carta psicrométrica. teoría y aplicación
TRANSCRIPT
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THE PSYCHROMETRIC CHART:Theory and Application
Perry PeraltaPerry PeraltaNC State UniversityNC State University
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PSYCHROMETRIC CHART
Identify parts of the chartIdentify parts of the chartDetermine moist air propertiesDetermine moist air propertiesUse chart to analyze processes Use chart to analyze processes involving moist airinvolving moist air
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Psychrometric chart: Example 1
Given: T = 25°C Tw =20°C
Required: (a) RH, (b) Tdp, (c) HR, (d) v, (e) h
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25°C
20.0°C
57.5 kJ/kg d.a.
63%
0.86 m3/kg d.a.
17.6°C 12.6 g/kg d.a.
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PSYCHROMETRIC PROCESSES
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Sensible Heating or Cooling
a psychrometric process that involves the increase or decrease in the temperature of air without changing its humidity ratioExample: passing moist air over a room space heater and of kiln air over the heating coils
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Sensible heating: Example 5
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T2=60ºCTw2=50ºCRH2=58.8%
T3=70ºCTw3=?RH3=?
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60°C 70°C
50°C
58.8%
37.6%
2 3
275.5 kJ/kg d.a.
287.0 kJ/kg d.a.
51°C
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Heating and Humidifying
a psychrometric process that involves the simultaneous increase in both the dry bulb temperature and humidity ratio of the air
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Heating and humidifying: Example 7
Two and a half cubic meters of lumber is being driedat 60°C dry bulb temperature and 52°C wet bulbtemperature. The drying rate of the lumber is 12.5kg of water per hour. If outside air is at 27°Cdry bulb temperature and 80% relative humidity,how much outside air is needed per minute to carryaway the evaporated moisture?
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27°C 60°C
80%
12
92 g/kg d.a.
18 g/kg d.a.
0.87 m3/kg d.a.
52°C
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Heating and humidifying: Example 7
∆HR = (92.0 – 18.0) g/kg dry air= 74.0 g/kg dry air
wa1 = drying rate/∆HR= (12.5 kg/hour)/(0.074 kg/kg dry air)= 168.9 kg dry air/hour
VF1=(wa1)(v1) =(168.9 kg dry air/hour)(0.87 m3/kg dry air)= 147 m3/hour = 2.45 m3/minute
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Cooling and Dehumidifying
a psychrometric process that involves the removal of water from the air as the air temperature falls below the dew-point temperature
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Cooling and dehumidifying: Example 9
Moist air at 50°C dry bulb temperature and 32%relative humidity enters the cooling coil of adehumidification kiln heat pump system and iscooled to a temperature of 18°C. If the drying rateof 6 m3 of red oak lumber is 4 kg/hour,determine the kW of refrigeration required.
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18°C 50°C
32%
2
125.2 g/kg d.a.
12.9 g/kg d.a.
28.8°C
115.7 kJ/kg d.a.
50.8 kJ/kg d.a.
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Cooling and dehumidifying: Example 9
adrying ratew
HRkg water4 h
kg water0.0123 kg dry airkg dry air325.2
h
=∆
=
=
∆HR = (25.2 – 12.9) g water/kg dry air= 12.3 g water/kg dry air
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Cooling and dehumidifying: Example 9
( )( )aq h w
kJ kg dry air64.9 325.2kg dry air h
kJ21105.7 5.9 kWh
= ∆
=
= =
∆h = (115.7 – 50.8) kJ/kg dry air= 64.9 kJ/kg dry air
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Adiabatic or Evaporative Cooling
a psychrometric process that involves the cooling of air without heat loss or gain. Sensible heat lost by the air is converted to latent heat in the added water vapor
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Evaporative cooling: Example 10
Referring to Figure 21, air at state point 1 (65°Cdry bulb temperature and 57°C wet bulb temperature)experiences a temperature drop of 3°C as it passesthrough the 1.2-m wide stack of lumber. Determinethe properties of the air at state point 2 and comparethem with those at state point 1. If the air is flowingat a rate of 2 meters per second, determine the dryingrate assuming that the volume of the stack of2.5-cm-thick lumber is 2.5 m3. The stack is1.2 m wide x 3.6 m long, and the boards areseparated by stickers 3.8 cm wide x 1.9 cm thick that arespaced 0.6 m apart.
