PRODUCTS


Finned Tube Heat Exchanger ( For Air Liquid System )
Range of Experiments to be Carried Out
• To determine Heat transfer rate of heating & cooling
• To Calculate L.M.T.D.
• To determine Overall Heat Transfer Coefficient Based on Internal & External Area of Tube
• To calculate Effectiveness of heat exchanger
• The experiments can be conducted at various values of input & calculation can be made accordingly
 
Finned Tube Heat Exchanger Finned Tube Heat Exchanger

Shell & Tube Heat Exchanger - ( For Water / Water Media )
Range of Experiments to be Carried Out
• To determine Heat transfer rate of heating & cooling
• To Calculate L.M.T.D.
• To determine Overall Heat Transfer Coefficient
• To calculate Effectiveness of heat exchanger
• The experiments can be conducted at various values of input & calculation can be made accordingly
 
Shell & Tube Heat Exchanger Shell & Tube Heat Exchanger

Parallel Flow & Counter Flow Heat Exchanger
Range of Experiments to be Carried Out
• To determine Heat transfer rate of heating & cooling
• To Calculate L.M.T.D.
• To determine Overall Heat Transfer Coefficient Based on Internal & External Area of Tube
• To calculate Effectiveness of heat exchanger in parallel & counter flow condition
• The experiments can be conducted at various values of input & calculation can be made accordingly
 
Heat Pipe Demonstration Heat Pipe Demonstration

Regenerative Heat Exchanger
Range of Experiments to be Carried Out
• To determine Heat transfer rate of heating & cooling
• To Observe & calculate energy balance
• To calculate Effectiveness of heat exchanger
• The experiments can be conducted at various values of input & calculation can be made accordingly

Plate Type Heat Exchanger
 
 
The Experimental Setup Consists of
Total number of Plates
:
9 Nos.
Total Active Area
:
0.84.
Plate Material, Thickness
:
SS-316. 0.5
Gasket Material
:
EPDM std, glued
Frame
:
M.S. duly painted multibolt tightened
Hot Side Flow arrangement
:
1 x 4
Cold Side Flow arrangement
:
1 x 4
Hot Side Connection
:
38 NB
Cold Side Connection
:
38 NB
Design Pressure Bar (g)
:
6.0.
Test Pressure Bar (g)
:
7.6
Design Temperature ( deg C)
:
120
 
Heating Arrangement
• Electrical Gyesors of 2 Kw are provided for water supply
• Rotameter for flow measurement of hot water. Range : 0 - 11 LPM

Cooling Arrangement
• Rotameter for flow measurement of Air

Control Panel Consists of
• 12 Channel Digital Temperature Indicator Range : 0 - 600
• Set of Thermocouple, main switch sockets etc. will be provided

Vertical Condenser
Range of Experiments to be Carried Out
• To determine Heat transfer rate of heating & cooling
• To determine the overall and individual film heat transfer coefficients for a condensation of a vapour on a vertical Condenser
• To calculate Effectiveness of the Condenser
• The experiments can be conducted at various
 
Vertical Condenser  

Cross Flow Heat Exchanger
Range of Experiments to be Carried Out
• To determine Heat transfer rate of heating & cooling
• To determine Overall heat transfer coefficient
• To calculate Effectiveness of heat exchanger
• The experiments can be conducted at various values of input & calculation can be made accordingly
 
Cross Flow Heat Exchanger  

Coiled Tube Heat Exchanger - ( For Water / Water Media )
Range of Experiments to be Carried Out
• To determine Heat transfer rate of heating & cooling
• To determine Overall heat transfer coefficient
• To calculate Effectiveness of heat exchanger
• The experiments can be conducted at various values of input & calculation can be made accordingly
 
Coiled Tube Heat Exchanger Coiled Tube Heat Exchanger

Spiral Heat Exchanger
Range of Experiments to be Carried Out
• To determine Heat transfer rate of heating & cooling
• To determine Overall heat transfer coefficient
• To calculate Effectiveness of heat exchanger
• The experiments can be conducted at various values of input & calculation can be made accordingly
 
Spiral Heat Exchanger Spiral Heat Exchanger

Horizontal Condenser
The unit consists of
• Outer tube of I.D. 50 mm & length 1000 mm.
• Inner tube of I.D. 25 mm & length 1000 mm.

