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Maxi-Therm Vertical Flooded Steam Heat Exchanger

WEBVTT
Kind: captions
Language: en

00:00:00.030
welcome in this short presentation where
00:00:02.480 00:00:02.490 we will cover some principles of Mexican
00:00:04.460 00:00:04.470 technology and a different model design
00:00:06.499 00:00:06.509 we can offer up on your application we'd
00:00:09.410 00:00:09.420 like to start with this picture it's a
00:00:11.030 00:00:11.040 full skid package for building heat in
00:00:13.789 00:00:13.799 this case we're heating glycol and
00:00:16.420 00:00:16.430 everything is preassembled pre-wired in
00:00:19.640 00:00:19.650 pretest before shipping it's a redundant
00:00:21.950 00:00:21.960 system there's two heat exchangers side
00:00:23.960 00:00:23.970 by side vertical flooding heat exchanger
00:00:26.000 00:00:26.010 which I will cover the principle of it
00:00:28.370 00:00:28.380 in a few slide so control panel over
00:00:31.490 00:00:31.500 here variable speed drive electric wire
00:00:34.520 00:00:34.530 and we like to call this package the
00:00:36.740 00:00:36.750 ultimate 5 package because there's only
00:00:38.810 00:00:38.820 5 connection for the contractor so one
00:00:41.510 00:00:41.520 steam Inlet for boat one common side
00:00:43.520 00:00:43.530 outlet liquid liquid in and out and
00:00:45.860 00:00:45.870 power ready to start this is a domestic
00:00:49.069 00:00:49.079 our water system this is a 30 million
00:00:52.970 00:00:52.980 Btu process that we shipped in the
00:00:56.389 00:00:56.399 summer of 2018 30 million Btu
00:01:00.740 00:01:00.750 representing 900 horsepower so for those
00:01:03.860 00:01:03.870 of you that understand borders please
00:01:07.190 00:01:07.200 put a picture in your mind to know how
00:01:10.219 00:01:10.229 big is a border of 900 horsepower and
00:01:13.460 00:01:13.470 the next picture I'm gonna show you how
00:01:16.010 00:01:16.020 small it is there it is and this is 900
00:01:19.880 00:01:19.890 horsepower right there
00:01:21.289 00:01:21.299 he's hugging the heat exchanger this is
00:01:24.740 00:01:24.750 another system we do MCU model it again
00:01:28.340 00:01:28.350 it can be for a building heat or
00:01:30.020 00:01:30.030 consider as a semi instantaneous water
00:01:32.240 00:01:32.250 heater and let our picture we ship many
00:01:35.660 00:01:35.670 many years ago everything is accessible
00:01:38.749 00:01:38.759 removable repairable electric panel
00:01:41.510 00:01:41.520 everything is on it it's a twenty
00:01:43.999 00:01:44.009 million Btu process which means 600
00:01:46.580 00:01:46.590 horsepower again it's a redundant system
00:01:48.980 00:01:48.990 so your mechanical room
00:01:51.219 00:01:51.229 this mechanical room right there it's 13
00:01:54.679 00:01:54.689 feet long 6 feet wide that's all you
00:01:57.319 00:01:57.329 need for 20 million Btu process so the
00:02:01.760 00:02:01.770 principle of course is we modulate on
00:02:03.770 00:02:03.780 the condensate we don't modulate on the
00:02:05.959 00:02:05.969 steam side always full steam pressure
00:02:08.359 00:02:08.369 and we flood the heat exchanger so we
00:02:11.360 00:02:11.370 extract latent heat
00:02:13.210 00:02:13.220 out of each Palestine and also sensible
00:02:15.940 00:02:15.950 heat in this example for four million
00:02:18.520 00:02:18.530 Btu process and we wrote six psi because
00:02:22.330 00:02:22.340 even if we reduce the pressure typically
00:02:24.640 00:02:24.650 at 10 psi we will never have 10 psi and
00:02:28.180 00:02:28.190 the heat exchanger you should have a
00:02:30.460 00:02:30.470 pressure drop to your control valve when
00:02:33.340 00:02:33.350 you control on Steam so to compare with
00:02:35.650 00:02:35.660 other design let's compare 6 psi a
