Range of Experiments to Be Carried Out :

• Average surface heat transfer coefficient for a pipe losing heat by forced convection to air flowing through it can be obtained for different air flow & heat flow rates.
• Reynoldâ��s number & Nusselt number for each experimental condition.
• To plot & comment on the surface temperature distribution along the length of pipe.

Experimental Setup :

• Band Heater Assembly.
• Forced convection pipe assembly.
• Blower Unit with orifice & manometer arrangement for measurement.
• Set of thermocouples.

Control Panel :

• 12 Channel Digital Temperature Indicator
• Dimmerstat : 0 - 2 A.
• Main's On/Off Switch.
• Digital Voltmeter  - 0 - 250 V.
• Digital Ammeter - 0 - 3 A.
• Blower On/Off Switch.

Range of Experiments to be Carried Out
To determine total thermal resistance & thermal conductivity of composite wall
To plot temperature gradient along composite wall structure
The experiments can be conducted at various values of input and calculation can be made accordingly
To plot Heat flux Vs thermal conductivity in composite structur

Range of Experiments to be Carried Out
To study the temperature distribution along the length of a vertical pipe In natural convection
To calculate Gr, Pr & Nu number in natural convection
To determine the surface heat transfer coefficient for a vertical tube losing heat by natural convection
The experiments can be conducted at various values of input & calculation can be made accordingly

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

Range of Experiments to be Carried Out

Average surface heat transfer coefficient for a pipe losing heat by forced convection to air flowing through it can be obtained for different air flow & heat flow
rates
Reynolds number & Nusselt number for each experimental condition. To Plot these values on Log - log graph. To Plot on the same graph the Dittus-Boelter
correlation
To plot & comment on the surface temperature distribution along the length of pipe

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

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

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

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

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

Range of Experiments to Be Carried Out :

• Average surface heat transfer coefficient for a pipe losing heat by forced convection to air flowing through it can be obtained for different air flow & heat flow rates.
• Reynoldâ��s number & Nusselt number for each experimental condition.
• To plot & comment on the surface temperature distribution along the length of pipe.

Experimental Setup :

• Band Heater Assembly.
• Forced convection pipe assembly.
• Blower Unit with orifice & manometer arrangement for measurement.
• Set of thermocouples.

Control Panel :

• 12 Channel Digital Temperature Indicator
• Dimmerstat : 0 - 2 A.
• Main's On/Off Switch.
• Digital Voltmeter  - 0 - 250 V.
• Digital Ammeter - 0 - 3 A.
• Blower On/Off Switch.

Range of Experiments to be Carried Out
To determine total thermal resistance & thermal conductivity of composite wall
To plot temperature gradient along composite wall structure
The experiments can be conducted at various values of input and calculation can be made accordingly
To plot Heat flux Vs thermal conductivity in composite structur

Range of Experiments to be Carried Out
To study the temperature distribution along the length of a vertical pipe In natural convection
To calculate Gr, Pr & Nu number in natural convection
To determine the surface heat transfer coefficient for a vertical tube losing heat by natural convection
The experiments can be conducted at various values of input & calculation can be made accordingly

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

Range of Experiments to be Carried Out

Average surface heat transfer coefficient for a pipe losing heat by forced convection to air flowing through it can be obtained for different air flow & heat flow
rates
Reynolds number & Nusselt number for each experimental condition. To Plot these values on Log - log graph. To Plot on the same graph the Dittus-Boelter
correlation
To plot & comment on the surface temperature distribution along the length of pipe

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

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

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

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

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