What is the most important thing to consider when selecting a regenerative blower?

  • Optimizing the efficiency of a regenerative blower requires proper system design. To reduce friction losses, one of the most crucial things to think about is using large-diameter plumbing. The piping ought to be one size bigger or at least the same size as the blower outlet port.
  • Blower performance is impacted by high altitude because of decreased airflow volume and pressure. By subtracting 4% of the volume and pressure for each 300 meters above sea level, one can easily estimate these losses. A blower intended to produce 100 cfm at sea level, for instance, will produce 96 cfm at 300 m above sea level.
  • Although performance varies, most regenerative blowers run on 50- or 60-cycle (Hz) power. Pressure and volume at 50 Hz are usually 16 percent lower than at 60 Hz.
  • Blowers take around ten seconds to start up to full speed. During this period, the power draw exceeds the specifications for full-load operation. Engineers advise sizing breakers using full-load amps and generators using starting watts.
  • Since the exhaust air temperature of regenerative blowers rises with increasing pressure, the heat of compression must be taken into account when designing piping systems. For instance, the exit air may be too hot for plastic pipe if a blower is run at a higher pressure because of high friction losses. In those situations, before connecting to the plastic piping system, longer lengths of metal pipe or sections of heat-dissipating pipe must be considered.
  • Lastly, always keep in mind the “laws” of fan performance. Rotational speed directly relates to variations in airflow. The square of the speed ratio causes a change in pressure. Additionally, horsepower varies with the speed ratio’s cube.

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