In practice, several pumps are often installed either in parallel or in series configuration for economic reasons. In parallel configuration the pumps operate in a common pipe. This requires that the pumps used in each case can achieve the same head. Parallel configurations offer the advantage that when demand is low only one pump works and other pumps are switched on as the flow rate increases. In series configuration pumps with equal flow rates are arranged in a row. This arrangement allows the bridging of large heads and is often more cost-effective than the use of a single pump with large head.
HM 332 studies the cooperation of two centrifugal pumps and illustrates the differences in parallel and series configuration.
The trainer has a closed water circuit and is equipped with two identical centrifugal pumps. The rotational speed of the motors for the pumps can be adjusted via frequency converters. All motors are mounted on swivel bearings so that the drive torque can be measured via a force sensor, allowing the mechanical drive power to be determined. Sensors detect the pressures at inlet and outlet of the pumps. The flow rate is measured by an electromagnetic flow meter. The performance data of the pump and losses in the pipe are calculated and shown in the form of characteristics. Characteristic parameters of pumps are determined from the measured values. Furthermore, students are familiarised with the operating behaviour of centrifugal pumps and can practise the correct way to start up and shut down such a pump system.
The trainer is operated and controlled by the integrated PLC with touch screen. By means of an integrated WLAN router, the trainer can alternatively be operated and controlled via an end device. The user interface can also be displayed on up to 10 end devices (screen mirroring). The measured values can be transmitted to a PC via LAN, and analysed using the GUNT software.