00:02:38.460 00:02:38.470 conventional system for million B to
00:02:41.380 00:02:41.390 process you recuperate only the latent
00:02:44.230 00:02:44.240 heat out of each found so full load you
00:02:46.690 00:02:46.700 will need 4,000 171 pounds per hour in
00:02:49.750 00:02:49.760 our case because we fled the heat
00:02:51.580 00:02:51.590 exchanger will make a 3% energy saving
00:02:55.120 00:02:55.130 we're coming at 230 Fahrenheit we're
00:02:57.670 00:02:57.680 coming out at 200 Fahrenheit because we
00:02:59.830 00:02:59.840 flood the heat exchanger we're
00:03:01.210 00:03:01.220 extracting 30 BTU more per pound of
00:03:04.630 00:03:04.640 steam so if we do the math to compare
00:03:07.480 00:03:07.490 conventional system at 6 psi versus a
00:03:10.000 00:03:10.010 maxi term at 100 psi still would
00:03:12.910 00:03:12.920 coincide outlet temperature at 200
00:03:14.980 00:03:14.990 Fahrenheit at full load we will need six
00:03:18.430 00:03:18.440 point twenty six percent less steam to
00:03:21.790 00:03:21.800 perform the same process some of you
00:03:25.990 00:03:26.000 might wondering what do you do with your
00:03:27.580 00:03:27.590 steam trap on drip legs so we provide a
00:03:31.750 00:03:31.760 condensate mixer to mix the cold caught
00:03:34.420 00:03:34.430 and say coming out here and mix with the
00:03:37.470 00:03:37.480 drip like steam trap drip legs on your
00:03:40.690 00:03:40.700 system remember that drip like there's
00:03:43.030 00:03:43.040 only water drops coming in so it's kind
00:03:45.370 00:03:45.380 of easy to handle it's a sparger that we
00:03:49.000 00:03:49.010 select based on the maximum loads and
00:03:51.520 00:03:51.530 pressure since we're always pushing at a
00:03:54.070 00:03:54.080 hundred psi as long as the cotton say
00:03:56.590 00:03:56.600 back pressure is lower than your steam
00:03:59.949 00:03:59.959 pressure we never need a comment say pop
00:04:03.300 00:04:03.310 20% of maxi term project is 15 psi and
00:04:07.570 00:04:07.580 lower especially on retrofit project so
00:04:10.680 00:04:10.690 after the control valve typically we
00:04:13.180 00:04:13.190 want to lift because we don't want any
00:04:15.009 00:04:15.019 piping on the floor so let's say we're
00:04:17.620 00:04:17.630 lifting 10 feet high every 27 hinge
00:04:20.349 00:04:20.359 gives you one PSI back pressure so let's
00:04:23.620 00:04:23.630 assume 5 psi back back pressure
00:04:26.980 00:04:26.990 for using 10 psi we don't need to call
00:04:29.740 00:04:29.750 and say pong
00:04:30.520 00:04:30.530 now when the control valves gonna
00:04:32.290 00:04:32.300 modulate is going to play with the heat
00:04:34.059 00:04:34.069 surface area of the heat exchanger we're
00:04:36.339 00:04:36.349 getting we're we're gonna give you the
00:04:38.409 00:04:38.419 exact surface area based on your loads
00:04:41.580 00:04:41.590 this is the typical conventional system
00:04:44.610 00:04:44.620 pressure reducing valve station steam
00:04:47.290 00:04:47.300 safety relief valves with vented a roof
00:04:49.330 00:04:49.340 big steam control valve heat exchanger
00:04:52.480 00:04:52.490 dedicate condensate palm you go back in
00:04:54.850 00:04:54.860 the main receiver tank pump station and
00:04:56.890 00:04:56.900 then go back in a dear reader to the
00:04:58.839 00:04:58.849 steam border and you'll need check valve
00:05:00.879 00:05:00.889 vacuum breaker separator wife's trainers
00:05:03.249 00:05:03.259 when we design toward maxi turn this is
00:05:06.520 00:05:06.530 how it can look like and we don't need
00:05:08.200 00:05:08.210 the main receiver tank anymore no more
00:05:10.180 00:05:10.190 pressure reducing valve no vent anywhere
00:05:12.610 00:05:12.620 the only moving part it's the little
00:05:15.879 00:05:15.889 control valve here I say little because
