SU603831A1 - Method of determining pressure loss factor in compact plate-rib heat exchangers - Google Patents

Description

The figure schematically shows the ycfa nova for carrying out the proposed method. The installation contains heat exchangers 1 and 2 installed in a single air duct 3. Heat exchangers 1 and 2 have identical structures that differ only in the length of channels 4 and 5, Before the heat exchangers 1 and 2 and after them are installed tubes 6, 7 and 8 of total pressure, connected to differential pressure gauges 9 and 10, as well as resistance thermometers 11, 12 and 13 for measuring the average integral temperature. The implementation of the proposed method is as follows. With isothermal air blowing through channels 4 and 5 of the Kajworo heat exchanger 1 and 2 in steady-state mode, the air flow rate is the same at the same temperature and speed. The isothermality of the process in each steady state is monitored by the readings of resistance thermometers 11, 12 and 13. In each steady state, the total pressure loss of the air of the DG is determined by means of - tubes 6, 7 and 8 total pressure and differential manometers 9 and 10, respectively. In each heat exchanger 1 and 2, taking into account friction pressure losses, entry and exit from heat exchangers. According to the Darcy formula, it determines the coefficients of the total pressure loss of the heat transfer medium for friction, the inlet and outlet of the air heat exchanging surface g in the heat exchangers 1 and 2 as follows;

d Е

in - (- out, meter of channels PW - corresponding to the density and velocity of the coolant in the channels "., AO - coefficient of pressure loss Tr, Vl O friction and coefficient of total loss of laziness on the input and output, respectively. Determine the difference between the total losses of the division DRD in heat exchangers 1 and friction pressure loss. In cases where the cann ensures the absence of a hydrodynamic stabilization zone in them, the value is equal to the loss of pressure during friction

controlled by the convergence of their experimental values in expressions (5) and (6),

(1) 40

F o

invention

р м у л and on the Plot of a difference of lengths -,. channels 4 and 5. The friction pressure loss is determined from the equilibrium dP.-dP. Using the Darcy formula and equation (3), the coefficient of pressure loss of the heat transfer medium on the trap in the heat exchanger channels 1 and 2 is determined. . 2 (dP1-iRd) and 2DDRtr-d pwa () From equations (1), (2) and (4}), determine the desired coefficients of the total pressure loss at the inlet and outlet for each heat exchanger Ki i / & fr stl in + out 1VH +. OUT dR, -DP, Reliability of experimental determination of the coefficient of total pressure loss at the entrance and exit of the channels in the room plate-fin heat exchangers The method of determining the coefficients of pressure loss in compact plate-fin heat exchangers by isothermal blowing channels one heat exchanger in the air path, measuring differential pressure on it with simultaneous measurement of air temperature at the inlet and outlet of the channels and subsequent determination of the total pressure loss coefficient using the Darcy formula, characterized in that, in order to increase the accuracy while reducing the labor intensity of determining the coefficients, after the first heat exchanger the second heat exchanger of identical design, but with a different length of channels than the first, is isothermally purged with air passing through the first t ploobmennik is determined pressure loss tre

over a length equal to the difference in the lengths of the channels of both heat exchangers, as the difference in pressure drops on each heat exchanger, and using the Darcy formula find the coefficient of friction pressure loss, and then determine the coefficients of the total pressure loss at the inlet and outlet for the heat exchanger.

Sources of information taken into consideration during examination:

1. M., boss Coef f - Chang-ebs in FEow Cross. Section NvitVi Low RevnoEdb Numbet f o Mvin Singrte Ana MuEtipEe-Tube Sy.temb USA Tf-oinsoiction of the ASMt Novemteg, 950, voE.72 ,, 1067-107 /.

ZZ1 / 7 // 2 .5, 13