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Products  |  Process Engineering  |  Mechanical Process Engineering  |  CE 117
CE 117 Flow through Particle Layers Show data sheet (pdf file) Print page
Technical Description

  Flow through particle layers is widely encountered in process engineering. In reactors, fixed and fluidised beds are subjected to through-flow by liquids and gases. The separation of solids from suspensions by cake and depth filtration is another area of application.
  With CE 117 the fluid mechanic principles involved in flow through fixed beds and fluidised beds can be investigated. For the purpose, a fillable test tank made of glass is provided, through which water can be made to flow from both ends. A sintered-metal plate serves as the base for bulk solids. 
  Water from the laboratory water connection flows into the test tank. To investigate flow through fixed beds, the water enters the test tank from the top. It flows through the fixed bed and the sintered-metal plate and passes by way of a distributor to the outlet. 
  The experimentation set-up can be modified by means of quick-release hose couplings. This also enables the flow through the test tank to be reversed and fluidised beds to be investigated. The water flows upwards through the porous sintered-metal plate and the fixed bed. If the velocity of the water is less than the so-called fluidisation velocity, the flow merely passes through the fixed bed. At higher velocities a fluidised bed is formed. The water flows from the head of the test tank into an expansion tank. From there it flows into the outlet.
  Regardless of the specific set-up, the flow rate is adjusted by a valve and indicated by a flow meter. To determine the pressure loss via the fixed bed or fluidised bed, two manometers with differing measuring ranges are provided. The desired manometer is selected by way of valves.

  The well-structured instructional material sets out the fundamentals and provides a step-by-step guide through the experiments.
 

Learning Objectives / Experiments

- learning the fundamentals of flow through fixed

  beds and fluidised beds (Darcy)
- observation of the fluidisation process
- pressure loss dependent on the flow rate, type,

  particle size and height of the bulk solid
- determination of the fluidisation velocity and

  comparison with theoretically calculated values
- verification of Carman-Kozeny equation

Features

* Experiments in the fundamentals of fluid mechanics

  on particle layers1
* Flow through fixed beds1
* Flow through fluidised beds1
* Pressure loss in fixed beds and fluidised beds

Alternative products
CE 220 -- Fluidised Bed Formation
Specification

[1] investigation of the properties of fixed and fluidised beds subjected to liquid flow
[2] glass test tank with sintered filter medium on its base
[3] test tank removable for filling
[4] downward flow to investigate fixed beds
[5] upward flow to investigate fluidised beds
[6] flow meter with valve for adjustment
[7] 2 manometers with differing measuring ranges to measure pressure loss through the test tank
[8] steel rule to measure the height of the fixed or fluidised bed

 

Technical Data

Test tanks
- length: 510mm
- inside diameter: approx. 37mm
- material: DURAN glass
Filter medium
- thickness: 2mm
- material: sintered metal
Expansion tank
- capacity: approx. 4,5L
- material: PVC
 
Measuring ranges
- flow meter: 60...820mL/min
- 2-tube manometer (water): 0...50mbar
- manometer: 0...250mbar
- steel rule: 10...500mm

 

Dimensions and Weight
LxWxH: 690x410x1.150mm
Weight: approx. 26kg
Required for Operation
Water connection: approx. 1L/min
Drain recommended
Scope of Delivery

1 experimental unit
1 packing unit of gravel (1...2mm)
2 packing units of glass-shot beads

   (180...300 / 420...590Ám)
1 set of instructional material

Order Details
083.11700  CE 117  Flow through Particle Layers
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