To avoid this situation, use a conservative design discharge temperature specification and use more compression stages to ensure smaller compression ratios per stage. If the actual Td is more like 318 deg F, the margin will only be 7 deg F, which is going to lead to countless alarms and midnight phone calls. (Remember that the discharge temperature values in Table 1 are theoretical values.) In reality, it will be higher due to internal losses as the compressor experiences normal degradation. If the actual discharge pressure is 60 psig, expect a minimum Td of about 303 deg F. It is a good idea to select a conservative design temperature limit during the selection phase of a project to ensure a safe operating margin to take unknown or unexpected internal cylinder losses into account.įor example, a potential compressor has a recommended discharge temperature alarm limit of 325 deg F and an automatic shutdown at 350 deg F. The relationship between the theoretical discharge temperature and design limit temperature can be seen in Figure 1. The Effect of Discharge Pressure on the Theoretical Discharge Temperature Design Temperature MarginĬompared to a hypothetical design limit of 275 deg F, we begin to exceed our design limit temperature at a compressor discharge pressure of 50 psig. To calculate the compression ratio, first convert both of these pressures to absolute pressure by adding 14.7 to each term and then dividing the absolute discharge pressure by the absolute suction pressure: For example, we will compress a gas with a ratio of specific heats of 1.3 (see ratio of specific heats box) from a suction pressure -0.5 psig to a discharge pressure of 35 psig. Here is a simple example of how to calculate compression ratio. Compression Ratio versus Discharge Temperature Compression ratio is also important in determining required horsepower the higher the ratio, the greater the required horsepower for that stage. A high discharge temperature can lead to the failure of internal components due to material degradation or excessive thermal expansion. The compression ratio is simply the ratio of the absolute stage discharge pressure to the absolute stage suction pressure.īecause most gases increase in temperature when they are compressed, the final compressor outlet temperature is always a concern. One of the critical parameters in compressor design and selection is the compression ratio, often denoted as r.
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