Warmth Transfer in Forced Convection Our organization offers best quality Heat Transfer in Forced Convection at a reasonable market cost. The device offered by us is used for estimating normal surface warmth exchange coefficient or the Reynolds number for a pipe losing heat under constrained convection conditions. Made under strict supervision as per industry set standards and parameters, this mechanical assembly is valued by the customers for minimized plan, consistent completing and longer utilitarian life. Depiction: The mechanical assembly comprises of blower unit fitted with the test pipe. Nichrome wire warmer encompasses the test segment. Four Temperature Sensors are inserted on the test segment, two put noticeable all around stream at the passage and exit of the test segment to gauge the gulf and outlet air temperature. Test pipe is associated with the conveyance side of the blower alongside the opening to quantify stream of air through the pipe. Consistent warmth transition is given to pipe by an electric radiator through a variac and estimated by Digital Voltmeter and Digital Ammeter. Experimentation: To decide normal surface warmth exchange coefficient for a pipe by constrained convection. Examination of warmth exchange coefficient for various wind stream rates and warmth stream rates. To plot surface temperature dissemination along the length of pipe. Utilities required: Electricity Supply: 1 Phase, 220 V AC, 10 Amp. Floor region of 1.2 m x 0.5 m. Specialized Specifications: Test area: Horizontal, remotely warmed Diameter: 28 mm (approx.) Length: 400 mm (approx.) Blower: FHP of Standard make Heater: Nichrome Wire Digital Voltmeter: 0-300 Volt Digital Ammeter: 0-2 Amp Variac: 0-230 V, 2 Amp Digital Tem.Indicator: 0-3000C, with multi-channel switch Temperature Sensors: RTD PT-100 compose Instruction Manual: An english direction manual will be given along the Apparatus
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