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T=65ºCTw=57ºC
T=62ºC
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Evaporative cooling: Example 10Given: T1 = 65°C; Tw1 = 57°C
Adiabatic cooling to T2 = 62°CAir flow rate = 2 m/sVolume of lumber = 2.5 m3
Board thickness = 2.5 cmStack dimensions: 1.2 m wide x 3.6 m longSticker dimensions: 3.8 cm wide x 1.9 cm thickSticker spacing = 0.6 m
Required: (a) Properties of the air at state point 2relative to that at state point 1
(b) Drying rateSolution:
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2
65°C62°C
1.14 m3/kg d.a.1.15 m3/kg d.a.
123.1 g/kg d.a.
124.5 g/kg d.a.57°C
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Evaporative cooling: Example 10(a) At state point 1: T1 = 65°C
Tw1 = 57°CTdp1 = 56.3°CRH1 = 66.9%HR1 = 123.1 g/kg of dry airv1 = 1.15 m3/kg of dry airh1 = 387.7 kJ/kg of dry air
At state point 2: T2 = 62°CTw2 = 57°CTdp2 = 56.5°CRH2 = 77.3%HR2 = 124.5 g/kg of dry airv2 = 1.14 m3/kg of dry airh2 = 387.7 kJ/kg of dry air
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Evaporative cooling: Example 10
(b) ( )( )aDrying rate = HR w∆
a2
VFw =v
( )( )VF = A air flow rate
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Evaporative cooling: Example 10
l sl t t w
l w t s
V P SA P S S SP P B S
+= −
2.5 3.6 0.6A 3.6*0.019 0.019*0.0383.6*1.2*0.025 0.6
+ = −
2A 1.47 m=
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Evaporative cooling: Example 10
2A 1.47 m=
( )3
3 m mVF = 1.47m 2 2.9s s
=
( )( )VF = A air flow rate
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Evaporative cooling: Example 10
3mVF =2.9s
3
a 3
m2.9 kg dry airsw 2.6m s1.14
kg dry air
= =
a2
VFw =v
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Evaporative cooling: Example 10
kg dry air gDrying rate 2.6 1.4s kg dry air
g kg3.6 13.0s h
=
= =
akg dry airw 2.6
s=
( )( )aDrying rate = w HR∆
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Adiabatic Mixing of Moist Air Stream
A psychrometric process that involves no net heat loss or gain during the mixing of two air streams
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Adiabatic mixing: Example 11
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T1=43.3ºCTw1=37.8ºC
T2=26.7ºCRH2=80%
VF1=112 m3/min
VF2=28 m3/min
T3=43.3ºCTw3=37.8ºC
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0.95 m3/kg d.a.0.87 m3/kg d.a.
43.3°C
37.8°C
26.7°C
80%
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Adiabatic mixing: Example 11
aVFw =v
3
a1 3
m112 kg dry airminutew 117.9m minute0.95
kg dry air
= =
3
a 2 3
m28 kg dry airminutew 32.2m minute0.87
kg dry air
= =
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Adiabatic mixing: Example 11
a2
a2 a1
line 1-3 w 32.2= 0.21line 1-2 w +w 32.2 117.9
= =+
Therefore, length of line segment 1-3 is 0.21 timesthe length of line 1-2
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31
0.95 m3/kg d.a.0.87 m3/kg d.a.
43.3°C
37.8°C
26.7°C
80%
40°C
35.6°C
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Adiabatic mixing: Example 11T3 = 40.0°CTw3 = 35.6°C