Having capabilities to determine thermal conductivity of liquid and study the temperature gradient along the length.

Consisting of Hot plate and Cold plate assembly, heater of suitable capacity, chromel-alumel thermocouples, power measurement, digital temperature indicator, flow measurement, heat regulation by electronic voltage regulator and insulation.

Having capabilities to determination of thermal conductivity of metal and to study the temperature gradient along the length of the rod.

Consisting of Specimen size and material, heater of suitable capacity, chromel-alumel thermocouples, cooling water chamber, power measurement, digital temperature indicator, flow measurement, heat regulation by electronic voltage regulator, control panel made by wooden sheet and square tubes.

Having uses to Determination of co-efficient of Thermal conductivity of insulating material in powder form.

Consisting of Insulating powder, copper shell, heater of suitable capacity, chromel-alumel thermocouples, power measurement, digital temperature indicator, heat regulation by electronic voltage regulator, control panel made by wooden sheet and square tubes.

To find out thermal conductivity of the composite material and to compare with calculated from the equations.

Consisting of specimen material and size, Casing to fit the specimen assembly with cooling chamber, heater of suitable capacity, chromel-alumel thermocouples, cooling water chamber, power measurement, digital temperature indicator, flow measurement, heat regulation by electronic voltage regulator, control panel made by wooden sheet and square tubes.

Having capabilities to study the temperature gradient between the heated surface and the surrounding and to calculate the heat transfer co-efficient of the tube in free convection in vertical position.

Consisting of specimen size, heater of suitable capacity, chromel-alumel thermocouples, power measurement, digital temperature indicator, flow measurement, transparent acrylic enclosure, heat regulation by electronic voltage regulator, control panel made by wooden sheet and square tubes.

To determine the heat transfer co-efficient under forced convection condition.

Consisting of specimen size, Blower, heater of suitable capacity, chromel-alumel thermocouples, power measurement, digital temperature indicator, flow measurement, heat regulation by electronic voltage regulator, control panel made by wooden sheet and square tubes.

To find out heat transfer co-efficient of a finned surface and in a natural convection. To find heat transfer co-efficient of finned and in forced condition. Comparison of results for natural or forced. To find the effectiveness and efficiency of the fin. To find the temperature distribution along the fin.

Consisting of suitable fin with suitable material, Duct, Blower, heater of suitable capacity, chromel-alumel thermocouples, power measurement, digital temperature indicator, flow measurement, heat regulation by electronic voltage regulator, control panel made by wooden sheet and square tubes.

To determine experimentally Radius of Insulation over a copper pipe of different insulation thickness.

Consisting of suitable size of specimen, heater of suitable capacity, chromel-alumel thermocouples, power measurement, digital temperature indicator, insulation, control panel made by wooden sheet and square tubes.

To measure the emissivity of non-black test plate at various temperatures and to plot the graph of emissivity versus temperature.

Consisting of suitable size of test plate and reference plate, heater of suitable capacity, chromel-alumel thermocouples, power measurement, digital temperature indicator, enclosure, heat regulation by electronic voltage regulator, control panel made by wooden sheet and square tubes.

To find out Stefan Boltzman’s constant.

Consisting of suitable size of hemisphere, jacket, test specimen, Hot water generator, chromel-alumel thermocouples, digital speed indicator, control panel made by wooden sheet and square tubes.

To find out LMTD/AMTD under parallel and counter flow conditions.To find out overall heat transfer co-efficient of the heat exchanger.

Consisting of heat exchanger, hot water generator, water flow measurement, chromel-alumel thermocouples, digital temperature indicator, flow control and control panel made by wooden sheet and square tubes.

Having capabilities of overall heat transfer co-efficient practically and compare the same with theoretically calculated value.

Consisting of suitable size of specimen, water circulation, chromel-alumel thermocouples, digital temperature indicator, flow measurement, steam generation, steam pressure measurement, control panel made by wooden sheet and square tubes.

The test rig is designed to study the various components and Thermo Dynamic cycle involved in the test rig.The Temperatures & Pressures at various points before & after compression and Expansion of the Refrigerator.

The COP, Power, Refrigeration Flow Rate etc. of the cycle.The variation of cooled medium in the Freezer compartment.

Consisting of vapour compression, compressor, refrigerant, evaporator/freezer, cooling, condenser, mounted on a self-contained control panel.

The test rig is designed to study the various components and thermo dynamic cycle involved in the test rig.The temperatures & pressures at various points before & after compression and expansion of the refrigerant.

Consisting of vapour compression, compressor, refrigerant, condenser, air flow measurement, expansion valve, mini boiler. Mounted on a control panel.

To find out the critical heat flux of the given wire and study the heat transfer to the boiling liquid (water) at various temperatures. To study the pool boiling phenomenon up to critical heat flux point.

Consisting of Cylindrical shell, Water heater, Test heater, chromel-alumel thermocouples, Digital voltmeter and ammeter, digital temperature indicator, dimmerstat, control panel made by wooden sheet and square tubes.

Having capabilities to determine the axial heat flux in a heat pipe using water as working fluid with that in a solid copper rod with temperatures.

Consisting of suitable size of specimen, condenser, heater of suitable capacity, chromel-alumel thermocouples, power measurement, digital temperature indicator, heat regulation by electronic voltage regulator, control panel made by wooden sheet and square tubes.

To find out temperature gradient along the length of the rod.

Consisting of Aluminum rod, copper rod, steam generator, control panel made by wooden sheet and square tubes.

Having capabilities to observe formation of bubbles under pool boiling. To plot graph of heat flux Vs bulk temperature condition. To plot graph of core surface temperature Vs. time.

Consisting of suitable size of specimen, glass container, heater of suitable capacity, power measurement, chromel-alumel thermocouples, digital temperature indicator, temperature controller, power controller, condenser, end flanges, flow measurement, control panel made by wooden sheet and square tubes.

To study the thermal conductivity for different shapes and material on unsteady state condition.

Consisting of specimens of different shapes, water heater with controller, thermocouple, mounted on a control panel, whole arrangement is mounted on a self-contained unit.

This laboratory scale working equipment housed on M.S. Square Tube frame along with instrumentation panel used to determine the overall heat transfer co-efficient and heat exchanger effectiveness.

Consisting of plate type heat exchanger, geyser, supply tank, digital temperature indicator, thermocouples,

Consisting of Guarded plate assembly (main heater, plate, material, guard heater). Measuring instruments (digital wattmeter, digital temperature indicator with selector switch. Thermocouples, electronic dimmer for heater, M.S. box.

To determine individual heat transfer coefficient and overall heat transfer coefficient.

Consisting of manometer, Air duct, thermocouple, single tube plate and finned tube plate.