Cooling Tower Calculator
Estimate the evaporation rate and makeup water requirement for a cooling tower.
Evaporation Rate
1.22 m^3/h
Evaporation Rate vs Circulation Flow Rate
Formule
## Cooling Tower Water Balance Cooling towers reject heat through evaporation, requiring continuous makeup water. ### Formulas **Heat rejected = m_dot cp delta_T** **Evaporation rate = 0.00085 x Circulation (m^3/h) x Range (deg C)** The 0.00085 factor is an approximation for the fraction evaporated per degree of cooling. Blowdown removes concentrated water to limit mineral buildup: **Blowdown = Evaporation / (Cycles - 1)** **Makeup = Evaporation + Blowdown**
Exemple Résolu
50 L/s circulation, 8 deg C range, 4 cycles of concentration.
- 01Heat rejected = 50 x 4.18 x 8 = 1672 kW
- 02Circulation = 50 x 3.6 = 180 m^3/h
- 03Evaporation = 180 x 8 x 0.00085 = 1.224 m^3/h
- 04Blowdown = 1.224 / (4-1) = 0.408 m^3/h
- 05Makeup = 1.224 + 0.408 = 1.632 m^3/h
Questions Fréquentes
What are cycles of concentration?
Cycles of concentration (CoC) is the ratio of dissolved solids in the circulating water to that in the makeup water. Higher CoC means less blowdown (saving water) but more risk of scaling and corrosion. Typical range: 3-7 cycles.
What determines the cooling range?
The range (inlet minus outlet temperature) depends on the heat load and water flow rate. A typical range for HVAC cooling towers is 5-10 deg C. Process cooling towers may have wider ranges.
What is approach temperature?
Approach is the difference between the cooling tower outlet water temperature and the ambient wet-bulb temperature. A typical approach is 3-5 deg C. Smaller approach requires a larger, more expensive tower.
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