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Chemical Engineering Lab 1
Thermal Conductivity of Liquids and Gases Unit.jpgThermal Conductivity of Liquids and Gases Unit

To determine the thermal conductivity of various liquids and gases.

Cross Flow Heat Exchanger.jpg

Cross Flow Heat Exchanger

  1. To determine heat transfer / temperature difference and surface heat transfer coefficient for a single tube in a transverse air stream.
  2. To determine the mean surface heat transfer coefficient for tubes in the 1st, 2nd, 3rd, 4th, 5th and 6th rows of a cross flow heat exchanger and in the 1st, 2nd, 3rd and 4th rows of finned cross flow heat exchanger.
Heat Transfer in Agitated Reactor.jpg

Heat Transfer in Agitated Reactor

To determine heat transfer in a jacketed tank with coil and stirrer.

Multi-Angular Packed Bed Unit.jpg

Multi-Angular Packed Bed Unit

To determine the fluid flow mechanism in different angle.

Toricelli Law.jpg

Toricelli Law

To investigate the speed of fluid flow from an orifice to the height of fluid above the opening.

Barometric Apparatus.jpg

Barometric Apparatus

To measure the air pressure under different conditions.

Particular Drag Coefficient Apparatus.jpg

Particular Drag Coefficient Apparatus

To investigate the characteristics of the behaviour of particle/fluid systems, in particular the relationship between the drag coefficients of falling particles and their Reynolds' number value.

Radiation Heat Transfer Module.jpg

Radiation Heat Transfer Module

To investigate the fundamental laws relating to behaviour of radiation.

Heat Conduction Study Bench.jpg

Heat Conduction Study Bench

  1. To investigate Fourier's Law for the linear conduction of heat along a homogeneous bar and plate.
  2. To study heat conduction for different cross sectional area of solid geometry and types of material.
  3. To investigate the influence of thermal insulation upon the conduction of heat between adjacent metals. 
Fluid Mixing Unit.jpg

Fluid Mixing Unit

  1. To study the effect of changing the type of impeller to the fluid mixing pattern.
  2. To study the effect of baffle installation to the fluid mixing pattern.
  3. To study the effect of impeller shaft position to the fluid mixing pattern.
Impact of Jet.jpg

Impact of Jet

  1. To study effect of body geometry to the force due to impact of jet.
  2. To determine the force required by the water jet to counteract the external force.
Multipump Test Rig.jpg

Multipump Test Rig

To determine the relationship between pressure / torque / flow rate /R RPM against pump speed (frequency) of the three different types of pump at fully open control valve.

Compressible Flow Bench.jpg

Compressible Flow Bench

  1. To analyze the pressure characteristics for different devices at various air flow rates.
  2. To analyze the Mach number characteristics for different devices at various air flow rates.
Cavitation Bench.jpg

Cavitation Bench

To examine the effect of cavitation occurs during the transportation of water through a pump.

Hydrostatic and Properties of Fluid (1).jpg

Hydrostatic and Properties of Fluid (2).jpg 

Hydrostatic and Properties of Fluid

  1. To use the principle of Pascal's Law in determining the pressure using the pressure gage and through barometric equation.
  2. To apply the principle of pitot tube, measurement of dynamic pressure and determination of velocity.
  3. To apply the principle of the buoyancy law in determining buoyancy force.
  4. To apply the principle of the Boyles' Law and Pascal's Law.
Pressure Drop in Packed Bed.jpg

Pressure Drop in Packed Bed

  1. To determine the pressure, drop of packed and fluidized beds for water systems.
  2. To determine the onset of fluidization
  3. To determine the frictional loss in the air system.
Fluid Friction.jpg

Fluid Friction

  1. Determine the relationship between the pressure drop and friction loss for flow of water through pipe at various diameters and surface roughness.
  2. Validate the mechanical energy's equation and Bernoulli's equation through theoretical and calculated values.
  3. To apply the Bernoulli's equation to measure volumetric flow rate.
Boyle Law Apparatus.jpg

Boyle Law Apparatus

To apply the Boyle’s Law mechanism through theoretical and calculated values.

Multi Heat Exchanger.jpg

Multi Heat Exchanger

To study the heat transfer / temperature difference for a co-current and counter current flow operation.

Double Pipe Heat Exchanger.jpg

Double Pipe Heat Exchanger

To study the Logarithmic Mean Temperature Difference (LMTD) at varying HOT Water Flow Rate at co-current and counter current flow direction.

Shell and Tube Heat Exchanger.jpg

Shell and Tube Heat Exchanger

  1. To study the effects of cold-water flow rate on the heat transfer coefficients at constant hot water flow rate towards shell and tube heat exchanger.
  2. To study the effect of hot water flow rate on heat transfer coefficient at constant cold-water flow rate towards shell and tube heat exchanger.
Plate Heat Exchanger.jpg

Plate Heat Exchanger

  1. To study the effects of cold-water flow rate on the heat transfer coefficients at constant hot water flow rate towards plate heat exchanger.
  2. To study the effect of hot water flow rate on heat transfer coefficient at constant cold-water flow rate towards plate heat exchanger.

 

 

  

 

 


 

 

 

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