Heating Arrangement
• Electrical Geysers of 2 Kw are provided for water supply.
• Rotameter for flow measurement of hot water. Range : 0 - 11 LPM

Cooling Arrangement
• Rotameter for flow measurement of water

Cooling Arrangement
• 12 Channel Digital Temperature Indicator Range : 0 - 600o
• Set of Thermocouple, main switch sockets etc. will be provided

U Tube Finned Heat Exchanger
Range of Experiments to be Carried Out
• To determine Heat transfer rate of heating & cooling
• To Calculate L.M.T.D.
• To determine Overall Heat Transfer Coefficient Based on Internal & External Area of Tube
• To calculate Effectiveness of heat exchanger
• The experiments can be conducted at various
• Values of input & calculation can be made accordingly
 
U Tube Finned Heat Exchanger U Tube Finned Heat Exchanger

Radiation Heat Transfer Apparatus
Range of Experiments to be Carried Out
• To determine film heat transfer coefficient between the medium in which body is heated & cooled
• Observe the radiation phenomena
• To Plot temperature increases of test piece with respect to time
• The experiments can be conducted at various values of input (Temperature) & calculation can be made accordingly
 
Radiation Heat Transfer Apparatus  

Natural Cooling Tower
Range of Experiments to be Carried Out
• To determine the cooling efficiency of Cooling Tower
• To calculate cooling rate
 
Natural Cooling Tower  

Forced Drought Cooling Tower
Range of Experiments to be Carried Out
• To determine Volumetric mass transfer coefficient (hD.a) for air, water system in a cooling tower
• To study the temperature distribution along the height of the tower
• The experiments can be conducted at various flow rates of Air & Water & calculation can be made accordingly
• Experiment can be conduct on both Induced & Forced Draught condition
• To determine & compare the efficiency of the tower from Induced & Forced Draught condition
 
Forced Drought Cooling Tower

Heat Pump Test Rig
Range of Experiments to be Carried Out
• To observe the working principal of heat pump cycle
• To determine Actual cooling C.O.P, Carnot C.O.P., Theoretical C.O.P., Actual heating C.O.P., Relative C.O.P., Ton of Refrigeration Etc.
• To determine the efficiency of the heat pump system
• Observe the working of refrigeration cycle also
 
Heat Pump Test Rig  

Heat Transfer Through Agitated Vessel
Range of Experiments to be Carried Out
• Calculate the Inside, Outside & Overall heat transfer coefficient of agitated vessel
• To calculate & observe the over

Surface Condenser Test Rig
Range of Experiments to be Carried Out
• To determine Heat transfer rate of heating & cooling
• To determine the overall and individual film heat transfer coefficients for a condensation of a vapour on a Surface condenser
• To calculate Effectiveness of the Condenser
• To observe & Calculate effectiveness of condenser under vaccume

Computerised Natural Convection Apparatus
Range of Experiments to be Carried Out
• Heater Assembly
• Brass Vertical cylinder
• Cylinder enclosure with stand
• Cylinder holding assembly. S. Set of thermocouples
 
Computerised Natural Convection Apparatus  

Computerized Stefan Boltzman Apparatus
Range of Experiments to be Carried Out
• To determine the Radiation Stefan Boltzman Constant
• Observe the radiation phenomena
• To Plot temperature increses of test disk with respect to time
• The experiments can be conducted at various values of input(Temperature) & calculation can be made accordingly
 
Computerized Stefan Boltzman Apparatus Computerized Stefan Boltzman Apparatus

Computerized Shell & Tube Heat Exchanger - ( For Water / Water Media )
Range of Experiments to be Carried Out
• To determine Heat transfer rate of heating & cooling
• To Calculate L.M.T.D.
• To determine Overall Heat Transfer Coefficient
• To calculate Effectiveness of heat exchanger
• The experiments can be conducted at various values of input & calculation can be made accordingly
 
Stefan Boltzman Apparatus Computerized Shell & Tube Heat Exchanger

Heat Transfer In Vacuum With Fins
Range of Experiments to be Carried Out
• Heater Assembly
• Brass Vertical cylinder
• Cylinder enclosure with stand
• Cylinder holding assembly
• Set of thermocouples
• Vacuum gauge

Computerised Heat Transfer In Vacuum With Fins
Range of Experiments to be Carried Out
• Heater Assembly
• Brass Vertical cylinder
• Cylinder enclosure with stand
• Cylinder holding assembly
• Set of thermocouples
• Vacuum gauge
• Brass fins