00:00:00.000 this heat exchanger is designed so that 00:00:02.14900:00:02.159 the tube side fluid passes the shell 00:00:04.13000:00:04.140 side fluid twice the tube side fluid 00:00:07.61000:00:07.620 enters here and is directed through half 00:00:10.25000:00:10.260 of the tubes by the inlet head after 00:00:12.79900:00:12.809 passing through the first half of the 00:00:14.53900:00:14.549 tubes the fluid is directed into the 00:00:16.79000:00:16.800 rest of the tubes by the return head the 00:00:19.49000:00:19.500 fluid then passes through the rest of 00:00:21.29000:00:21.300 the tubes and is directed out of the 00:00:23.35900:00:23.369 heat exchanger besides the number of 00:00:27.14000:00:27.150 passes the flow paths inside a heat 00:00:29.63000:00:29.640 exchanger can also be used to categorize 00:00:32.06000:00:32.070 types of heat exchangers there are three 00:00:35.09000:00:35.100 general categories for the flow path 00:00:37.06900:00:37.079 through a heat exchanger parallel flow 00:00:40.29900:00:40.309 cross flow and counter flow in a 00:00:46.16000:00:46.170 parallel flow heat exchanger the shell 00:00:48.68000:00:48.690 side fluid and the tube side fluid move 00:00:51.08000:00:51.090 in the same direction in this heat 00:00:53.51000:00:53.520 exchanger the tube side fluid passes 00:00:56.02900:00:56.039 through the tubes in this direction and 00:00:58.09900:00:58.109 the shell side fluid passes around the 00:01:01.13000:01:01.140 tubes in the same direction
Office location
Engineering company LOTUS®
Russia, Ekaterinburg, Lunacharskogo street, 240/12