Experimental Device for Determination of Residence Time Distribution and Reactor Flow Characteristics
Through this device, students can learn the methods of measuring residence time in continuous stirred-tank reactors (CSTRs) and tubular reactors; understand how the parameters of the series model characterize the residence time distribution (RTD) of the CSTR and the degree of backmixing, as well as the physical meaning of model parameter N; and comprehend the two ideal flow patterns: plug flow and perfect mixing.
♥ 1. The pulse tracer method is used to measure the residence time distribution (RTD) of continuous stirred-tank reactors (CSTRs) and tubular reactors. The residence time distribution curve is obtained through processing by computer software.
♥ 2. Designed with professionalism, the device can perform operations under no circulation and variable circulation ratio R, respectively, to measure the residence time distribution of the tubular reactor under different degrees of backmixing.
♥ 3. Equipment appearance and dimensions: The device is constructed with a high-quality aluminum alloy frame and casters, with overall dimensions no larger than 2200mm×580mm×2280mm (length×width×height).
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