00:05:18.189 00:05:18.199 up to 10 million Btu process it's a half
00:05:22.450 00:05:22.460 inch control valve again it's the only
00:05:25.120 00:05:25.130 moving part if you have multiple units
00:05:28.379 00:05:28.389 that's the only moving part you need to
00:05:30.399 00:05:30.409 keep in stock there's other parts around
00:05:32.980 00:05:32.990 it but they always remain in the same
00:05:34.990 00:05:35.000 position during all operation of course
00:05:39.909 00:05:39.919 if we install this everywhere in the
00:05:41.469 00:05:41.479 building this will become a hundred
00:05:42.999 00:05:43.009 percent closed loop which means this
00:05:45.249 00:05:45.259 will not be a dear reader anymore it
00:05:46.810 00:05:46.820 will be just a feed water tank there
00:05:48.310 00:05:48.320 will be almost no more surface blow down
00:05:50.529 00:05:50.539 on the border because it's a hundred
00:05:51.820 00:05:51.830 percent closed-loop and no makeup water
00:05:53.649 00:05:53.659 whatsoever
00:05:54.959 00:05:54.969 basically there's less makeup water zero
00:05:57.520 00:05:57.530 flash loss anywhere and no more pressure
00:05:59.290 00:05:59.300 reducing valve no more steam safety
00:06:01.180 00:06:01.190 relieved out with the vent to the roof
00:06:02.830 00:06:02.840 because we stand the whole skid for high
00:06:04.659 00:06:04.669 pressure vessel based on the safety
00:06:06.939 00:06:06.949 valve setpoint on the steam boarder the
00:06:09.159 00:06:09.169 highest amplifier it's 600 psi no cotton
00:06:13.180 00:06:13.190 say receiver pump smaller pipe size
00:06:15.760 00:06:15.770 because we can use high-pressure steam
00:06:17.529 00:06:17.539 directly through the heat exchanger
00:06:18.899 00:06:18.909 smaller control like I explained earlier
00:06:21.459 00:06:21.469 no vacuum breaker actually there is one
00:06:23.920 00:06:23.930 that only open when you shut down the
00:06:26.020 00:06:26.030 system so there's no air injection in
00:06:28.180 00:06:28.190 the condensate return line six times
00:06:30.640 00:06:30.650 less corrosive for doing so so less six
00:06:33.189 00:06:33.199 down less high means energy saving up to
00:06:36.640 00:06:36.650 twenty percent I will show you in a
00:06:38.140 00:06:38.150 couple slides stability setpoint
00:06:40.170 00:06:40.180 temperature control lets me miss
00:06:42.000 00:06:42.010 maintenance costs obviously fifty to one
00:06:44.640 00:06:44.650 turned down with one small control valve
00:06:46.740 00:06:46.750 let's blow down on the border less
00:06:48.180 00:06:48.190 chemical for the border in return lines
00:06:50.480 00:06:50.490 this is a typical condensing border
00:06:53.250 00:06:53.260 which is our number one competition
00:06:55.190 00:06:55.200 because most of design are going toward
00:06:58.610 00:06:58.620 condensing border and just a reminder of
00:07:02.700 00:07:02.710 of the technology how it should operate
00:07:05.240 00:07:05.250 this is the flue gas exhaust here at the
00:07:08.850 00:07:08.860 chimney if I should say and you want to
00:07:10.920 00:07:10.930 condense the flue gas the dew point of
00:07:13.350 00:07:13.360 conduct condensation of the flue gas is
00:07:16.110 00:07:16.120 140 Fahrenheit so if you have a
00:07:18.780 00:07:18.790 retirement 160 it will never condense so
00:07:22.050 00:07:22.060 design will have a set point typically
00:07:24.270 00:07:24.280 around 120 Fahrenheit to make sure the
00:07:26.880 00:07:26.890 return will be around 90 or 100
00:07:28.830 00:07:28.840 Fahrenheit to make sure we will condense
00:07:30.630 00:07:30.640 the flue gas so let's apply this to a
00:07:33.180 00:07:33.190 maxi term let's give a set point here at
00:07:35.340 00:07:35.350 120 Fahrenheit with a return at 90
00:07:37.590 00:07:37.600 Fahrenheit
00:07:38.310 00:07:38.320 we can't oversize the heat exchanger to
