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Refineries & Smelting _ Oxygen Not Included New Player Guide

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Kind: captions
Language: en

00:00:04.009
welcome back Doc's not included with
00:00:06.289 00:00:06.299 mean Jimmy today I want to cover
00:00:08.270 00:00:08.280 refining so I have Huey Dewey and Louie
00:00:11.270 00:00:11.280 or Huey Louie and Joey here to help me
00:00:13.850 00:00:13.860 along and we're gonna come up really how
00:00:16.519 00:00:16.529 refinement works inside offs not
00:00:18.529 00:00:18.539 included so first off we're going to
00:00:20.269 00:00:20.279 start with our rock question our crushes
00:00:21.830 00:00:21.840 our very very first early refinement we
00:00:24.529 00:00:24.539 get it's it's fairly simple machine to
00:00:27.290 00:00:27.300 operate only requires 240 watts with a
00:00:29.509 00:00:29.519 power output 16,000 Juba good thermal
00:00:32.389 00:00:32.399 units were the heat and if I get one of
00:00:34.970 00:00:34.980 the guys over here to make some iron all
00:00:37.130 00:00:37.140 we can see this thing in action the
00:00:39.260 00:00:39.270 biggest thing with the I with the rock
00:00:41.420 00:00:41.430 crusher is because it's so simple it
00:00:43.940 00:00:43.950 actually carries significant losses with
00:00:45.830 00:00:45.840 it so as we can see I'm gonna put in 50
00:00:48.590 00:00:48.600 kilograms worth of iron iron or powder
00:00:50.930 00:00:50.940 kilograms worth of iron law I'm gonna
00:00:52.340 00:00:52.350 get back 50 kilograms worth of processed
00:00:55.010 00:00:55.020 iron and 50 kilograms worth the same
00:00:57.590 00:00:57.600 after the we fish finishes being the
00:00:59.689 00:00:59.699 cranberry system yeah this is something
00:01:03.170 00:01:03.180 this is a machine you're gonna carry on
00:01:04.789 00:01:04.799 to for the whole whole game but when it
00:01:07.190 00:01:07.200 comes to actual refining metals it's not
00:01:09.320 00:01:09.330 the best way to go so as you see this
00:01:11.359 00:01:11.369 will do aluminium it'll do copper it'll
00:01:13.700 00:01:13.710 do a lecture and pyrite which you'll
00:01:15.590 00:01:15.600 either get from space or in my case I'm
00:01:17.390 00:01:17.400 in creative mode I'm gold I am our one
00:01:21.649 00:01:21.659 with fermium and willful mine so it does
00:01:25.580 00:01:25.590 do everything but it's gonna carry a
00:01:27.230 00:01:27.240 loss every single time you use it yeah
00:01:29.600 00:01:29.610 you are gonna keep hold of this machine
00:01:31.370 00:01:31.380 for the rest of the game because you're
00:01:33.230 00:01:33.240 gonna end up using it for poke show molt
00:01:35.300 00:01:35.310 tool I'm egg shuttle I'm a fossil tool
00:01:38.240 00:01:38.250 I'm all those things that you gonna be
00:01:39.590 00:01:39.600 end up using for the whole game place
00:01:41.510 00:01:41.520 until you run out of them along with
00:01:43.280 00:01:43.290 salt - table salt so it is gonna carry
00:01:46.760 00:01:46.770 out having use no matter what on top of
00:01:48.980 00:01:48.990 that any materials that you don't want
00:01:51.440 00:01:51.450 so any of the rocks inning the stones
00:01:52.969 00:01:52.979 are particularly even insulation if you
00:01:56.209 00:01:56.219 go find insulation really were converted
00:01:58.219 00:01:58.229 to sand ceramic - saying you can't
00:02:00.800 00:02:00.810 actually make sand with this machine for
00:02:03.260 00:02:03.270 more filtration material um in saying
00:02:06.289 00:02:06.299 that you just
00:02:07.740 00:02:07.750 to space and granite from space that's
00:02:10.530 00:02:10.540 nothing that Louie so that's our
00:02:13.230 00:02:13.240 question now we do get a better
00:02:15.870 00:02:15.880 refinement as the game progresses where
00:02:18.210 00:02:18.220 you get the metal refinery so the metal
