Heat is transferred by radiation and convection betweenthe inner surface of the nacelle of the wind turbine ofExample 1.3 and the outer surfaces of the gearbox andgenerator. The convection heat (lux associated withthe gearbox and the generator may be describedby q ″ c o n v . g b = h ( T g b − T ∞ ) and q ″ c o n v . g e n = h ( T g e n − T ∞ ) ,respectively, where the ambient temperature T ∞ = T s (which is the nacelle temperature) and h = 40 W / m 2 ⋅ K .The outer surfaces of both the gearbox and the generatorare characterized by an emissivity of ∈ =0 .9 . If the surface areas of the gearbox and generator are A g b = 6 m 2 and A g e n = 4 m 2 , respectively, determine their surfacetemperatures.
Heat is transferred by radiation and convection betweenthe inner surface of the nacelle of the wind turbine ofExample 1.3 and the outer surfaces of the gearbox andgenerator. The convection heat (lux associated withthe gearbox and the generator may be describedby q ″ c o n v . g b = h ( T g b − T ∞ ) and q ″ c o n v . g e n = h ( T g e n − T ∞ ) ,respectively, where the ambient temperature T ∞ = T s (which is the nacelle temperature) and h = 40 W / m 2 ⋅ K .The outer surfaces of both the gearbox and the generatorare characterized by an emissivity of ∈ =0 .9 . If the surface areas of the gearbox and generator are A g b = 6 m 2 and A g e n = 4 m 2 , respectively, determine their surfacetemperatures.
Solution Summary: The author explains the surface temperatures of the generator and gearbox. The heat is generated by gear box and transferred to the environment by the means of nacelle of wind turbine.
Heat is transferred by radiation and convection betweenthe inner surface of the nacelle of the wind turbine ofExample 1.3 and the outer surfaces of the gearbox andgenerator. The convection heat (lux associated withthe gearbox and the generator may be describedby
q
″
c
o
n
v
.
g
b
=
h
(
T
g
b
−
T
∞
)
and
q
″
c
o
n
v
.
g
e
n
=
h
(
T
g
e
n
−
T
∞
)
,respectively, where the ambient temperature
T
∞
=
T
s
(which is the nacelle temperature) and
h
=
40
W
/
m
2
⋅
K
.The outer surfaces of both the gearbox and the generatorare characterized by an emissivity of
∈
=0
.9
. If the surface areas of the gearbox and generator are
A
g
b
=
6
m
2
and
A
g
e
n
=
4
m
2
, respectively, determine their surfacetemperatures.
Q11. Determine the magnitude of the reaction force at C.
1.5 m
a)
4 KN
D
b)
6.5 kN
c)
8 kN
d)
e)
11.3 KN
20 kN
-1.5 m-
C
4 kN
-1.5 m
B
Mechanical engineering, No
Chatgpt.
please help with this practice problem(not a graded assignment, this is a practice exam), and please explain how to use sohcahtoa
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