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HM 115
Hydrostatics Trainer
A well equipped hydrostatics bench allowing numerous experiments on the topic of hydrostatics of liquid and gases
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HM 150.06
Stability of Floating Bodies
Determining metacentre and buoyancy using a rectangular hull cross-section
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HM 150.39
Floating Bodies for HM 150.06
Stability of hulls with different forms
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HM 150.18
Osborne Reynolds Experiment
Visualisation of laminar and turbulent flow
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HM 150.07
Bernoulli's Principle
Static pressure and total pressure distribution along the venturi nozzle
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HM 150.08
Measurement of Jet Forces
Demonstration of the principle of linear momentum and impact forces on interchangeable deflectors with different deflection angles
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HM 150.21
Visualisation of Streamlines in an Open Channel
Demonstrating flow and flow around various drag bodies and weirs using ink as contrast medium
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HM 150.10
Visualisation of Streamlines
Investigation of flow around models in laminar, two-dimensional flow using ink as contrast medium
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HM 152
Potential Flow
Two-dimensional, inviscid potential flow; sources and sinks, individually or in combination
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HM 150.09
Horizontal Flow from a Tank
Demonstration of Torricelli's theorem in visual form
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HM 150.12
Vertical Flow from a Tank
Determination of flow rate coefficients and flow rate for various water heads and experiments on discharge jets
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HM 150
Base Module for Experiments in Fluid Mechanics
Volumetric flow measurement for large and small flow rates
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HM 150.01
Pipe Friction for Laminar / Turbulent Flow
Determining the critical Reynolds number
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HM 150.11
Losses in Piping Elements, Valves and Fittings
Investigating the influence of flow rate and cross-sectional profiles on pressure loss in pipes and fittings
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HM 164
Open Channel and Closed Channel Flow
Flow processes on different structures in open and closed channel flows
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HM 111
Pipe Networks
Investigation and analysis of different pipe systems in relation to pressure and flow rates
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HM 150.19 
Operating Principle of a Pelton Turbine
Model of a free jet turbine with adjustable nozzle and determination of the efficiency
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HM 150.20
Operating Principle of a Francis Turbine
Model of a reaction turbine with adjustable guide vanes and determination of the efficiency
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HM 150.04
Centrifugal Pump
Determining the characteristics of a typical centrifugal pump
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HM 150.16
Series and Parallel Connected Pumps
Determining the characteristic curves and hydraulic power output and comparison of series and parallel operating modes
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HM 156
Water Hammers and Surge Chamber
Water hammers in pipe,
function of a surge chamber
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HM 143
Transient Drainage Processes in Storage Reservoirs
Transient drainage processes in a rainwater retention basin; transient drainage processes in two water reservoirs located one behind the other
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HM 160
Experimental Flume 86x300mm
Experimental section for performing flow experiments in open flumes with lengths of 2,5m or 5m available, closed water circuit and inclination adjustment
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HM 162
Experimental Flume 309x450mm
Experimental section for performing flow experiments in open flumes with lengths of 5m, 7,5m, 10m or 12,5m available, closed water circuit and inclination adjustment
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HM 161
Experimental Flume 600x800mm
Experimental section for performing flow experiments in open flumes of 16m length, closed water circuit, inclination adjustment
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HM 162.32
Ogee-Crested Weir with 2 Weir Outlets
Base for a spillway
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HM 162.40
Radial Gate
Accessory for expanding the modular flow channel
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HM 162.30
Set of Plate Weirs, 4 Types
Investigations on various plate weirs
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HM 162.51
Venturi Flume
Device for determining the flow rate in rivers and channels
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HM 162.39
Roughened Bed
Simulation of a rough flow bed
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HM 162.46
Set of Piers, 3 Profiles
Simulation of bridge pillars in a river
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HM 162.41
Wave Generator
Unit for generating waves
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HM 162.42
Plain Beach Simulation
Simulation of a sand beach
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HM 166
Fundamentals of Sediment Transport
Investigation of the movement of sediment in flows
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HM 140
Open-Channel Sediment Transport
Comprehensive investigation of sediment motion
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HM 168
Sediment Transport in River Courses
Investigation of sediment migration with and without structures
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HM 142
Separation in Sedimentation Tanks
Solid/liquid separation in a sedimentation tank, visualisation of flow conditions
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HM 165
Studies in Hydrology
Basic experiments in the areas of the percolation action of rain and in ground water flow
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HM 167
Ground Water Flow
Three-dimensional investigations and demonstration of flood and drainage
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HM 169
Visualisation of Seepage Flows
Basic experiments in the areas of the percolation action of rain and in ground water flow
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HM 145
Advanced Hydrological Investigations
Advanced experiments in the areas of the percolation action of rain and in ground water flow
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HM 141
Hydrographs after Precipitation
Correlations between precipitation and percolation; storage capacity and drainage methods
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CE 116
Cake and Depth Filtration
Cake and depth filtration with different suspensions and filter medium layers
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