00:07:40.770 00:07:40.780 call and say it will come out at full
00:07:42.630 00:07:42.640 load 130 Fahrenheit if you bring this
00:07:45.810 00:07:45.820 cold call and say it back in a
00:07:47.430 00:07:47.440 condensing stack economizer heavy-duty
00:07:50.210 00:07:50.220 industrial built this become a
00:07:53.570 00:07:53.580 condensing steam border now remember
00:07:57.270 00:07:57.280 those two numbers conventional system at
00:08:00.180 00:08:00.190 6 psi at 4 million Btu process at full
00:08:03.990 00:08:04.000 load you will need four thousand 171
00:08:06.630 00:08:06.640 pounds per hour with maxi turn 100 psi
00:08:09.510 00:08:09.520 with condensate leaving at 200
00:08:11.550 00:08:11.560 Fahrenheit still at full load we will
00:08:14.040 00:08:14.050 make six point twenty six percent energy
00:08:16.020 00:08:16.030 saving what will be the number if the
00:08:18.990 00:08:19.000 Colin say comes out at one thirty twelve
00:08:23.010 00:08:23.020 percent so twelve percent less steam at
00:08:26.490 00:08:26.500 the point of use and fifteen percent
00:08:28.770 00:08:28.780 more efficiency on the border that you
00:08:31.170 00:08:31.180 have a potential to reduce up to twenty
00:08:34.170 00:08:34.180 five percent plus energy savings so if
00:08:36.180 00:08:36.190 the number here is 150 this will be
00:08:38.760 00:08:38.770 greater okay let's apply this to
00:08:41.250 00:08:41.260 domestic on water with kanan's say
00:08:45.030 00:08:45.040 temperature leaving at seventy
00:08:46.440 00:08:46.450 Fahrenheit we're getting close of 20
00:08:49.080 00:08:49.090 percent especially if we're using 150
00:08:51.030 00:08:51.040 psi so there's multiple cities all
00:08:53.639 00:08:53.649 around the country like Philly Boston
00:08:55.559 00:08:55.569 Baltimore New York City they have a
00:08:58.590 00:08:58.600 district steam energy downtown
00:09:01.019 00:09:01.029 some of them will dump condensate here
00:09:03.540 00:09:03.550 after they don't want to call and say it
00:09:05.189 00:09:05.199 back
00:09:05.670 00:09:05.680 we don't need a quencher to cool down
00:09:07.889 00:09:07.899 the condensate and for those or return a
00:09:10.829 00:09:10.839 condensate
00:09:11.609 00:09:11.619 typically they don't charge for the
00:09:13.139 00:09:13.149 temperature they have no credit or
00:09:14.790 00:09:14.800 whatever from the temperature outlet so
00:09:17.280 00:09:17.290 we can't cool down as max as we can to
00:09:19.739 00:09:19.749 reduce the steam pressure at the inlet
00:09:21.419 00:09:21.429 and this is just a short list of cities
00:09:23.730 00:09:23.740 you can click pause if you want to go
00:09:25.650 00:09:25.660 through it that have central steam
00:09:27.720 00:09:27.730 downtown the city typical touch screen
00:09:31.439 00:09:31.449 of maximum unit there's a couple of
00:09:33.900 00:09:33.910 values that we show like the valve
00:09:36.419 00:09:36.429 opening rate here of our positioning
00:09:38.280 00:09:38.290 these are on our valve only they don't
00:09:40.109 00:09:40.119 modulate again I invite you to contact
00:09:43.350 00:09:43.360 us if you will need more information but
00:09:45.480 00:09:45.490 we also show the actual GPM and the
00:09:48.900 00:09:48.910 actual BTU per hour so you can pull out
00:09:52.079 00:09:52.089 trans with your BMS of the last 24 hours
00:09:54.509 00:09:54.519 six months 10 years we also provide the
00:09:58.199 00:09:58.209 e1 device so we have remote access from
00:10:01.739 00:10:01.749 Montreal though without going through
00:10:03.840 00:10:03.850 the firewall of the customer and give
00:10:07.319 00:10:07.329 remote support when a building owner
00:10:10.590 00:10:10.600 purchases a complete package you should
00:10:12.629 00:10:12.639 have access to 100 percent depreciation
