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Cooling Tower Thermal Design Video Lecture | Mass Transfer - Chemical Engineering

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FAQs on Cooling Tower Thermal Design Video Lecture - Mass Transfer - Chemical Engineering

1. What is the purpose of a cooling tower in chemical engineering?
Ans. A cooling tower is used in chemical engineering to remove excess heat from industrial processes or power plants. It helps in maintaining optimal operating temperatures and preventing equipment overheating.
2. How does a cooling tower work?
Ans. A cooling tower works by using evaporation to remove heat from the water or fluid being circulated. Hot water or fluid is sprayed into the tower, and as it falls through the tower, it is exposed to air. The air causes evaporation, which removes heat from the water or fluid, and the cooled water or fluid is collected at the bottom of the tower.
3. What factors affect the thermal design of a cooling tower?
Ans. Several factors influence the thermal design of a cooling tower, including the flow rate of water or fluid, the temperature of the incoming water or fluid, the ambient air temperature, humidity, and the desired outlet temperature. Additionally, the size and shape of the tower, as well as the type of packing material used, can also impact the thermal design.
4. How is the performance of a cooling tower evaluated?
Ans. The performance of a cooling tower is typically evaluated using the concept of cooling tower effectiveness or approach. Effectiveness is the ratio of the actual cooling achieved to the maximum cooling possible, while approach is the difference between the outlet water temperature and the ambient wet-bulb temperature. A lower approach indicates better performance.
5. What are some common challenges in cooling tower thermal design?
Ans. Some common challenges in cooling tower thermal design include properly sizing the tower to handle the required heat load, accounting for various environmental factors such as humidity and wind conditions, minimizing water or fluid losses due to evaporation or drift, and selecting the appropriate packing material to enhance heat transfer efficiency while minimizing pressure drop. Additionally, the design should consider factors such as fouling, scaling, and corrosion that can affect the tower's performance over time.
29 videos|45 docs|44 tests
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