00:02:19.560 00:02:19.570 refinery consumes a lot more power as
00:02:22.020 00:02:22.030 you can see it's almost an extra
00:02:23.520 00:02:23.530 kilowatt with a power it produces the
00:02:25.800 00:02:25.810 exact same and heat output but it also
00:02:28.320 00:02:28.330 needs to take a liquid pipe in the
00:02:30.060 00:02:30.070 liquid pipe out and that's actually for
00:02:31.530 00:02:31.540 cooling so if I go back to here to iron
00:02:33.930 00:02:33.940 iron ore again we can see we're now
00:02:36.600 00:02:36.610 putting in a how to killers of client or
00:02:38.160 00:02:38.170 and we're gonna get back a hundred
00:02:39.630 00:02:39.640 kilograms worth of iron which is great
00:02:41.340 00:02:41.350 it's a 1:1 ratio the cat cheese into our
00:02:44.540 00:02:44.550 liquid coolant I am going to dump 67.1
00:02:48.990 00:02:49.000 kilojoules of heat into that liquid
00:02:51.449 00:02:51.459 coolant so in the case of me I'm the
00:02:53.970 00:02:53.980 system saying I'm using polluted water
00:02:55.470 00:02:55.480 and it's going to increase the
00:02:56.699 00:02:56.709 temperature polluted water by thirty two
00:02:58.199 00:02:58.209 point one degrees which is a not not
00:03:01.670 00:03:01.680 insignificant amount of heat I'm W into
00:03:04.050 00:03:04.060 that board so if we bring up our
00:03:05.760 00:03:05.770 plumbing overlay because they are
00:03:06.780 00:03:06.790 bringing in polluted water like 34
00:03:09.060 00:03:09.070 degrees it means I'm gonna end up taking
00:03:11.250 00:03:11.260 it out at what 66 degrees Celsius which
00:03:16.170 00:03:16.180 is speed Hughie up slightly and if we
00:03:20.190 00:03:20.200 look at our liquid output there we go 66
00:03:22.050 00:03:22.060 degrees so if I ran it back through the
00:03:25.290 00:03:25.300 system again I could add another 30 odd
00:03:27.720 00:03:27.730 degrees with the temperature to it and I
00:03:29.970 00:03:29.980 wouldn't risk it turning in steam inside
00:03:32.400 00:03:32.410 the machine or inside the pipes but
00:03:34.970 00:03:34.980 that's what I was using iron if I choose
00:03:37.710 00:03:37.720 to do iron steel on the other hand I'm
00:03:39.840 00:03:39.850 now gonna add hundred and seventeen
00:03:42.180 00:03:42.190 kilojoules worth of heat to that liquid
00:03:44.370 00:03:44.380 so my pollute of water I can only run
00:03:47.400 00:03:47.410 through the system once providing it's
00:03:49.949 00:03:49.959 fairly cool to start with because that
00:03:51.630 00:03:51.640 is a significant increase in heat if I
00:03:54.900 00:03:54.910 was taking normal water what I just need
00:03:58.410 00:03:58.420 normal water at 44 degrees Celsius 44
00:04:01.259 00:04:01.269 degrees Celsius
00:04:02.340 00:04:02.350 if I had another 56 - it better bring me
00:04:05.160 00:04:05.170 up 200 degrees
00:04:06.060 00:04:06.070 I'd really really risk turning that into
00:04:08.550 00:04:08.560 steam inside the pipes so your other
00:04:11.759 00:04:11.769 alternative is you can run different
00:04:12.960 00:04:12.970 types of cooling with the through so
00:04:14.880 00:04:14.890 over here I have why
00:04:16.349 00:04:16.359 has crude oil running into it again you
00:04:18.659 00:04:18.669 can see I'm gonna add 67.1 kilojoules
00:04:21.119 00:04:21.129 with the heat into that liquid but it's
00:04:23.700 00:04:23.710 actually gonna increase the heat of the
00:04:25.320 00:04:25.330 crude oil oil by 79 degrees so that's a
00:04:29.520 00:04:29.530 significant increase in temperature over
00:04:31.459 00:04:31.469 polluted water but on the flip side
00:04:36.050 00:04:36.060 crude oil does give me a couple of
00:04:38.100 00:04:38.110 inches so first off we're gonna look at
00:04:40.110 00:04:40.120 polluted water we're gonna go over the
00:04:41.550 00:04:41.560 Papi's tab we can see it has a specific
00:04:43.350 00:04:43.360 heat capacity of four point one seven