00:10:14.400 00:10:14.410 on his capital investment basically
00:10:16.769 00:10:16.779 bigger is this kid more discipline
00:10:19.650 00:10:19.660 all the labor work on-site cannot be
00:10:22.410 00:10:22.420 applied so if there's only advantage to
00:10:24.509 00:10:24.519 go full-scale package MCU versus vff
00:10:27.900 00:10:27.910 vessel let's go jump in the different
00:10:30.389 00:10:30.399 model of maxi turn MCU stands for
00:10:33.269 00:10:33.279 modulating condensate unit it's the unit
00:10:35.639 00:10:35.649 I just explained you with the control
00:10:37.319 00:10:37.329 valve on the condensate
00:10:38.669 00:10:38.679 very very good for any closed loop
00:10:40.889 00:10:40.899 design for building reheat application
00:10:43.470 00:10:43.480 and domestic our water it will be
00:10:45.539 00:10:45.549 considered as a semi instantaneous water
00:10:48.960 00:10:48.970 heater v FF FF stands for vertical
00:10:52.199 00:10:52.209 flooding feed-forward it's a full
00:10:54.629 00:10:54.639 instant in which domestic hot water
00:10:56.519 00:10:56.529 heater from zero to the maximum range we
00:10:59.639 00:10:59.649 keep plus or minus 4 Fahrenheit
00:11:02.570 00:11:02.580 very good also for CIP in process we do
00:11:06.560 00:11:06.570 have a design now completely food-grade
00:11:08.960 00:11:08.970 design just want to let you know there's
00:11:11.840 00:11:11.850 two different option mechanical
00:11:14.000 00:11:14.010 self-contained mechanical blending valve
00:11:15.980 00:11:15.990 on the water side so no climatic no
00:11:18.080 00:11:18.090 electric very easy install works on a
00:11:21.170 00:11:21.180 differential pressure as soon as someone
00:11:23.030 00:11:23.040 will all open and shower a faucet or a
00:11:25.760 00:11:25.770 hose it will mix it will create a
00:11:27.590 00:11:27.600 pressure drop through the line and mix
00:11:29.630 00:11:29.640 the right amount of very hot water with
00:11:31.370 00:11:31.380 cold water and to whatever setpoint you
00:11:33.920 00:11:33.930 want and of course we have electronic
00:11:35.990 00:11:36.000 valve a BACnet Modbus whatever you need
00:11:39.560 00:11:39.570 on protocol communication so how it
00:11:42.140 00:11:42.150 works
00:11:42.740 00:11:42.750 cold water is coming on this side here
00:11:44.750 00:11:44.760 getting heat up here and we mix with
00:11:48.320 00:11:48.330 cold water at the blending valve right
00:11:50.600 00:11:50.610 here how do we flood the heat exchanger
00:11:53.360 00:11:53.370 another patent we put on is the steam
00:11:56.330 00:11:56.340 trap is a little bit higher of the
00:11:57.740 00:11:57.750 outlet keeping the flooding the level at
00:12:00.800 00:12:00.810 the same level at all time so we make
00:12:04.520 00:12:04.530 minimum 5% energy savings over the
00:12:06.860 00:12:06.870 others and we can use it says 50 I will
00:12:10.130 00:12:10.140 suggest 40 psi through the heat
00:12:12.290 00:12:12.300 exchanger so you will need just one
00:12:14.090 00:12:14.100 pressure regulator no wanter tutored
00:12:17.270 00:12:17.280 because we don't modulate on steam no
00:12:19.610 00:12:19.620 steam safety relay valve because we're
00:12:21.680 00:12:21.690 gonna stem the whole skid for high
00:12:23.510 00:12:23.520 pressure vessel and again if you if the
00:12:27.410 00:12:27.420 condensate back pressure sorry is
00:12:29.420 00:12:29.430 lowering your steam pressure we don't
00:12:31.700 00:12:31.710 need a con and say pump typical
00:12:34.040 00:12:34.050 application emergency showers booster
00:12:37.820 00:12:37.830 heaters for kitchens domestic or water
00:12:40.160 00:12:40.170 obviously on cleaning place for food
00:12:41.930 00:12:41.940 industry and we do have food grade level
00:12:44.210 00:12:44.220 and since we heat the water inside the
