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Key Points In The Design Of Cooling Tower And Step By Step Design Procedure Of Cooling Tower | Mass Transfer - Chemical Engineering PDF Download
Key points in the design of cooling tower:
(I) An increase or decrease in wet-bulb temperature of entering water (mainly due to atmospheric condition) cannot change tower characteristic
(II) An increase in ‘cooling range’ can not change tower characteristic 
It increases ‘approach’ only.
(III) A change in L/G can change tower characteristic 
Fill height (FH) depends on tower characteristic, L/G and correlated by the following equation:
where, C and n are constants and solely dependent on tower fill.
Step-by-step design procedure of cooling tower
1. Specify the inlet and outlet temperatures and flow rate of warm water.
2. Select the design value of dry-bulb and wet-bulb temperatures of air (at the proposed geographical location).
3. Draw the ‘equilibrium line curve’ i.e., saturation humidity curve [H/ vs T]. The enthalpy data are calculated using vapor pressure equation for water and physical properties of air and water vapor 
4. Locate the lower terminal of the operating line, ‘B’ on TL-H plane by the point (TL1, H/1 ). This point indicates the condition at the bottom of the tower.
5. Draw a tangent to the equilibrium line through the point ‘B’. The slope of the tangent gives the ratio of the liquid and minimum gas flow rate. Hence, minimum air rate is calculated. Actual air rate taken is usually 1.25 to 1.5 times the minimum [not required if air rate is given].
6. The upper terminal of the operating line is located by the point ‘A’ (TL2, H/2 ). It is the point where the operating line of the slope determined in step 5 meets the vertical line through TL2. It can also be located by calculating the top end enthalpy H/2 from Equation (6.18) as 
7. Evaluate the integral in Equation (6.27) 
number of gasphase enthalpy transfer units and calculate height gas-phase enthalpy transfer units, HtG as 
are required. A set of parallel lines (tie lines) of slope 
is drawn between the operating line and equilibrium line. H/ and 
are taken from terminals. Integral is calculated numerically or graphically. 
8. If the overall enthalpy transfer coefficient K/Y is known and used, ‘tie lines’ are vertical. For a given value of H/ , value of H*/ is given by the point on the equilibrium line vertically above it. The integral of Equation 
gives the number of overall transfer units.
9. The height of a transfer unit 
is calculated. The packed height is the product of height of transfer unit and number of transfer units.
Approach: It is the difference between cooling water temperature leaving cooling tower and wet-bulb temperature of inlet air which is approach to wet bulb temperature (ºF), (TL1-Tas). For getting small approach, cooling tower height must be increased. To achieve zero (0) approach theoretically, infinite packing height is needed.
Range: ‘Cooling range’ or purely ‘range’ is the difference in the inlet hot water and outlet cooled water temperature (ºF) (TL2-TL1).
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| 1. What are the key points to consider in the design of a cooling tower? |  |
Ans. The key points to consider in the design of a cooling tower include:
- Determining the heat load and cooling water flow rate required for the system.
- Selecting the appropriate cooling tower type based on factors such as space availability, water quality, and desired efficiency.
- Designing the tower's structure and layout to ensure proper air and water flow and minimize resistance.
- Sizing the tower's fan and motor to provide sufficient air circulation.
- Selecting appropriate materials for construction to withstand corrosion and other environmental factors.
| 2. What is the step-by-step design procedure for a cooling tower in chemical engineering? | |
Ans. The step-by-step design procedure for a cooling tower in chemical engineering typically involves the following steps:
1. Determine the heat load and cooling water flow rate required for the system.
2. Choose the appropriate cooling tower type based on factors such as space availability, water quality, and efficiency requirements.
3. Design the tower's structure and layout, considering factors such as air and water flow patterns, resistance, and accessibility for maintenance.
4. Size the tower's fan and motor to ensure sufficient air circulation for effective heat transfer.
5. Select suitable materials for construction that can withstand corrosion and other environmental factors.
6. Calculate the tower's dimensions, such as height, diameter, and fill surface area, based on the heat load and flow rate.
7. Determine the required water distribution system, including nozzles or sprays, to evenly distribute water over the fill surface.
8. Evaluate the tower's performance using appropriate calculations and simulations to ensure it meets the desired cooling requirements.
| 3. What factors should be considered when selecting the cooling tower type? | |
Ans. Several factors should be considered when selecting the cooling tower type, including:
- Space availability: The available space will determine whether a specific cooling tower type, such as a mechanical draft or natural draft tower, can be installed.
- Water quality: The quality of the cooling water, including factors like salinity, pH, and presence of contaminants, may influence the choice of tower type.
- Efficiency requirements: Depending on the desired cooling efficiency, different tower types may be more suitable, such as crossflow or counterflow towers.
- Environmental conditions: Factors like ambient temperature, humidity, and wind patterns can impact the performance of cooling towers and should be considered during selection.
- Maintenance and accessibility: Some tower types may require more frequent maintenance or have specific accessibility requirements, which should be evaluated based on available resources.
| 4. How does the cooling tower's structure and layout affect its performance? | |
Ans. The cooling tower's structure and layout can significantly impact its performance in several ways:
- Air and water flow patterns: The design should ensure proper air and water flow patterns to maximize heat transfer efficiency. This includes considerations such as the tower's shape, positioning of fans, and distribution of water over the fill surface.
- Resistance: The tower's structure and layout should minimize resistance to airflow and water flow to avoid pressure drops and improve overall performance.
- Accessibility: Sufficient accessibility should be provided for maintenance and cleaning, ensuring that components like fans, nozzles, and fill material can be easily inspected and serviced.
- Structural integrity: The tower's structure should be designed to withstand environmental factors like wind, seismic activity, and corrosion, ensuring long-term reliability and safety.
| 5. What are the key considerations for selecting materials in cooling tower construction? | |
Ans. The key considerations for selecting materials in cooling tower construction include:
- Corrosion resistance: Cooling towers are often exposed to water and air containing corrosive elements. Therefore, materials that offer high corrosion resistance, such as stainless steel or fiberglass-reinforced plastics, are commonly used.
- Mechanical strength: The selected materials should possess sufficient mechanical strength to withstand the weight of the tower components, wind loads, and potential impacts.
- Thermal conductivity: Materials with high thermal conductivity, such as copper or aluminum, are preferred for components involved in heat transfer processes to maximize efficiency.
- Cost-effectiveness: The cost of materials should be balanced with their performance and lifespan to ensure a cost-effective design.
- Environmental considerations: Sustainable materials that have minimal environmental impacts, such as those with recyclability or low carbon footprints, may be preferred in line with environmental regulations and corporate sustainability goals.
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