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Super Scientific Industries
Super Scientific Industries


Heat Transfer Lab Equipments

We are manufacturer,exporter and supplier, we offer Heat Transfer Lab Equipment from a pin fin, Thermal conductivity of insulation slab, Stefan Boltzmann Apparatus, Heat transfer through logged pipe, Heat transfer through composite walls, Thermal conductivity of liquids, Heat transfer in forced convection, Heat transfer in natural convection, Thermal conductivity of metal rod, Heat Pipe Demonstrator, Vertical & Horizontal Condenser (steam to water), Vertical & Horizontal Condenser (water to water), Calandria Evaporator, Dropwise/Filmwise Condensation Apparatus, Thermal conductivity of insulation powder, Emissivity Measurement Apparatus, Open Pan Evaporator, Shell & Tube Heat Exchanger, Heat transfer in agitated vessel, Single Effect Evaporator, Parallel/Counter Flow Heat Exchanger, Unsteady State Heat Transfer Unit, Multi Effect Evaporator, Finned Tube Heat Exchanger.


Composite Walls Apparatus

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Composite Walls Apparatus
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We are engaged in offering high quality Composite Walls Apparatus to the esteemed customers. These apparatuses are manufactured using genuine raw material, under the able guidance of our team of experts. Moreover, we make sure to timely deliver the ordered products at the customers' end, via our wide distribution network.

 

Features:

 

  • High performance

  • Superior design

  • Low power consumption

  • User-friendly functions

  • Used high quality raw material

  • Economic prices

 

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Heat Transfer Through Lagged Pipe

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Heat Transfer Through Lagged Pipe
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The setup is designed and fabricated to study lagging phenomenon in case of pipes. It consists of three concentric pipes of small thickness as compared to diameter and are arranged concentrically, and closed with the help of two discs. Two different insulating materials fill the annuli between the cylinders compactly. Temperature Sensors are fitted to measure the temperature of pipe walls for radial outward heat flow measurement. Inside the inner pipe, a Nichrome wire heater is placed axially. Heat input to the heater is given through a variac and measured by Digital Voltmeter and Digital Ammeter. By varying the heat-input rates, wide range of experiments can be performed

Experiments

  • To estimate the actual rate of heat transfer through the composite cylinders from the measured interface temperature of the known value of thermal conductivity of the two insulating materials.
  • To determine the effective thermal conductivity of the composite cylinders
  • To determine the theoretical temperature profile within the composite cylinders

Utilities Required

  • Electricity Supply: 1Phase, 220 V AC, 2 Amp.
  • Table for set-up suppo
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Thermal Conductivity Of Insulting Powder

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Thermal Conductivity Of Insulting Powder
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Insulating Powder Apparatus is designed to determine the thermal conductivity of insulating powder. The Apparatus consists of two thin-walled concentric copper spheres. Inner sphere houses Nichrome Wire heating coil. Insulating powder is filled between the spheres. Heat flows radially outwards. Temperature sensors at proper positions are fitted to measure surface temperatures of spheres. Heat input to the heater is given through a variac and measured by Digital Voltmeter & Digital Ammeter. By varying the heat input rates, wide range of experiments can be performed

Experiments

  • Determination of thermal conductivity of insulating powder
  • Comparison of thermal Conductivity of insulating powder at different temperatures

Utilities Required

  • Electricity Supply: 1Phase, 220 V AC, 2 Amp.
  • Table for set-up support
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Thermal Conductivity Of Metal Rod

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Thermal Conductivity Of Metal Rod
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The experimental set up consists of metal bar, one end of which is heated by an electric heater while the other end of the bar projects inside the cooling water jacket. A cylindrical shell filled with the asbestos insulating powder surrounds the middle portion of the bar. The temperature of the bar is measured at different sections. Heat Input to the heater is given through variac and measured by Digital Voltmeter & Digital Ammeter. By varying the heat input rates, wide range of experiments can be performed. Water under constant head condition is circulated through the jacket and its flow rate and temperature rise is noted.

Experiments

  • To plot the temperature distribution along the length of Bar
  • To determine the thermal conductivity of given bar at various temperatures

Utilities Required

  • Water supply 3 lit/min (approx.)
  • Drain
  • Electricity Supply: 1 Phase, 220 V AC 2 Amp.
  • Table for set-up support
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Thermal Conductivity Of Liquids

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Thermal Conductivity Of Liquids
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The present apparatus is designed to determine thermal conductivities of different liquids. The apparatus consists of a heater. The heater heats a thin layer of liquid. A cooling plate removes heat through liquid layer, ensuring unidirectional heat flow. Temperature is measured across the liquid layer and complete assembly is properly insulated. A proper arrangement for changing the liquids is provided. The whole assembly is kept in chamber.

Experiments

  • Determination of Thermal conductivity of different liquids and to make a comparative study
  • Study of variation of thermal conductivity of different liquids with temperature

Utilities Required

  • Water supply 5 lit/min (approx.)
  • Drain.
  • Electricity Supply: I Phase, 220 V AC, 2 Amp.
  • Table for set-up support
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Heat Transfer In Forced Convection

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Heat Transfer In Forced Convection
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The apparatus consists of Blower unit fitted with the test pipe. Nichrome wire heater surrounds the test section. Four Temperature Sensors are embedded on the test section, two placed in the air stream at the entrance and exit of the test section to measure the inlet and outlet air temperature. Test pipe is connected to the delivery side of the blower along with the Orifice to measure flow of air through the pipe. Constant heat flux is given to pipe by an electric heater through a variac and measured by Digital Voltmeter and Digital Ammeter.

