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HOW TO COOL WATER GUIDE- Oxygen Not Included - Tutorial

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00:00:00.000
hey gamers it's good to be here from
00:00:01.459 00:00:01.469 grinding this game and this is a guide
00:00:04.039 00:00:04.049 about cooling water easy ways hard ways
00:00:08.030 00:00:08.040 I would say generally it's not that easy
00:00:11.240 00:00:11.250 to cool water especially if you want to
00:00:12.950 00:00:12.960 get it down to like 25 degrees or so for
00:00:16.330 00:00:16.340 bristle blossoms or five degrees for
00:00:19.730 00:00:19.740 sleet wheat which is even more finicky
00:00:21.670 00:00:21.680 so I'm going to start off with some
00:00:23.540 00:00:23.550 really basic ways to cool water and then
00:00:25.759 00:00:25.769 try to get into some more intricate ways
00:00:29.169 00:00:29.179 that have a few more requirements so if
00:00:33.470 00:00:33.480 you're lucky you'll find a steam geyser
00:00:35.600 00:00:35.610 in your map you start off with quite a
00:00:37.610 00:00:37.620 bit of starting water but eventually
00:00:39.709 00:00:39.719 you'll run out of that and you could tap
00:00:42.530 00:00:42.540 into polluted water and start filtering
00:00:44.150 00:00:44.160 it with the sieve which is under
00:00:45.799 00:00:45.809 refinement water save that requires sand
00:00:50.209 00:00:50.219 and some power and it'll output water at
00:00:53.060 00:00:53.070 40 degrees Celsius so even if you're
00:00:54.889 00:00:54.899 polluted water is let's say 30 degrees
00:00:57.049 00:00:57.059 on the map and you find pockets of it
00:00:59.750 00:00:59.760 the waters have outputs at 40 degrees
00:01:02.029 00:01:02.039 and that 40 degrees water you'll have to
00:01:05.060 00:01:05.070 cool down if you want to use it but
00:01:07.370 00:01:07.380 let's say you're one you want to get
00:01:08.960 00:01:08.970 most of your water from the steam geyser
00:01:11.380 00:01:11.390 I would recommend that you kind of cap
00:01:16.429 00:01:16.439 off your geyser now some people use
00:01:20.330 00:01:20.340 granite and if that your geyser is far
00:01:22.580 00:01:22.590 away from your base granite might be
00:01:25.219 00:01:25.229 okay but what's going to happen is over
00:01:27.320 00:01:27.330 time the hot guys are water and steam is
00:01:30.740 00:01:30.750 going to heat up the area around it and
00:01:34.300 00:01:34.310 eventually it might get your base it
00:01:36.560 00:01:36.570 might kind of interfere with your plans
00:01:37.730 00:01:37.740 if you ever want to put a dip in there
00:01:39.469 00:01:39.479 it might be too hot unless they have
00:01:41.390 00:01:41.400 exosuit Sun so a more typical thing I've
00:01:45.950 00:01:45.960 been debug mode so I'm kind of cheating
00:01:47.330 00:01:47.340 here but a more typical thing is to use
00:01:50.539 00:01:50.549 of this light and you don't need
00:01:52.580 00:01:52.590 insulated towels you can use regular
00:01:53.929 00:01:53.939 towels as long as they're made up of
00:01:55.370 00:01:55.380 this light which is a great insulator
00:01:57.380 00:01:57.390 and all the geysers have a bottom like
00:02:00.020 00:02:00.030 this mater to plutonium which is also a
00:02:02.569 00:02:02.579 perfect insulator if you look at the
00:02:04.160 00:02:04.170 details click on a tile click on details
00:02:06.859 00:02:06.869 you'll see thermal conductivity zero and
00:02:09.589 00:02:09.599 abyss light is almost zero it's 1 times
00:02:12.710 00:02:12.720 10 that
00:02:13.200 00:02:13.210 five so it's basically a perfect
00:02:16.320 00:02:16.330 insulator so what what is typical is to
00:02:20.550 00:02:20.560 go like this something like this we'll
00:02:23.580 00:02:23.590 give it a bit more space draw a box
00:02:28.950 00:02:28.960 around it like this and leave enough
00:02:31.890 00:02:31.900 room for a liquid pump now if your dupes
00:02:37.680 00:02:37.690 are doing this you'll probably want to
00:02:38.880 00:02:38.890 leave some space let them get in build
00:02:40.470 00:02:40.480 everything maybe use a door you don't
00:02:45.480 00:02:45.490 need a door just leave it open they they
00:02:47.490 00:02:47.500 might get a little bit burnt while
00:02:48.450 00:02:48.460 they're doing this and then set up an
00:02:51.990 00:02:52.000 abyss alight pipe to get out and also
00:02:57.800 00:02:57.810 some power to get out I'm using gold and
00:03:03.500 00:03:03.510 then you can cap it off then you can
00:03:05.730 00:03:05.740 seal it up that'll keep all this heat in
00:03:08.610 00:03:08.620 here and I prevent it from kind of
00:03:10.350 00:03:10.360 heating up the surrounding area you may
00:03:12.870 00:03:12.880 also want to put in some automation if
00:03:14.340 00:03:14.350 you're if you have it available I'll
00:03:16.380 00:03:16.390 often put it in a hydro sensor right in
00:03:19.170 00:03:19.180 the bottom here and I'll say something
00:03:21.690 00:03:21.700 like activate if the pressure is above
00:03:24.770 00:03:24.780 let's say 100 kilograms that way the
00:03:28.560 00:03:28.570 pump isn't like pumping all the water
00:03:31.110 00:03:31.120 out until it gets almost dry it'll leave
