Discharge vapor from all compressors will:

Discharge vapor from all compressors will contain some level of superheat due to the heating that occurs as the refrigerant is compressed. This heating elevates the temperature of the refrigerant vapor beyond its saturation point at the given pressure, resulting in superheated vapor.

When refrigerant is compressed, it moves from a low-pressure area to a high-pressure area, and in the process, its temperature rises. This rise in temperature means that the vapor is often superheated when it exits the compressor. This superheating is beneficial, as it helps to avoid liquid refrigerant returning to the compressor, which can lead to compressor damage.

The other options do not accurately describe the characteristics of discharge vapor. For instance, discharge vapor being always saturated would mean there is no superheating, which contradicts the behavior of refrigerants in the compression process. Similarly, the vapor cannot be completely liquid, as that would indicate the refrigerant is in the liquid state, which is not the case upon discharge from the compressor. Lastly, stating that discharge vapor is at atmospheric pressure fails to consider that the compressor’s function is to increase pressure, thereby resulting in a discharge at a pressure higher than atmospheric.