00:04:45.390 00:04:45.400 nine and it doesn't vaporize till it
00:04:48.990 00:04:49.000 gets to a hundred and twenty degrees so
00:04:50.939 00:04:50.949 at 120 degrees it's gonna go through
00:04:53.399 00:04:53.409 some sort of phase change we're gonna be
00:04:56.369 00:04:56.379 crude oil here we can see its specific
00:04:58.529 00:04:58.539 heat capacity is much lower it's only at
00:05:00.629 00:05:00.639 one point six so we it doesn't carry as
00:05:02.939 00:05:02.949 much heat and therefore that's why the
00:05:05.399 00:05:05.409 temperature of the crude oil increases
00:05:07.950 00:05:07.960 by so much when it's actually run
00:05:09.839 00:05:09.849 through the refinery but it doesn't have
00:05:11.879 00:05:11.889 a vette it has a vaporization point of
00:05:13.820 00:05:13.830 399 degrees so 400 degrees that's a
00:05:16.950 00:05:16.960 massive massive massive difference it
00:05:19.860 00:05:19.870 doesn't mean that I can still only run
00:05:21.240 00:05:21.250 it through the system probably about
00:05:23.430 00:05:23.440 three times so maybe I've got an extra
00:05:26.420 00:05:26.430 loop out of out of crude oil rather than
00:05:30.059 00:05:30.069 just running polluted water but on top
00:05:32.100 00:05:32.110 of that I actually have a couple of
00:05:33.659 00:05:33.669 options when I heat up
00:05:35.430 00:05:35.440 my crude oil first so over here you can
00:05:39.420 00:05:39.430 see I'm taking my crude oil at 32
00:05:40.890 00:05:40.900 degrees I'm outputting 112 degrees so
00:05:43.019 00:05:43.029 it's quite toasty now and then I'm
00:05:44.879 00:05:44.889 fitting into my my oil refinery so if we
00:05:47.939 00:05:47.949 go to requirement here we look at the
00:05:49.890 00:05:49.900 oil refinery or refineries going to
00:05:52.019 00:05:52.029 taking 10 kilograms of crude oil it's
00:05:54.269 00:05:54.279 gonna take in some power and is gonna
00:05:56.610 00:05:56.620 give us back five kilograms of petroleum
00:05:59.219 00:05:59.229 now that five kilograms will be at 75
00:06:01.559 00:06:01.569 degrees or hotter if the materials are
00:06:03.329 00:06:03.339 hotter obviously my materials are hotter
00:06:05.670 00:06:05.680 I'm bringing in crude oil 112 degrees
00:06:08.010 00:06:08.020 it's gonna come out it roughly hundred
00:06:09.779 00:06:09.789 twelve degrees it will have some some
00:06:12.899 00:06:12.909 small amount up at the end depending on
00:06:15.030 00:06:15.040 a whole bunch of factors on top of that
00:06:20.030 00:06:20.040 we're also going to dub some natural gas
00:06:22.650 00:06:22.660 into the surrounding atmosphere
00:06:24.170 00:06:24.180 obviously that mess with natural gas if
00:06:26.250 00:06:26.260 Mike is gonna be like hydrogen 212
00:06:28.350 00:06:28.360 degrees Celsius so it's gonna be quite
00:06:29.730 00:06:29.740 warm and again as with every machine
00:06:32.340 00:06:32.350 it's gonna dump some sort of heat net
00:06:33.930 00:06:33.940 surrounding area me up after I've gone
00:06:36.930 00:06:36.940 from crude oil down a petroleum you
00:06:39.240 00:06:39.250 might say jelly hangar all you've done
00:06:41.640 00:06:41.650 is you've converted it from hot what
00:06:44.160 00:06:44.170 hope they go into another hot water I
00:06:45.600 00:06:45.610 have but I haven't because the other
00:06:47.400 00:06:47.410 thing I've actually done is I've taken
00:06:49.050 00:06:49.060 in 10 kilograms of crude oil and I've
00:06:51.120 00:06:51.130 only got back 5 kilograms of petroleum
00:06:53.430 00:06:53.440 so I've actually halved the amount of
00:06:56.100 00:06:56.110 material which indirectly is gonna have
00:06:58.410 00:06:58.420 the thermal mass okay I need to
00:07:06.720 00:07:06.730 deconstruct that client so bit of
00:07:09.860 00:07:09.870 petroleum to click on that's what we
00:07:12.180 00:07:12.190 want so our crude oil has a specific
