water supply for experimental units for fluid mechanics
volumetric flow rate measurement for large and small flow rates
comprehensive range of accessories allows a complete course in the fundamentals of fluid mechanics
The HM 150 series of devices permits a varied experimental cross-section in the fundamentals of fluid mechanics. The base module HM 150 provides the basic equipment for individual experiments: the supply of water in the closed circuit; the determination of volumetric flow rate and the positioning of the experimental unit on the working surface of the base module and the collection of dripping water. The closed water circuit consists of the underlying storage tank with a powerful submersible pump and the measuring tank arranged above, in which the returning water is collected. The measuring tank is stepped, for larger and smaller volumetric flow rates. A measuring beaker is used for very small volumetric flow rates. The volumetric flow rates are measured using a stopwatch. The top work surface enables the various experimental units to be easily and safely positioned. A small flume is integrated in the work surface, in which experiments with weirs (HM 150.03) are conducted.
[1] base module for supplying experimental units in fluid mechanics [2] closed water circuit with storage tank, submersible pump and measuring tank [3] measuring tank divided in two for volumetric flow rate measurements [4] measuring beaker with scale for very small volumetric flow rates [5] measurement of volumetric flow rates by using a stopwatch [6] work surface with integrated flume for experiments with weirs [7] work surface with inside edge for safe placement of the accessory and for collecting the dripping water [8] storage tank, measuring tank and work surface made of GRP Technical data
power consumption: 250W
max. flow rate: 150L/min
max. head: 7,6m
Storage tank, capacity: 180L Measuring tank
at large volumetric flow rates: 40L
at small volumetric flow rates: 10L
LxWxH: 530x150x180mm
Measuring beaker with scale for very small volumetric flow rates