02-Prinsip Dasar Perpindahan Panas
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Transcript of 02-Prinsip Dasar Perpindahan Panas
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PERTEMUAN KE-2 PERPINDAHAN PANAS
Prinsip Dasar Perpindahan Panas
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Heat conduction
7
dx
dTkAQRate of heat transfer:
where T = temperature at any point in the wall
x = thickness of the wall
A=area of the wall
k= thermal conductivity (Btu/hr.ft.ºF)
-dT/dx = temperature gradient
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Thermal Conductivity
8
Silver 410 W/m. °C 237 Btu/h.ft.°F
Copper 385 W/m. °C 223 Btu/h.ft.°F
Diamond 2300 W/m. °C 1329 Btu/h.ft.°F
Quartz 41.6 W/m. °C 24 Btu/h.ft.°F
Sandstone 0.78 W/m. °C 0.45 Btu/h.ft.°F
Ammonia 0.147 W/m. °C 0.085 Btu/h.ft.°F
Water 0.556 W/m. °C 0.327 Btu/h.ft.°F
Hydrogen 0.175 W/m. °C 0.101 Btu/h.ft.°F
Air 0.0206 W/m. °C 0.0119 Btu/h.ft.°F
Metals
Nonmetallic
solids
Liquids
Gases
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9
Thermal conductivity is strongly
temperature-dependent.
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Heat convection
12
Hot water rises,
cools, and falls
Heated air rises,
cools, then falls. Air
near heater is
replaced by cooler
air, and the cycle
repeats.
hAdTQ
where
h = heat transfer coefficient
Rate of heat transfer:
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Heat convection
13
Natural or Free Heat
Convection
Force Heat
Convection
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Convection heat-transfer coefficients
14
Free Convection
Forced Convection
Boiling water
Condensation of water vapor
Vertical plate 0.3m high in air 4.5 W/m2. °C 0.79 Btu/h.ft2.°F
Horizontal cylinder, 2-cm diameter, in air 6.5 W/m. °C 1.14Btu/h.ft.°F
Airflow at 2m/s over 0.2-m square plate 12 W/m2. °C 2.1 Btu/h.ft2.°F
Airflow at 2m/s over 0.2-m square plate 75 W/m. °C 13.2 Btu/h.ft.°F
In a pool or container 2,500-35,000 W/m2. °C 400-600 Btu/h.ft2.°F
Vertical surfaces 4,000-11,300W/m2. °C 700-2,000 Btu/h.ft2.°F
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15
Convection heat transfer from a plate
Flow
q
Tw
T∞
wall
Since the velocity of the fluid layer at the wall will be zero, the
heat must be transferred only by conduction at that point.
)( TThAQ wNewton’s law of cooling:
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Heat radiation
17
)( 4
2
4
1 TTAQ
σ = Stefan-Boltzmann constant
(5.669 x 10-8 W/m2.K4)
ε= emissivity
T= absolute temperature
Rate of heat transfer:
where
Radiation is heat from the sun that
travels in the form of waves.
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Quantity Text Notation SI Unit English Unit heat Q Joule (J) Btu (heat transfer) heat rate q Watt (W) Btu/hr (heat transfer rate) (heat energy rate) (rate of heat flow) heat flux q” W/m2 Btu/hr-ft2 (heat rate per unit area) heat rate per unit length q’ W/m Btu/hr-ft volumetric heat generation q W/m3 Btu/hr-ft3 (rate of heat production per unit volume) Conversions: 1 Btu = 1054 J 1 kcal = 4184 J
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Practice in class
20
1) 1nm = ? mm
2) 1ft = ? mm (1ft = 0.3048m)
3) 900 ºR = ? ºK
ºF = 9/5ºC+32
ºR = ºF+459.69
ºK = ºC+273.16
ºR = 9/5ºK
4) 1 BTU/hr.ft2 = ? W/m2 (1BTU = 1.05504 kJ; W=J/s)