00:07:16.380 00:07:16.390 heat capacity of one point one point six
00:07:18.900 00:07:18.910 nine now petroleum has a specific heat
00:07:22.500 00:07:22.510 capacity of one point seven six so this
00:07:24.660 00:07:24.670 is why the temperature went down
00:07:26.280 00:07:26.290 slightly because this actually has
00:07:28.920 00:07:28.930 technically a slightly higher specific
00:07:31.950 00:07:31.960 heat capacity but on top of that as it I
00:07:34.230 00:07:34.240 have the amount of liquid so I've
00:07:36.870 00:07:36.880 actually halfs the amount of heat I have
00:07:38.910 00:07:38.920 to deal with we're just gonna get rid of
00:07:41.340 00:07:41.350 that really quickly and then the next
00:07:43.500 00:07:43.510 thing I'm actually gonna do is I'm going
00:07:44.940 00:07:44.950 to take that petroleum around or polymer
00:07:49.380 00:07:49.390 press sir my patrols coming in at a nice
00:07:52.560 00:07:52.570 bar me how to make degrees Celsius so
00:07:54.450 00:07:54.460 it's quite warm to start with and then
00:07:56.700 00:07:56.710 in my polymer press I'm going to convert
00:08:00.020 00:08:00.030 833 grams of petroleum into 500 grams
00:08:04.320 00:08:04.330 worth of plastic as you can see it's
00:08:06.060 00:08:06.070 gonna be 75 degrees all hotter if the
00:08:08.430 00:08:08.440 input materials are hotter my input
00:08:09.960 00:08:09.970 materials are hotter so my plastic is
00:08:11.400 00:08:11.410 gonna be a little bit toasty to start
00:08:13.320 00:08:13.330 with but on top of that I'm gonna dump a
00:08:16.020 00:08:16.030 little bit of steam which gave me 200
00:08:18.150 00:08:18.160 degrees Celsius no matter what
00:08:19.620 00:08:19.630 gonna chew a lot of that heap away a
00:08:21.750 00:08:21.760 little bit of carbon offset it's gonna
00:08:23.610 00:08:23.620 be hundred fifty degrees or hotter no
00:08:25.200 00:08:25.210 matter what
00:08:26.040 00:08:26.050 Calvados Apache comes out this gas vent
00:08:29.160 00:08:29.170 the steam just gets dumped in the
00:08:31.080 00:08:31.090 surrounding area along with that no
00:08:42.270 00:08:42.280 matter what it's gonna start it the
00:08:44.910 00:08:44.920 polar press actually puts that insane
00:08:46.740 00:08:46.750 amount here
00:08:47.910 00:08:47.920 this one of those things that I'm
00:08:49.410 00:08:49.420 probably gonna overheat troops such as
00:08:51.150 00:08:51.160 for their proper I wasn't paying
00:08:52.440 00:08:52.450 attention
00:08:53.400 00:08:53.410 but if I can get it another chunk of
00:08:55.230 00:08:55.240 plastic out we should be able to finish
00:08:58.950 00:08:58.960 sharing how this little loop works come
00:09:02.100 00:09:02.110 on huh there we go
00:09:03.740 00:09:03.750 so everything is on fire okay so my
00:09:08.130 00:09:08.140 plastic has come out at 73 degrees
00:09:10.740 00:09:10.750 Celsius so it's coming out much cooler
00:09:13.650 00:09:13.660 than the petroleum that winning again it
00:09:16.170 00:09:16.180 has an even higher specific heat
00:09:18.360 00:09:18.370 capacity of 1.9 compared to our our
00:09:21.180 00:09:21.190 petroleum on top of that I've again
00:09:24.630 00:09:24.640 destroyed a little bit of material as
00:09:26.790 00:09:26.800 this process has gone along so I've
00:09:29.250 00:09:29.260 taken in ten kilos of crude oil up here
00:09:32.940 00:09:32.950 to convert it to cool my refinery whilst
00:09:36.870 00:09:36.880 I also run whilst also get some iron out
00:09:40.380 00:09:40.390 of the process I've then run into the
00:09:42.030 00:09:42.040 oil refinery to then have the thermal
00:09:44.130 00:09:44.140 mass by removing half or with deleting
00:09:46.470 00:09:46.480 half the materials converting my oil
00:09:48.420 00:09:48.430 into petroleum I've been takin that
00:09:50.160 00:09:50.170 petroleum and again consumed a lot of
