesfrom 19°C to 22°C. Plot the output as a function of warm water temperature over this
range.
Question
Question
The salinity (mostly NaCl) in some parts of the Great Salt Lake (Utah) is 
Question
(a) Calculate the gravitational potential energy associated with 
Question
Question
Question
Question
In the Arctic, winter air temperatures can average around 
Question
Make a plot of the height of a column of water (in meters) that the osmotic 
Question
The Mississippi River, the largest of all rivers in the United States, has a 
Question
An ideal OTEC system has a flow 
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Deck 14: Ocean Thermal Energy Conversion and Ocean Salinity Gradient Energy
1
Compare the osmotic power available from freshwater flowing at a rate of
For a total osmotic power of 1 
2
An offshore OTEC facility operates with a warm reservoir temperature of
efficiency is 
3
(a) Calculate the energy available when a 106 kg parcel of water is cooled
Using the values 
4
Calculate the average thermal power that is available during that time. Unlock Deck
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5
A 20 MWe OTEC facility operates at a thermal efficiency of 2.4%. The
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6
It has been speculated that an OTEC facility could use wave energy to offset
its low efficiency by providing electrical energy for operating the plant. Where would the
most advantageous location(s) be for such a facility? If the facility could intercept 200 m
of wave front for your chosen location and had a total output of 100 MWe, what fraction of
this total output would be from waves? Assume the efficiency of wave-generated
electricity to be 35%.
its low efficiency by providing electrical energy for operating the plant. Where would the
most advantageous location(s) be for such a facility? If the facility could intercept 200 m
of wave front for your chosen location and had a total output of 100 MWe, what fraction of
this total output would be from waves? Assume the efficiency of wave-generated
electricity to be 35%.
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7
The Amazon River has a flow rate of
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8
Consider the possible design of an OTEC facility that has an electrical
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9
An OTEC facility has a total flow rate of water from the deep ocean is at 5°C. During the year the surface water temperature varies
from 19°C to 22°C. Plot the output as a function of warm water temperature over this
range.
water from the deep ocean is at 5°C. During the year the surface water temperature variesfrom 19°C to 22°C. Plot the output as a function of warm water temperature over this
range.
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10
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11
The salinity (mostly NaCl) in some parts of the Great Salt Lake (Utah) is
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12
(a) Calculate the gravitational potential energy associated with
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13
If the temperature drops across the evaporator and condenser of an OTEC
system are equal, prove that the relative temperature drops as given in equation (14.4) will
maximize the power output.
system are equal, prove that the relative temperature drops as given in equation (14.4) will
maximize the power output.
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14
Estimate the salinity of the Dead Sea from the information in this chapter.
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15
Consider the experiment of Jean-Antoine Nollet as described in the text,
which illustrates the osmotic pressure between water and wine. Assume wine is 12% (by
volume) of ethanol in water, and estimate, as in Example 14.4, the height of a column of
water that the osmotic pressure between water and wine can support. Note that the van 't
Hoff factor depends on the nature of the solvent and that a value of i ≈ 1.0 is appropriate
for ethanol in water.
which illustrates the osmotic pressure between water and wine. Assume wine is 12% (by
volume) of ethanol in water, and estimate, as in Example 14.4, the height of a column of
water that the osmotic pressure between water and wine can support. Note that the van 't
Hoff factor depends on the nature of the solvent and that a value of i ≈ 1.0 is appropriate
for ethanol in water.
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16
In the Arctic, winter air temperatures can average around
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17
Make a plot of the height of a column of water (in meters) that the osmotic
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18
The Mississippi River, the largest of all rivers in the United States, has a
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19
An ideal OTEC system has a flow
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