Wet-bulb Temperature

The wet-bulb temperature is a measure of temperature that takes into account the cooling effect of evaporation. It represents the lowest temperature that air can reach through the process of evaporative cooling. This temperature is important in various fields, including meteorology, agriculture, and engineering, as it provides information about humidity, comfort levels, and the cooling potential of the air.

How It Is Measured

The wet-bulb temperature is measured using a psychrometer, which consists of two thermometers:

1. Dry-Bulb Thermometer: Measures the actual air temperature.
2. Wet-Bulb Thermometer: Has a bulb wrapped in a wet cloth. As water evaporates from the cloth, it cools the bulb, and the thermometer measures the temperature after this cooling effect.

Significance

• Humidity: The wet-bulb temperature is influenced by the humidity of the air. Higher humidity levels result in a smaller difference between the dry-bulb and wet-bulb temperatures because the air is already saturated with moisture and can evaporate less water.
• Evaporative Cooling: It is an essential parameter in evaporative cooling processes, such as cooling towers and some air conditioning systems.
• Human Comfort: It is used in calculating heat indices and assessing thermal comfort, especially in hot and humid climates.

Practical Applications

• Weather Forecasting: Used to predict dew point and potential for fog or frost.
• Agriculture: Helps in planning irrigation and understanding plant stress due to heat.
• HVAC Systems: Helps design systems for efficient cooling and maintaining indoor air quality.

Example

Consider a day with a dry-bulb temperature of 30°C and a wet-bulb temperature of 25°C. The 5°C difference indicates that the air can still evaporate moisture, providing a cooling effect. On a humid day, the wet-bulb temperature would be closer to the dry-bulb temperature, indicating less cooling potential.