00:09:53.190 00:09:53.200 that or converted a lot of that
00:09:55.140 00:09:55.150 petroleum as we can see they were taking
00:09:57.120 00:09:57.130 833 grams per second of petroleum to
00:09:59.700 00:09:59.710 give us 500 grams per second off plastic
00:10:01.860 00:10:01.870 8 grams of steam take grams of carbon
00:10:04.380 00:10:04.390 dioxide again the machine's gonna create
00:10:06.270 00:10:06.280 Heat no matter what but I have each step
00:10:08.820 00:10:08.830 of the way
00:10:09.620 00:10:09.630 deleted some heat through the process
00:10:14.300 00:10:14.310 so yeah this is something that I just
00:10:16.460 00:10:16.470 want to out lights you guys show you
00:10:18.410 00:10:18.420 that even though your rock crusher seems
00:10:22.220 00:10:22.230 like a better option so you don't have
00:10:23.660 00:10:23.670 to deal with this hit hot liquids you
00:10:25.489 00:10:25.499 can always remove that along the way
00:10:27.949 00:10:27.959 another one I see commonly is taking in
00:10:30.710 00:10:30.720 clean water run it through the middle
00:10:32.569 00:10:32.579 refinery and then dumping it straight
00:10:34.460 00:10:34.470 into your lecture lasers because no
00:10:36.530 00:10:36.540 matter what they're going to output the
00:10:37.670 00:10:37.680 the oxygen at 70 degrees Celsius if I
00:10:42.199 00:10:42.209 look at my plate of water in here it's
00:10:43.910 00:10:43.920 not quite so many degrees Celsius but
00:10:45.829 00:10:45.839 it's close
00:10:46.970 00:10:46.980 lastly I have our which juhi is quite
00:10:51.290 00:10:51.300 obediently running it over everything
00:10:53.210 00:10:53.220 don't go to sleep don't let up so last
00:10:58.460 00:10:58.470 one I actually have is hourglass force
00:11:00.110 00:11:00.120 so hourglass Forge is really the end of
00:11:02.480 00:11:02.490 our if I'm and hearing area there are a
00:11:04.549 00:11:04.559 couple of other ones but we're going to
00:11:05.869 00:11:05.879 cover them in separate videos so the
00:11:07.519 00:11:07.529 glass Forge is basically used for making
00:11:10.549 00:11:10.559 glass we would afford it it again it
00:11:13.369 00:11:13.379 consumes a lot of power with a lot of
00:11:15.769 00:11:15.779 heat output but the biggest thing with a
00:11:17.090 00:11:17.100 glass Forge is it actually outputs a
00:11:19.639 00:11:19.649 molten glass so if we're eager to you
00:11:22.790 00:11:22.800 know tell me no you want to thank you
00:11:28.280 00:11:28.290 sorry enough time is corrected
00:11:32.750 00:11:32.760 so we taking
00:11:38.660 00:11:38.670 No
00:11:40.009 00:11:40.019 so he taking a hundred kilograms of sand
00:11:42.690 00:11:42.700 oh we just had a process and we produce
00:11:46.079 00:11:46.089 molten glass 100 kilograms of sand in to
00:11:49.319 00:11:49.329 produce 15 kilograms worth of malt glass
00:11:52.290 00:11:52.300 at one thousand seven hundred and thirty
00:11:54.870 00:11:54.880 degrees Celsius war just slightly warm
00:11:58.259 00:11:58.269 out again really really good way to
00:12:00.509 00:12:00.519 delete heat is taking your sand pre
00:12:03.480 00:12:03.490 heated a awful lot if you're gonna put
00:12:07.230 00:12:07.240 your dupes in the atmosphere set cetera
00:12:08.730 00:12:08.740 you can take that sand and heat it up to
00:12:10.199 00:12:10.209 a few hundred degrees saying actually
00:12:13.530 00:12:13.540 doesn't really transfer material sand
00:12:18.300 00:12:18.310 doesn't melt until you get to that sort
00:12:22.590 00:12:22.600 of point where it's gonna head towards
00:12:23.850 00:12:23.860 glass anyway and if you're heating it up
00:12:25.470 00:12:25.480 to 1700 degrees you could just convert a
00:12:28.560 00:12:28.570 hundred kilograms the sand directly to
00:12:30.329 00:12:30.339 100 kilograms of gas or you can run it
00:12:32.940 00:12:32.950 through a glass forge and as always
00:12:36.150 00:12:36.160 delete that material so we're taking in
