Condensate Temperature Calculator

Formula

The formula to calculate the Condensate Temperature (CT) is:

\[ \text{CT} = \frac{\text{Q}}{\text{L}} \]

Where:

Condensate Temperature (CT): The temperature of the condensate formed when a vapor is cooled and condensed.
Total Heat Removed from the System (Q): The total amount of heat energy removed from the system (J).
Latent Heat Contained (L): The amount of heat energy required to change the state of a substance without changing its temperature (J).

Let's say the total heat removed from the system (Q) is 5000 J and the latent heat contained (L) is 250 J. Using the formula:

\[ \text{CT} = \frac{5000}{250} = 20 \]

So, the condensate temperature is 20.

Extended information about Condensate-Temperature-Calculator

Definition: The condensation temperature is the temperature at which a vapor turns into a liquid.

Formula: \( T_c = T - \Delta T \)

Example: \( T_c = 100 - 20 \)

Definition: The rate of condensation is the rate at which a vapor condenses into a liquid.

Formula: \( R = k \times (P - P_s) \)

Example: \( R = 0.5 \times (100 - 80) \)

Definition: The condensate flow rate is the rate at which condensate is produced from steam.

Formula: \( F = \frac{Q}{L} \)

Example: \( F = \frac{5000}{2257} \)

Definition: The condensate flow rate formula calculates the amount of condensate produced per unit time.

Formula: \( F = \frac{Q}{L} \)

Example: \( F = \frac{6000}{2260} \)

Definition: Calculating condensate from a cooling coil involves determining the amount of condensate produced by the coil.

Formula: \( C = \frac{Q}{L} \)

Example: \( C = \frac{7000}{2270} \)