PRODUCTS
Heat Transfer Through Composite Walls |
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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 structure |
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Heat Pipe Demonstration ( Apparatus ) | ||
Range of Experiments to be Carried Out • To determine thermal conductivity of heat pipe • To observe and plot the temperature distribution along the length of the heat pipe • To observe the thermo siphon action in heat pipe called heat pipe action • The experiments can be conducted at various values of input & calculation can be made accordingly • To calculate & compare effectivness of heat pipe & other good thermal conductor pipes |
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Critical Radius of Insulating Material |
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Range of Experiments to be Carried Out • To determine thermal resistance & critical radious of insulating material • To determine Heat Transfer Co-efficient of Insulating Material • The experiments can be conducted at various values of input & calculation can be made accordingly |
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Heat Conduction Apparatus |
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Range of Experiments to be Carried Out • To determine Radial & Axial thermal conductivity of test speciman • To observe and plot the temperature distribution along the length of the speciman • The experiments can be conducted at various values of input & calculation can be made accordingly • To plot Heat input Vs thermal conductivity |
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Heat Transfer From Pin-Fin Apparatus |
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Range of Experiments to be Carried Out • To study the temperature distribution along the length of a pin fin in natural & forced convection • To calculate Gr, Pr & Nu number in natural conviction • Calculate Re, Pr & Nu number in forced conviction • Calculate the value of m & obtain the temperature at various locations along the length of the fin in natural & forced conviction • Calculate the values of heat transfer rate from the fin & the fin effectiveness in natural & forced conviction • The experiments can be conducted at various values of input & calculation can be made accordingly |
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Heat Transfer In Natural Convection |
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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 |
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Heat Transfer In Forced Convection - ( From Heated Pipe to flowing Air. ) |
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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 |
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Un-Steady State of Heat Transfer |
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Range of Experiments to be Carried Out • To determine film heat transfer coefficient between the medium in which body is heated • To determine film heat transfer coefficient between the medium in which body is cooled |
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Emissivity Apparatus |
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Range of Experiments to be Carried Out • To determine emissivity of test plate • To Observe & calculate The radiant energy per unit time area from the surface of the test body at various temperature • Observe the radiation phenomena • The experiments can be conducted at various values of input & calculation can be made accordingly |
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Stefan Boltzman Apparatus |
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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 |
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