At 63 degrees Fahrenheit, what is the specific volume?

The specific volume at a given temperature can be determined using the ideal gas law, which relates temperature, pressure, and specific volume in gases. At 63 degrees Fahrenheit, the specific volume of air under standard atmospheric conditions is approximately 0.0227 cubic meters per kilogram.

This value is a general reference and suggests that under typical conditions at this temperature, a cubic meter of air weighs about 1/0.0227 kilograms. This calculation is essential for various applications in industrial refrigeration, where understanding the behavior of gases is crucial for systems design and operational efficiency.

The specific volume is important for determining how much refrigerant gas can be moved through a system or how much air can be handled at a specific temperature. The nuances in specific volume for various gases at different temperatures are critical for effective system performance, and the value of 0.0227 found in this scenario properly reflects conditions reflective of other refrigerants and gases as well.