00:12:46.490 00:12:46.500 heat exchanger over 200 Fahrenheit no
00:12:48.980 00:12:48.990 bacteria can survive this type of
00:12:52.130 00:12:52.140 process we keep plus or minus 4
00:12:54.110 00:12:54.120 Fahrenheit we have a stainless steel
00:12:55.910 00:12:55.920 valve a couple of a food industry we
00:12:59.240 00:12:59.250 have in we can add to the list
00:13:00.980 00:13:00.990 pepsi-cola of course just recently now
00:13:04.480 00:13:04.490 there are stock montreal 30 60 90 120 us
00:13:08.450 00:13:08.460 GPM ready to go
00:13:09.680 00:13:09.690 the sidearm series some you'll have this
00:13:13.130 00:13:13.140 option offer to you on the
00:13:14.970 00:13:14.980 quest form for the MCU and also for the
00:13:17.610 00:13:17.620 ultimate package basically is let's say
00:13:21.060 00:13:21.070 we heat 160 180 degree Fahrenheit here
00:13:23.639 00:13:23.649 we can put directly on the skid a
00:13:26.129 00:13:26.139 secondary heat exchanger to perform
00:13:28.259 00:13:28.269 domestic on water or snowmelt whatever
00:13:30.990 00:13:31.000 lower temperature you want to control
00:13:33.120 00:13:33.130 the benefit of this is we have one steam
00:13:35.550 00:13:35.560 source for boat one condensate outlet
00:13:37.650 00:13:37.660 for both now be prepared for shock
00:13:40.530 00:13:40.540 because the next picture is gonna be one
00:13:42.269 00:13:42.279 of the smallest mechanical room you've
00:13:43.740 00:13:43.750 never seen to perform building heat
00:13:45.420 00:13:45.430 reheat and domestic hot water it's for
00:13:48.629 00:13:48.639 Grand Valley University in Michigan here
00:13:52.050 00:13:52.060 we go and I would just want to remind
00:13:54.300 00:13:54.310 you there is no vent no steam vents for
00:13:56.610 00:13:56.620 the safety valve no van for the flash
00:13:58.560 00:13:58.570 tank or nothing a very small footprint
00:14:02.300 00:14:02.310 zero lag duplex series every time we're
00:14:04.889 00:14:04.899 gonna request a duplex design we're
00:14:06.540 00:14:06.550 gonna offer you this design we just put
00:14:08.970 00:14:08.980 another patent again how it works
00:14:12.180 00:14:12.190 instead of operating in parallel
00:14:13.620 00:14:13.630 operates in series cold waters coming on
00:14:16.350 00:14:16.360 this side getting him the heat exchanger
00:14:18.750 00:14:18.760 coming out here this valve is shut off
00:14:22.110 00:14:22.120 so it's fully flooded of condensate then
00:14:24.990 00:14:25.000 we're going into second one and we
00:14:26.490 00:14:26.500 perform set point the beauty of this
00:14:29.129 00:14:29.139 design is this steam is on on both
00:14:32.490 00:14:32.500 systems team is right here waiting to
00:14:34.740 00:14:34.750 get in so if something goes wrong on be
00:14:37.110 00:14:37.120 high temperature alarm whatsoever
00:14:38.939 00:14:38.949 happened a is already up and running no
00:14:42.540 00:14:42.550 downtime whatsoever we can do maybe a
00:14:45.660 00:14:45.670 first set point here or a second set
00:14:47.730 00:14:47.740 point there keeping those two running
00:14:50.309 00:14:50.319 all the time but they're both selected
00:14:52.680 00:14:52.690 for 100% load and it's a backup of each
00:14:56.189 00:14:56.199 other so hakarat temperature control
00:14:58.949 00:14:58.959 zero downtime one alarm shutdown note or
00:15:01.170 00:15:01.180 most residue to lead lag second unit is
00:15:03.420 00:15:03.430 always on less potential leaks back net
00:15:06.059 00:15:06.069 Modbus very smooth operation no noise
00:15:09.050 00:15:09.060 clean steam generator for unification
00:15:11.610 00:15:11.620 and stores ation and also steam
00:15:16.019 00:15:16.029 injection for food process for example
00:15:18.590 00:15:18.600 basically you're coming in here with
00:15:21.059 00:15:21.069 steam pressure from the border room
