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EXAMPLE PROBLRMS ON DEHUMIDIFICATION
Example Problem 6.4:
Moist warm air is to be cooled and dehumidified to a wetbulb temperature of 30ºC using water of 25ºC in a dehumidification column. The air enters the tower with a dry-bulb temperature of 85ºC and wet-bulb temperature of 45ºC at 4800 kg/m2h rate. The overall gas phase mass transfer coefficient is estimated to be 2150 kg/m3h. The flow rate of water is 1.4 times the minimum. Calculate height of the tower.
Solution 6.4: 
Given,
TG1=85ºC; TW1=45ºC
From psychrometric chart, Y/1 = 0.065 kg moisture/kg dry air and H/1 = 210 kJ/kg dry air.
or, Y/ =0.047 and
H/1 = [(1.005 + 1.88 X 0.047) X 85 + 2500 X 0.047] kJ/kg
=210.4 kJ/kg
Wet-bulb temperature of outlet air is 30ºC. Y/2 = 0.027 kg moisture/kg dry air and
H/2 = 98 kJ/kg.
We have, inlet water temperature, TL2=25ºC
Locate top point Q(TL2,H/2) (lower terminal of operating line) at Q(25, 98) on TL-H/ plane.
The enthalpy of feed moist air at the bottom point P (upper terminal) of the dehumidification tower is 210 kJ/kg. But the temperature of the exit water is unknown.
Calculation of minimum water rate:
The equilibrium line is convexed downward. The “pinch point” is obtained by drawing the horizontal line through H/1 = 210 kJ/kg to meet equilibrium line at P/ . Points Q and P/ are joined. Line QP/ is the operating line for minimum water flow rate.
The water temperature at P/ is TL1,max=45ºC (TW1).
= 4507.04 kg/h.m2
Now, the minimum water rate Ls,min can be obtained from the following enthalpy balance equation:
4507.04×(210-98)=Ls,min(45-25)×4.187
Ls,min=6028.05 kg/h.m2
Actual water flow rate=1.4×Gs,min=1.4×6028.05 kg/h.m2 =8439.27 kg/h.m2
Outlet temperature of water TL1 is obtained from Equationas follows:
4507.04×(210-98)=8439.27×(TL1-25)×4.187
TL1=39.29ºC
Moisture removed from air=water condensed per hour
=Gs(Y/1 - Y/2)
=4507.04×(0.065-0.027) kg/h.m2 .
=171.27 kg/h.m2 .
Height of dehumidification tower, Z=HtoG×NtoG=2.096×2.912 m=6.104 m.
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FAQs on Example Problems On Dehumidification - Mass Transfer - Chemical Engineering
| 1. What is dehumidification in chemical engineering? |  |
Ans. Dehumidification in chemical engineering refers to the process of removing moisture or humidity from the air or gas in order to control the humidity levels in a given environment or process. This is important in various industrial applications where moisture can negatively affect the quality or stability of products or processes.
| 2. Why is dehumidification important in chemical engineering? | |
Ans. Dehumidification is important in chemical engineering because it helps maintain optimal conditions for various processes. Excess moisture can lead to corrosion, mold growth, product degradation, and inefficient operations. By removing moisture, dehumidification ensures the desired quality, safety, and efficiency of chemical processes.
| 3. How does dehumidification work in chemical engineering processes? | |
Ans. Dehumidification in chemical engineering processes is typically achieved using equipment such as dehumidifiers or desiccants. Dehumidifiers work by cooling the air, causing moisture to condense and collect as water. Desiccants, on the other hand, absorb moisture from the air through a process called adsorption. Both methods help reduce the humidity levels in the air or gas.
| 4. What are the common applications of dehumidification in chemical engineering? | |
Ans. Dehumidification finds various applications in chemical engineering, including:
- Moisture control in storage facilities to prevent product degradation.
- Drying processes such as drying of pharmaceuticals, food products, or chemicals.
- Preservation of sensitive materials or products, such as electronics or artwork.
- Controlling humidity in cleanrooms or laboratories for optimal working conditions.
- Preventing condensation and moisture-related issues in HVAC systems.
| 5. What factors should be considered when selecting a dehumidification system for chemical engineering applications? | |
Ans. When selecting a dehumidification system for chemical engineering applications, several factors should be considered:
- Required dehumidification capacity and moisture removal rate.
- Desired humidity levels to be maintained.
- The temperature range of the process or environment.
- Energy efficiency and operating costs of the system.
- Compatibility with the specific chemicals or materials involved.
- Maintenance requirements and reliability of the system.
- Noise levels and environmental considerations.
These factors help ensure that the chosen dehumidification system meets the specific needs and requirements of the chemical engineering application.
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