1. Fundamental Concept
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Purpose: Rejects waste heat from the water-cooled condenser to the atmosphere.
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Working Principle: Based on Evaporative Cooling. A small portion of water (approx. 1%) evaporates, absorbing latent heat from the remaining water, thereby cooling it.
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Heat Transfer: Occurs through both Sensible Heat (temperature difference) and Latent Heat (evaporation).
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Exam Fact: About 75–80% of the cooling in a tower is due to evaporation.
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2. Key Terminology (Very Important for Exams)
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Range: The difference between the temperature of hot water entering and cold water leaving.
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$$Range = T_{in} – T_{out}$$
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Approach: The difference between the temperature of cold water leaving and the Ambient Wet Bulb Temperature (WBT).
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$$Approach = T_{out} – WBT$$
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Note: The WBT is the theoretical limit to which water can be cooled
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Efficiency ($\eta$): The ratio of the actual cooling to the maximum possible cooling.
$$Efficiency (\%) = \frac{Range}{Range + Approach} \times 100$$ -
Drift: Water droplets carried away by the air stream (lost water). Drift Eliminators are used to minimize this.
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Blowdown (Bleed-off): Removal of a portion of circulating water to prevent the buildup of dissolved solids and scale.
3. Types of Cooling Towers
| Type | Air Flow Mechanism | Key Characteristics |
| Natural Draft | Natural Convection (Stack effect) | Large, hyperbolic concrete structures; used in power plants. No fans. |
| Forced Draft | Fan at the Air Inlet (Bottom/Side) | High-velocity air enters; prone to recirculation (hot air being sucked back in). |
| Induced Draft | Fan at the Air Outlet (Top) | Sucks air through the tower. More efficient; prevents recirculation. Most common in HVAC. |
| Cross-Flow | Air flows horizontally | Water falls vertically; air moves at 90°. Lower pressure drop. |
| Counter-Flow | Air flows vertically upward | Air moves opposite to falling water. Best heat transfer efficiency. |
4. Major Components
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Fill (Packing): Increases the surface area and contact time between water and air.
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Types: Splash fill (breaks water into droplets) and Film fill (spreads water into a thin layer).
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Nozzles/Sprinklers: Distribute hot water evenly over the fill.
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Basin: Collects the cooled water at the bottom.
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Make-up Water Valve: A float valve that adds water to replace losses from evaporation, drift, and blowdown.
5. Maintenance & Troubleshooting (RAC Mechanic Focus)
| Problem | Possible Cause | Remedy |
| High Water Temp | Clogged nozzles or fouled fill | Clean/descale components. |
| High Water Loss | Damaged drift eliminators | Repair or replace eliminators. |
| Excessive Noise | Fan imbalance or bearing failure | Realign fan or lubricate/replace bearings. |
| Scale Formation | High Concentration of Solids | Increase Blowdown rate and check water treatment. |
| Algae/Slime | Biological growth | Add biocides (Chlorine) to the water. |
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Theoretical Limit: A cooling tower can never cool water below the Wet Bulb Temperature of the entering air.
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Psychrometrics: As air passes through a cooling tower, its Dry Bulb Temperature (DBT) and Wet Bulb Temperature (WBT) both increase, and its Relative Humidity approaches 100%.
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Capacity: Usually measured in “Nominal Tons.” One cooling tower ton is the rejection of 15,000 BTU/hr (higher than a standard refrigeration ton of 12,000 BTU/hr to account for compressor heat).