1. What Is Condensation Temperature?

Condensation temperature (T_cond) is the saturation temperature at a given pressure where a vapor begins to condense into liquid. It represents the dew point for condensate and is a critical parameter in thermodynamics and HVAC systems.

2. How Does The Calculator Work?

The calculator determines condensation temperature using steam table data:

Where:

• \( T_{cond} \) — Condensation temperature (°C)
• \( P \) — System pressure (bar)

Explanation: The calculation uses thermodynamic steam tables to find the saturation temperature corresponding to the given pressure, which represents the condensation point.

3. Importance Of Condensation Temperature Calculation

Details: Accurate condensation temperature calculation is essential for designing heat exchangers, refrigeration systems, power plants, and ensuring efficient operation of thermal systems.

4. Using The Calculator

Tips: Enter the system pressure in bar. The calculator will determine the corresponding condensation temperature using steam table data.

5. Frequently Asked Questions (FAQ)

Q1: What is the relationship between pressure and condensation temperature?
A: Condensation temperature increases with pressure - higher pressure systems have higher condensation temperatures.

Q2: Why use steam tables for this calculation?
A: Steam tables provide accurate saturation temperature data based on extensive experimental measurements and thermodynamic properties.

Q3: What factors affect condensation temperature?
A: Pressure is the primary factor, but fluid composition and purity can also influence the condensation point.

Q4: How accurate is this calculation?
A: When using proper steam table data, the calculation is highly accurate for pure water/steam systems.

Q5: Can this be used for refrigerants?
A: Different refrigerants have their own pressure-temperature charts, so refrigerant-specific data should be used.