Load curve. Try to avoid a steep load curve. A review of the steepness of the load curves can quickly identify which load steps are quite steep in nature and, thus, where small changes in the pressure can significantly alter the load and flow (capacity). Steep load curves may indicate improper sizing of the cylinders. Compressors with steep curves also can pose control difficulties.
Discharge temperature. High discharge temperatures can cause problems with any sealing element (any non-metallic component in contact with compressed gas), lubricant cooking, and cylinder valve deterioration. So, review discharge temperatures for all possible operating situations, at least for the average and maximum suction temperatures. The maximum predicted discharge temperature shouldn't exceed 150°C or 135°C for hydrogen-rich services (molecular weight of 12 or less). The latest trend is to hold the gas discharge temperatures below 120°C to extend the life of wearing parts.
[Related: Rethink Options for Large Drivers]
Suction drum and coolant system. Liquids should never form inside a reciprocating compressor cylinder. Liquid contributes to poor reliability, can cause high impact velocities, lead to stressing of cylinder valve moving elements (slugging) and reduce sealing effectiveness. Therefore, always provide an adequately sized suction drum with a drain system. Sometimes the suction drum comes as a part of the pulsation control system. However, a separate vertical-type suction drum (separate from the horizontal-type suction pulsation vessel) near the compressor package generally is the best option.
The primary purpose of the cooling system is to avoid hot spots within the cylinder and the rod packing. Cooling is even more critical for oil-free compressors. Their vulnerable dry sealing elements rely on the cooling system to prevent frictional heat, sliding wear and operational hot spots. So, always provide ample margins for cooling water flows. Closely monitor the operation and temperatures of the cylinder cooling system. Coolant inlet temperature should exceed the inlet gas temperature by 7°C to 15°C and should be closely controlled within minimum and maximum limits; a margin of ≤5°C can be problematic. Exotic gases or operations near critical areas demand more attention to coolant temperature control. Carefully review the thermodynamic model to ensure liquid can't form and cooling system performance is properly set for the cylinder(s) and other critical points such as rod packing.
Often people at process plants complain about the pulsation of reciprocating compressors. The trend today is to rely on techniques that dissipate less energy than special dampening solutions, such as orifices, to decrease pulsation levels. Vertical-type suction pulsation vessels have been used on large reciprocating compressors for years but prompt many pulsation and operational problems. In particular, the relatively long connecting piping line between the compressor and the vertical pulsation vessel (which should stand near the machine but usually can't be placed any closer than 1 m to 2 m or more away) could be a source of severe pulsation and a good candidate for detrimental resonances. Even for mammoth-size compressor installations that would require large horizontal suction pulsation vessels and massive supports on top of the compressor cylinder, the horizontal layout is a much better choice than a vertical suction vessel with a relatively long connecting pipe spool and the resulting pulsation resonances.
When using orifices for pulsation dampening, it's best to place them at the nozzle-end inside the vessel. If conditions change much from the design basis, you should replace the orifices with ones appropriate for the new conditions. This can require cutting and rewelding of thick pulsation vessels at the site — an extremely difficult and risky job.
To avoid the risks and hassles posed by vertical vessels and orifices, always opt for horizontal pulsation vessels. Older designs use a combined pulsation vessel — the large six-cylinder compressor shown in Figure 2 has two such vessels, each connected to three cylinders — to ease installation. However, it's better to have horizontal suction and discharge pulsation vessels strategically installed near each cylinder. Carefully select the distance between the horizontal pulsation vessel nozzle and the cylinder nozzle. The optimum distance should guarantee trouble-free access to the valves, unloaders and other cylinder accessories (without removal of the pulsation vessels). At the same time, the distance shouldn't be long enough to cause any resonance with generated pulsation (and its harmonics) because unsuppressed pulsation harmonics at the immediate discharge of the reciprocating compressor (between the machine and the pulsation vessel) could prompt problems. As an indication, around 0.4–0.7 m could be a good distance to select for medium-size reciprocating compressors, considering access, valve maintenance and pulsation.
AMIN ALMASI is a rotating equipment consultant based in Brisbane, Australia. E-mail him at firstname.lastname@example.org