4. Water (Ming) a. Name the different technologies utilizing energy stored in water. Explain the basic operation principle of each technology. b. Explain how to calculate theoretical potential of energy output from hydro power stations. What are the influencing parameters? Provide an overview of the global development status on the technologies which utilize energy stored in water. C. 5. Nuclear (Bent) a. Describe the fission process and energetics. b. What are the basic components of a PWR? C. Describe the plutonium cycle (closed cycle) of a fast reactor.

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Hey Can someone help with these questions in the pictures explanation and answer short and great please. Thank u
C.
number of hours per year of each wind speed band
C.
1200
1000
800
600
400
200
0 1 2 3 4 5 6 7 8
F(u)
1
5. Nuclear (Bent)
■
9 10 11 12 13 14 15 16 17 18 19
wind speed/m s™¹
kw-1
kw
น
น
- ** (**)*^*~*~ -x [ - (-)**]
=
exp
Aw Aw
Aw
Figure 8.29 A wind speed frequency distribution for a typical site
Please provide names of turbine components, and explain how energy is calculated based
on the figure below.
Available power
P = 1/2mV² = 1/2 PAV³
Shaft power
.
Ps= P · Cp=
>↑↑↑↑↑
2PAV3.Cp
Weibull parameters
Shape: kw
Scale:
A = R²
L
4. Water (Ming)
a. Name the different technologies utilizing energy stored in water. Explain the basic
operation principle of each technology.
b.
Explain how to calculate theoretical potential of energy output from hydro power stations.
What are the influencing parameters?
Provide an overview of the global development status on the technologies which utilize
energy stored in water.
Aw [m/s]
a. Describe the fission process and energetics.
b. What are the basic components of a PWR?
C. Describe the plutonium cycle (closed cycle) of a fast reactor.
Transcribed Image Text:C. number of hours per year of each wind speed band C. 1200 1000 800 600 400 200 0 1 2 3 4 5 6 7 8 F(u) 1 5. Nuclear (Bent) ■ 9 10 11 12 13 14 15 16 17 18 19 wind speed/m s™¹ kw-1 kw น น - ** (**)*^*~*~ -x [ - (-)**] = exp Aw Aw Aw Figure 8.29 A wind speed frequency distribution for a typical site Please provide names of turbine components, and explain how energy is calculated based on the figure below. Available power P = 1/2mV² = 1/2 PAV³ Shaft power . Ps= P · Cp= >↑↑↑↑↑ 2PAV3.Cp Weibull parameters Shape: kw Scale: A = R² L 4. Water (Ming) a. Name the different technologies utilizing energy stored in water. Explain the basic operation principle of each technology. b. Explain how to calculate theoretical potential of energy output from hydro power stations. What are the influencing parameters? Provide an overview of the global development status on the technologies which utilize energy stored in water. Aw [m/s] a. Describe the fission process and energetics. b. What are the basic components of a PWR? C. Describe the plutonium cycle (closed cycle) of a fast reactor.
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