What does a true standard condensate stabilizer look like

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Language: en

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the use of a thunder plums many of us
00:00:03.649 00:00:03.659 probably say yes do you really have a
00:00:06.710 00:00:06.720 standard plant only some of us might say
00:00:09.589 00:00:09.599 yes with hesitation do you really have a
00:00:13.459 00:00:13.469 true standard plant only very few of us
00:00:16.760 00:00:16.770 will say yes with confidence the reason
00:00:20.510 00:00:20.520 why only very few of us have a true
00:00:22.759 00:00:22.769 standard plan is that making plant
00:00:25.009 00:00:25.019 standard is something really really hard
00:00:28.060 00:00:28.070 many of us fail to answer the argument
00:00:30.500 00:00:30.510 question what's the output with the
00:00:33.500 00:00:33.510 customers particularly input if they
00:00:36.049 00:00:36.059 decided to choose your standard plant we
00:00:38.840 00:00:38.850 know the performance and the utility
00:00:41.000 00:00:41.010 requirements at the design condition but
00:00:43.670 00:00:43.680 how about the off design conditions with
00:00:45.740 00:00:45.750 a given set of existing equipments in
00:00:48.380 00:00:48.390 this video you will learn what a true
00:00:51.139 00:00:51.149 standard Conant's the stabilizer looks
00:00:53.060 00:00:53.070 like the standardization journey starts
00:00:56.150 00:00:56.160 from a reference point in this example
00:00:58.760 00:00:58.770 the reference condition is 3000 per day
00:01:01.939 00:01:01.949 condensate with a product or vp spec of
00:01:05.479 00:01:05.489 9.3 PSI engineers we will first finish
00:01:10.130 00:01:10.140 the simulation and then issues exchanger
00:01:13.760 00:01:13.770 process data sheets to vendors some
00:01:16.190 00:01:16.200 engineers declare they've got a standard
00:01:18.410 00:01:18.420 plant of 3000 power per day stabilizer
00:01:20.630 00:01:20.640 after they receive that exchangers quote
00:01:23.570 00:01:23.580 is this rear the standard plant not at
00:01:26.990 00:01:27.000 all since there really cannot answer the
00:01:29.690 00:01:29.700 argument question what's the output with
00:01:32.480 00:01:32.490 the customers particularly input if they
00:01:34.789 00:01:34.799 decided to choose your standard plant
00:01:39.520 00:01:39.530 the next step towards translation is to
00:01:46.550 00:01:46.560 integrate exchanger design into
00:01:49.069 00:01:49.079 simulation software like Austin
00:01:50.810 00:01:50.820 high-seas in this second model the heats
00:01:54.350 00:01:54.360 change or geometries are input into
00:01:56.270 00:01:56.280 simulation as you can see the seed pod
00:01:59.270 00:01:59.280 exchanger is a bu type with a shallow
00:02:03.950 00:02:03.960 diameter of about an inch and a tubulin
00:02:06.380 00:02:06.390 253 inch the reboiler is a piquillo type
00:02:11.540 00:02:11.550 with a
00:02:13.400 00:02:13.410 under a 40-inch and a length 136 inch
00:02:19.150 00:02:19.160 let's say the customer has ten more
00:02:21.940 00:02:21.950 percent flow and they want to have the
00:02:24.860 00:02:24.870 same Prada our AP of 9.3 psi the
00:02:28.220 00:02:28.230 ultimate question becomes can they
00:02:30.980 00:02:30.990 plunge Honda 3305 per day with the same
00:02:36.320 00:02:36.330 products bag
00:02:55.110 00:02:55.120 after we run a model yes the plant can
00:02:58.199 00:02:58.209 handle 3300 bars per day with the same
00:03:01.949 00:03:01.959 product RV respect however the hot oil
00:03:05.160 00:03:05.170 flow needs to increase to 161 GPM by the
00:03:10.050 00:03:10.060 way it was about 141 GPM for 3000 barrel
00:03:13.619 00:03:13.629 per day the customer may say they don't
00:03:17.220 00:03:17.230 have the requested additional hot oil
00:03:19.140 00:03:19.150 flow then what a third model is said
00:03:26.130 00:03:26.140 having a way to answer this challenge
00:03:27.750 00:03:27.760 with fixed hot oil flow rate simply
00:03:31.229 00:03:31.239 input the 3300 power per day feed and
00:03:39.710 00:03:39.720 avoid the simulator to converge once it
00:03:49.140 00:03:49.150 is finished the new product already
00:03:51.270 00:03:51.280 becomes about eleven point three psi for
00:03:54.360 00:03:54.370 your reference the product already used
00:03:56.640 00:03:56.650 to do about nine point three PSI the
00:04:01.500 00:04:01.510 first mode is set up in a way that every
00:04:03.629 00:04:03.639 time you runs it requires a new
00:04:05.610 00:04:05.620 different side of his changer and it
00:04:07.949 00:04:07.959 will never lead you to a standard plant
00:04:10.379 00:04:10.389 on the contrary the second and the third
00:04:13.140 00:04:13.150 model solve with the fixed exchange or
00:04:16.440 00:04:16.450 on 'try offer you build the second a
00:04:18.810 00:04:18.820 third model now you can declare you have
00:04:21.300 00:04:21.310 a standard plant thanks for watching
00:04:24.330 00:04:24.340 this video it is brought to you by golf
00:04:26.460 00:04:26.470 with 10 more increasing topics can be
00:04:29.040 00:04:29.050 found at showcase golf can calm
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