Heat Pipes Dealers in Ambala

IT consist of three concentric pipes, at the axis of which a cartridge heater is positioned

• Material: G.I.
• Length: 1000 mm.
• Capacity: 5 KW.
• Diameter: 25 mm.
• Features: High efficiency,Longer service life.,Low maintenance.

• Brand Name: SLISCO
• Place of Origin: India
• Heat Transfer Lab: Heat Transfer Through Lagged Pipe
• Heat Transfer Lab: Heat Transfer Through Composite Wall
• Heat Transfer Lab: Emissivity Measurement Apparatus
• Heat Transfer Lab: Stefan Boltzman Apparatus

Product description: description : 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 insulatingmaterials fill the annuli between. Thecylinders.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. Experimentation: to estimate the actual rate of heat transfer through the composite cylinders from the measured interface temperature of the two insulating materials with known thermal conductivities.ã� to determine the effective thermal conductivity of the composite cylinder.ã� to compare the theoretical temperature profile within the composite cylinders, with that of observed profile utilities required : â�¢ electricity supply : 1 phase, 220 v ac, 2 amp. Â�¢ table for set-up support. Technical details : g.i. Pipe inner : 5 cm dia. Approx. Â�¢ g.i. Pipe middle : 10 cm dia. Approx. Â�¢ g.i. Pipe outer : 15 cm dia. Approx. Â�¢ length of pipes : 60 cm approx. Â�¢ heater : nichrome wire â�¢ digital voltmeter : 0-300 volt. Â�¢ digital ammeter : 0-2 amp.

We are offering heat transfer through lagged pipe.description :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.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. Technical details : g.i. Pipe inner : 5 cm dia. Approx. G.i. Pipe middle : 10 cm dia. Approx. G.i. Pipe outer : 15 cm dia. Approx. Length of pipes : 60 cm approx. Heater : nichrome wire digital voltmeter : 0-300 volt. Digital ammeter : 0-2 amp.

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 support