00:12:38.280 00:12:38.290 a hundred kilograms of sand converting
00:12:41.069 00:12:41.079 it to 25 kilograms with the bulk glass
00:12:42.810 00:12:42.820 which actually gets pumped through this
00:12:44.850 00:12:44.860 liquid output as you can see I got 10
00:12:46.470 00:12:46.480 kilograms of glass here none in the next
00:12:49.560 00:12:49.570 pipe but it is extremely hot now with a
00:12:52.800 00:12:52.810 glass Forge because that liquid is so
00:12:55.259 00:12:55.269 hot if you put it in any sort of pipe
00:12:57.360 00:12:57.370 it's probably gonna break your pipe um
00:12:59.639 00:12:59.649 in my case I'll actually use insulated
00:13:03.030 00:13:03.040 pipe with ceramic so we're sorry ceramic
00:13:05.460 00:13:05.470 has an overheat temperature of plus 200
00:13:07.170 00:13:07.180 degrees is a very very very good
00:13:09.630 00:13:09.640 insulator it's melting point is 1800
00:13:15.509 00:13:15.519 degrees so it can actually withstand a
00:13:17.610 00:13:17.620 higher temperature than what the glass
00:13:20.639 00:13:20.649 is to start with has a very very low
00:13:23.490 00:13:23.500 thermal conductivity so it's still quite
00:13:25.769 00:13:25.779 Barling 26 degrees Celsius even though
00:13:28.650 00:13:28.660 the glasses in there at 1700 degrees and
00:13:32.340 00:13:32.350 as you can see hopefully yeah that was
00:13:35.250 00:13:35.260 just one little drop of Mont glass we
00:13:38.189 00:13:38.199 just dumped out that pipe and as you can
00:13:40.800 00:13:40.810 see I have a mesh tile here and I'm
00:13:42.150 00:13:42.160 literally just dropping
00:13:43.449 00:13:43.459 liquid straight into the floor in a pool
00:13:45.819 00:13:45.829 of water because glass has a really
00:13:48.939 00:13:48.949 really really low specific heat capacity
00:13:52.780 00:13:52.790 on top of that it's only 20 to 5 kilos
00:13:55.179 00:13:55.189 of time so it's a really small amount of
00:13:56.679 00:13:56.689 liquid that we're actually bringing out
00:13:58.299 00:13:58.309 of it out of that glass Forge and I'm
00:14:00.609 00:14:00.619 talking to a very very large thermal
00:14:03.579 00:14:03.589 tank of water now this could be absent
00:14:06.819 00:14:06.829 anywhere in my case
00:14:09.540 00:14:09.550 stop outputting stay in place you're
00:14:12.429 00:14:12.439 being annoying um in my case I've just
00:14:15.429 00:14:15.439 got six double tiles of water there
00:14:16.840 00:14:16.850 that's really enough to do quite a
00:14:19.119 00:14:19.129 significant amount mass as you see a
00:14:21.280 00:14:21.290 very good one put 60k tonnes down here
00:14:24.819 00:14:24.829 and I've only raised the temperature of
00:14:26.889 00:14:26.899 the water blob out what are your degrees
00:14:28.629 00:14:28.639 so you know probably 10 tons worth of
00:14:31.780 00:14:31.790 glass before you've got to worry about
00:14:33.819 00:14:33.829 this water overeating once it overheats
00:14:35.739 00:14:35.749 obviously it'll do is empty out a couple
00:14:38.410 00:14:38.420 of ways to do that drop a pump in it
00:14:39.790 00:14:39.800 which have the giblets deconstruct the
00:14:42.519 00:14:42.529 bottom and then we replace it and then
00:14:44.259 00:14:44.269 gets I get some mean water in here and
00:14:46.359 00:14:46.369 off you go again or you can have your
00:14:48.100 00:14:48.110 polo impress just dump steam in the air
00:14:50.739 00:14:50.749 which is then gonna come in here and
00:14:52.210 00:14:52.220 technically cool the area I think yeah
00:14:55.210 00:14:55.220 that's technically cool anyway that's
00:14:57.519 00:14:57.529 gonna be it for this video as always if
00:14:59.319 00:14:59.329 you liked the video and so it was
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00:15:11.590 00:15:11.600 guys in the next video

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