Experiments

  • To determine average surface heat transfer coefficient for a pipe losing heat by forced convection.
  • Comparison of heat transfer coefficient for different airflow rates and heat flow rates.
  • To plot surface temperature distribution along the length of pipe

Utilities Required

  • Electricity Supply: 1 Phase, 220 V AC, 10Amp.
Floor area of 1.2mx 0.5m
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Heat Transfer In Natural Convection

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Heat Transfer In Natural Convection
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The setup consists of a brass tube fitted in a rectangular duct in a vertical fashion. The duct is open at the top and bottom, and forms an enclosure and serves the purpose of undisturbed surrounding. One side of the duct is fitted with a transparent good quality Acrylic window for visualization. An electric heating element is kept in the vertical tube that in turns heats the tube surface. The heat is lost from the tube to the surrounding air by natural convection. The temperature of the vertical tube is measure by Temperature Sensors and displayed by a Digital Temperature Indicator with multi-channel switch. The heat input to the heater is measured by a Digital Ammeter and a Digital Voltmeter and is varied by a variac. The tube surface is polished to minimize the radiation losses.

Experiment

  • To determine average heat transfer coefficient

Utilities Required

  • Electricity Supply: I Phase, 220 V AC, 2 Amp.
  • Table for set-up support
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Emissivity Measurement Apparatus

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Emissivity Measurement Apparatus
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The present Set-up is designed to measure the emissivity of test plate. The test plate comprises of a mica heater sandwiched between two circular plates. Black plate is identical with test plate, but its surface is blackened. As all the physical properties, dimension and temperature are equal; heat losses from both plates will be same except radiation loss. Hence the input difference will be due to difference in emissivity. Both plates are supported on individual brackets in a wooden enclosure with one side glass to ensure steady atmospheric conditions. Temperature Sensors are provided to measure the temperature of each plate and surrounding. Supply is given to heaters through separate variacs so that temperatures of both can be kept equal and is measured with Digital Voltmeter and Digital Ammeter.

Experiments

  • Determining the Emissivity of a test plate.
  • Study the variation of emissivity of test plate with respect to absolute temperature.

Utilities Required

  • Electricity Supply: 1Phase, 220 VAC, 4 Amp.
  • Table for set-up support

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Stefan Boltzmann Apparatus

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Stefan Boltzmann Apparatus
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The apparatus is designed to determine, the Stefan Boltzmann constant. The apparatus consists of a hemisphere fixed to a Bakelite plate, the outer surface of which forms the jacket to heat it. Hot water to heat the hemisphere is obtained form a hot water tank, which is fixed above the hemisphere. The copper test disc is introduced at the center of hemisphere. The temperatures of hemisphere and test disc are measured with the help of temperature sensors.

Experiments

  • Determination of Stefan Boltzmann constant and study the effect of hemisphere temperature on it

Utilities Required

  • Electricity Supply: 1Phase, 220 VAC, 4 Amp.
  • Table for set-up support
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Dropwise Filmwise Condensation Apparatus

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Dropwise Filmwise Condensation Apparatus
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Condensation is a phase change heat transfer process occurring in many industrial applications, such as in steam power plants, refrigeration plants etc. Thus this is one of the important heat transfer process present in mechanical and chemical engineering application. The condensation of Vapour on a surface is of two types: 1. Drop wise Condensation. 2. Film wise Condensation. This set up is designed for finding heat transfer co-efficient of two types of condensation and for visualization of these processes. It consists of a vertical frame. Condensation tubes are fitted inside compact glass cylinder. Steam generator is fitted at the backside of the cylinder. Steam comes directly from generator to cylinder. Two valves are fitted to control flow rate of water in individual tubes. Digital Temperature Indicator monitors temperatures. Pressure gauge and Rotameter can observe steam pressure and cold, water flow rates respectively. A Digital temperature Controller is provided for controlling the temperature of Steam. Water level indicator is provided to safeguard the heater. Condensate is measured by measuring cylinder.

Experiments

  • To study the Film wise & Drop wise condensation of steam on a vertical surface
  • Visualization of condensation process in drop wise as well as film wise

Utilities Required

  • Water supply 5 lit/min (approx.)
  • Electricity Supply: 1Phase. 220 V AC. 1.5 kW
  • Table for set-up support
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Shell And Tube Heat Exchanger

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Shell And Tube Heat Exchanger
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Shell and Tube Heat Exchanger are popular in industries because they occupy less space and offer reasonable temperature drop. The apparatus consists of fabricated SS shell, inside which copper tubes with baffles on outer side are fitted. This is two-pass heat exchanger so that hot water passes to one end of shell through the tubes and returns to another end through remaining tubes. The cold water is admitted at the one end of shell, which passes over the hot-water tubes. Valves are provided to control the flow rates of hot and cold water. Flow rates of hot and cold water are measured using Rotameters. A magnetic drive pump is used to circulate the hot water from a re-cycled type water tank, which is fitted with heaters and Digital Temperature Controller.

Experiments

  • The main object of the experimental setup is to study the following at various flow rates:
    • LMTD. .
    • Heat transfer rate
    • Overall Heat Transfer Co-efficient

Utilities Required

  • Water supply 20 lit/min (approx.) and drain
  • Electricity Supply: I Phase, 220 V AC, 4 kW
  • Floor area of 1.5m x 0.75 m
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Super Scientific Industries
Kush Pundir (Director)
Cross Road-2, 1192, Bengali Mohalla Ambala Cantt., Near haryana bekery,
Ambala - 133001, Haryana, India
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