00:15:22.880 00:15:22.890 we're going into tubes like this coming
00:15:25.350 00:15:25.360 out here clean steam clean
00:15:27.710 00:15:27.720 so bring us our water we're gonna make
00:15:29.960 00:15:29.970 uro steam outlet here and since the
00:15:32.809 00:15:32.819 bundle is a YouTube bundle here there's
00:15:34.759 00:15:34.769 a hot spot right there generating a
00:15:37.579 00:15:37.589 really dry steam quality steam in this
00:15:40.879 00:15:40.889 thing quality controller is more for
00:15:42.619 00:15:42.629 sterilization process to avoid any wet
00:15:44.600 00:15:44.610 pax on the process we deliver really
00:15:48.499 00:15:48.509 high quality steam the basic is very
00:15:51.860 00:15:51.870 simple you're coming with let typically
00:15:54.650 00:15:54.660 sterilizer request like 60 psi steam you
00:15:58.579 00:15:58.589 will need like maybe a hundred psi 125
00:16:01.639 00:16:01.649 what whatever higher steam pressure you
00:16:03.679 00:16:03.689 have available and on one side of the
00:16:06.170 00:16:06.180 heat exchanger we're coming with steam
00:16:07.850 00:16:07.860 for the civilization and 60 psi 60 psi
00:16:11.480 00:16:11.490 if you look at your steam table you
00:16:13.639 00:16:13.649 should have 308 degree Fahrenheit and
00:16:16.280 00:16:16.290 then on the other side we bring that's a
00:16:18.559 00:16:18.569 hundred psi and we're going to say to
00:16:20.329 00:16:20.339 the controller keep sixty but bring in
00:16:23.300 00:16:23.310 at 312 we're making superheated steam
00:16:27.230 00:16:27.240 we're making high-quality steam Forster
00:16:29.840 00:16:29.850 is Asian we have a world-class lab in
00:16:32.809 00:16:32.819 seminar room in Montreal you want to
00:16:34.309 00:16:34.319 know more about our technology or
00:16:35.780 00:16:35.790 different options we offer one and a
00:16:38.210 00:16:38.220 half days teen training we have a 30
00:16:40.189 00:16:40.199 horsepower steam boarder ahora psi
00:16:42.259 00:16:42.269 making work different system not only
00:16:43.910 00:16:43.920 ours on different conditions we have a
00:16:46.850 00:16:46.860 steam trap board with all the
00:16:48.319 00:16:48.329 manufacturer on this different design
00:16:50.179 00:16:50.189 you can see who works best or not and
00:16:52.549 00:16:52.559 we're not we're not the steam trap
00:16:54.319 00:16:54.329 manufacturer so we have nothing to prove
00:16:57.590 00:16:57.600 here we have a HVDC system in
00:16:59.960 00:16:59.970 beautification steam coils and
00:17:01.549 00:17:01.559 everything else some pictures and if you
00:17:04.880 00:17:04.890 are professional engineer we do offer 16
00:17:07.490 00:17:07.500 PDS with it for that training so you go
00:17:09.740 00:17:09.750 on maxy turn a dotnet backslash our
00:17:12.770 00:17:12.780 training or go on our website you'll
00:17:15.649 00:17:15.659 find the link to it you can register
00:17:17.899 00:17:17.909 online you'll see all the different
00:17:19.640 00:17:19.650 dates it's two three times a year and
00:17:22.730 00:17:22.740 yeah that's for the steam training I'm
00:17:24.860 00:17:24.870 Patrick Lach vice president sales and
00:17:27.740 00:17:27.750 business development
00:17:28.880 00:17:28.890 I invite you to connect with me on
00:17:30.289 00:17:30.299 LinkedIn you can also email me at
00:17:32.659 00:17:32.669 Patrick at Maxie dashed our net I will
00:17:35.450 00:17:35.460 be more than pleased to answer a
00:17:36.710 00:17:36.720 question come visit you and
00:17:38.900 00:17:38.910 full presentation are different
00:17:41.000 00:17:41.010 technologies steam is our passion hope
00:17:44.030 00:17:44.040 you felt it and if there is anything
00:17:46.280 00:17:46.290 please do not hesitate thank you

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