The program determines all psychrometric parameters of moist air (enthalpy, humidity ratio, dew point, etc.) based on any two input variables: Dry bulb temperature and relative humidity. Dry bulb and wet bulb temperatures.
But let’s face it: manually calculating wet-bulb temperatures, enthalpy, and dew points using psychrometric formulas is tedious and prone to error. Enter , a suite of Excel-based tools that has become a staple for engineers. Today, we are focusing on one of its most powerful modules: the Psychrosi (Psychrometric) Program .
It allows, inputting specific Greek climatic data (temperature, humidity, and solar radiation profiles), making it far more accurate than generic tools. Conclusion
The program computes sensible and latent heat removals across cooling coils. It models the transitional states from the coil entry point (Point A) to the exit point (Point B), taking into account the Bypass Factor (BHF) and empirical coil surface temperatures. 3. Adiabatic Evaporative Cooling
Beyond basic state point calculations, PsychroSI offers several advanced modules tailored for real-world engineering scenarios:
Currently, ThermExcel excels at static point calculations (mixing air, cooling coils, etc.). The new feature, simulates how a zone’s psychrometric state evolves over time when exposed to variable loads (people, windows, infiltration) and HVAC setbacks.
The program determines all psychrometric parameters of moist air (enthalpy, humidity ratio, dew point, etc.) based on any two input variables: Dry bulb temperature and relative humidity. Dry bulb and wet bulb temperatures.
But let’s face it: manually calculating wet-bulb temperatures, enthalpy, and dew points using psychrometric formulas is tedious and prone to error. Enter , a suite of Excel-based tools that has become a staple for engineers. Today, we are focusing on one of its most powerful modules: the Psychrosi (Psychrometric) Program . thermexcel programme psychrosi
It allows, inputting specific Greek climatic data (temperature, humidity, and solar radiation profiles), making it far more accurate than generic tools. Conclusion The program determines all psychrometric parameters of moist
The program computes sensible and latent heat removals across cooling coils. It models the transitional states from the coil entry point (Point A) to the exit point (Point B), taking into account the Bypass Factor (BHF) and empirical coil surface temperatures. 3. Adiabatic Evaporative Cooling Enter , a suite of Excel-based tools that
Beyond basic state point calculations, PsychroSI offers several advanced modules tailored for real-world engineering scenarios:
Currently, ThermExcel excels at static point calculations (mixing air, cooling coils, etc.). The new feature, simulates how a zone’s psychrometric state evolves over time when exposed to variable loads (people, windows, infiltration) and HVAC setbacks.