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Heat exchange experiment equipment - List of Manufacturers, Suppliers, Companies and Products

Heat exchange experiment equipment Product List

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TD360 Heat Exchange Experiment Device

TD360 Heat Exchange Experiment Device

Heat exchange experimental device

This is a tabletop experimental device that demonstrates heat transfer (overall heat transfer) between adjacent fluids and verifies the effects of flow rate and temperature difference. The heat exchange experimental device TD360 offers optional (sold separately) experimental items including four types of double-pipe, plate, and multi-tube cylindrical heat exchangers, as well as a tank jacket (coil) type heat exchanger, with one of these being installed for experiments. The hot water system and cooling system are composed of a flow control valve and flow meter, with temperatures and flow rates displayed digitally. The hot water system consists of a PID-controlled tank with a heater, a pump, and a water level gauge, ensuring stable temperature and flow rate. The digital display shows the inlet and outlet temperatures of hot and cold water, the temperature of thermocouples integrated into the heat exchanger (sold separately), and the flow rates of hot and cold water, allowing experiments to be conducted without a PC (sold separately). The four types of heat exchangers (sold separately) have the same heat transfer area (0.02 m²) and wall thickness (1 mm), making it easy to compare each exchanger.

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TD1007 Air-Cooled Heat Exchanger Experimental Device

TD1007 Air-Cooled Heat Exchanger Experimental Device

Air-cooled heat exchange experimental device

This is a system commonly used in heating and cooling air conditioning equipment for buildings and houses, as well as radiators. It is a tabletop experimental device where heated hot water circulates through copper pipes in a heat exchanger and exchanges heat with the air flowing through a wind tunnel. The device comes with a 32-tube heat exchanger, and as an option (sold separately), 16-tube and 16-tube fin-type heat exchangers are available, allowing experiments to be conducted with either type of heat exchanger installed. The hot water system consists of a tank with a PID-controlled heater, a pump, and a water level gauge, and it digitally displays the inlet and outlet temperatures and flow rate of the hot water. The air supply duct system is made up of an orifice and pressure holes for flow measurement, an electric fan, and a slide valve, and it digitally displays the temperatures at the duct inlet and the inlet and outlet of the heat exchanger, as well as the differential pressure across the orifice. In the empty space on the right side of the device, an optional (sold separately) data automatic collection system (VDAS-F) can be installed. By using the data automatic collection system, various data can be collected in real-time to a PC (sold separately), allowing for the analysis of experimental results.

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TE93 Direct Flow Heat Exchange Experimental Device

TE93 Direct Flow Heat Exchange Experimental Device

Direct flow thermal exchange experimental device

The amount of heat transfer due to forced convection is measured, and the cooling rate of a heated object in the airflow is observed. The air inhaled from the bell mouth is released into the atmosphere after passing through the experimental area (pin-shaped module), diffusion body, constant-speed fan and flow control valve, and silencer. A thermocouple is used to measure the temperature of the incoming air at the wind tunnel entrance, and there are two static pressure ports and a pitot tube mounting point before and after the pin-shaped module. The pitot tube can be mounted either in front or behind to measure the velocity distribution in the cross-sectional direction. In the experimental area, pins are arranged perpendicular to the wind direction, and one of them can be removed and replaced with a pin-type heater. The pin-type heater is equipped with a thermocouple, allowing for the measurement of heat transfer based on the time it takes for the temperature to decrease and the wind speed. The control unit has thermocouple connection ports (two), pressure connection ports (differential pressure, two), and a heater power switch, and it digitally displays the temperatures from the two locations, the differential pressure before and after the pin-shaped module, and the differential pressure between the total pressure and static pressure of the pitot tube. By using the optional (sold separately) data automatic collection system VDAS-B, various data can be collected and analyzed in real-time on a PC (sold separately).

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