00:03:33.810 00:03:33.820 a bit of liquid in there you can also
00:03:35.520 00:03:35.530 put this up one tile if you want to a
00:03:37.710 00:03:37.720 lot of a little bit of water to
00:03:39.060 00:03:39.070 accumulate so then you'll have hot water
00:03:42.990 00:03:43.000 coming out of here out of your pump or
00:03:45.960 00:03:45.970 yeah out of your pump and it will be at
00:03:49.080 00:03:49.090 eventually 95 degrees once this heats up
00:03:51.690 00:03:51.700 and stabilizes it comes out at 95
00:03:53.580 00:03:53.590 degrees so then you have a quite a few
00:03:56.610 00:03:56.620 options if you're using the water for
00:03:58.980 00:03:58.990 lavatories you can send in 95 degree
00:04:02.490 00:04:02.500 water and down here I've got a little
00:04:03.900 00:04:03.910 bit of a setup so I've got some 96 97
00:04:07.500 00:04:07.510 degree water here which is kind of
00:04:09.080 00:04:09.090 simulating what comes out of the geyser
00:04:11.180 00:04:11.190 we've got a gold pump in here and I'm
00:04:14.820 00:04:14.830 sending water to a bunch of places and
00:04:16.170 00:04:16.180 I'll explain all these things as we go
00:04:17.430 00:04:17.440 but I'm sending some of it up to these
00:04:20.340 00:04:20.350 up to this lavatory and shower now your
00:04:24.390 00:04:24.400 dupes actually don't mind using the
00:04:25.740 00:04:25.750 shower
00:04:26.640 00:04:26.650 with 95 degree water they're okay with
00:04:29.610 00:04:29.620 it
00:04:30.930 00:04:30.940 same with the lavatory works just fine
00:04:32.760 00:04:32.770 but the water sitting in there will it
00:04:35.340 00:04:35.350 will kind of heat up this heat up the
00:04:37.980 00:04:37.990 lavatory and heat up the showers so you
00:04:39.270 00:04:39.280 may want to use some wheeze warts which
00:04:41.520 00:04:41.530 are these little creatures I have one
00:04:44.250 00:04:44.260 planted here somewhere yeah
00:04:47.940 00:04:47.950 these are wheeze warts and they can cool
00:04:51.240 00:04:51.250 little cool the air around them they're
00:04:53.129 00:04:53.139 pretty effective they do essentially the
00:04:56.700 00:04:56.710 equivalent of 12 kilowatts of cooling so
00:04:59.580 00:04:59.590 they'll suck it in some gas I think five
00:05:01.770 00:05:01.780 kilograms of gas and spit it out at a
00:05:03.480 00:05:03.490 lower temperature they're pretty good if
00:05:07.170 00:05:07.180 you use enough of them they're pretty
00:05:08.520 00:05:08.530 good and they work best when they're in
00:05:10.560 00:05:10.570 hydrogen because hydrogen if you click
00:05:12.330 00:05:12.340 on it and look at the details has a high
00:05:15.300 00:05:15.310 high specific heat capacity which
00:05:19.290 00:05:19.300 essentially means you can dump a bunch
00:05:20.730 00:05:20.740 of heat into it or coolness into it so
00:05:24.300 00:05:24.310 it takes a look takes longer for Wiis
00:05:26.010 00:05:26.020 words to cool hydrogen but it will
00:05:28.409 00:05:28.419 retain the coolness for longer so the
00:05:30.960 00:05:30.970 pipe I'm using to go into my laboratory
00:05:33.420 00:05:33.430 or my shower is a Bissel light so that
00:05:35.550 00:05:35.560 none of the heat escapes out of the pipe
00:05:37.740 00:05:37.750 and the water that comes out is also
00:05:40.140 00:05:40.150 going to be at 95 degrees so you want to
00:05:41.820 00:05:41.830 use a bit slight so then you're gonna
00:05:43.320 00:05:43.330 have hot polluted water coming out at 95
00:05:45.540 00:05:45.550 degrees which you can either dump in a
00:05:48.540 00:05:48.550 kind of a bustah light tank to make sure
00:05:51.840 00:05:51.850 all the heat doesn't escape but a really
00:05:54.900 00:05:54.910 good way to get rid of hot polluted
00:05:56.940 00:05:56.950 water is the fertilizer maker which is
00:06:00.330 00:06:00.340 under refinement sorry fertilizer this
00:06:03.360 00:06:03.370 is the synthesizer and it takes in
00:06:07.050 00:06:07.060 polluted water and it doesn't really
00:06:08.490 00:06:08.500 care that it's 75 degrees it will
00:06:10.890 00:06:10.900 destroy that polluted water and output
00:06:12.600 00:06:12.610 fertilizer as well as natural gas so you
00:06:14.670 00:06:14.680 want to build these in a sealed room and
00:06:16.290 00:06:16.300 they're a good source of natural gas if
00:06:18.600 00:06:18.610 you haven't found the natural gas geyser
00:06:20.070 00:06:20.080 yet and natural gas is great for
00:06:22.800 00:06:22.810 generating power I've got a kind of a
00:06:24.600 00:06:24.610 mock setup here where I'm getting all my
00:06:26.820 00:06:26.830 power from
00:06:28.909 00:06:28.919 it's pumping natural gas into these
00:06:30.890 00:06:30.900 natural gas generators and I do have
00:06:34.429 00:06:34.439 another video on that's a power guide
00:06:36.290 00:06:36.300 that goes over all this kind of stuff so
00:06:37.640 00:06:37.650 I won't go into it much here so the
00:06:39.800 00:06:39.810 point was you can use hot 95 degree
00:06:43.640 00:06:43.650 water for quite a few things like
00:06:44.839 00:06:44.849 showers I don't really recommend
00:06:46.700 00:06:46.710 actually using showers because the dupes
00:06:48.920 00:06:48.930 actually don't need them that might
00:06:50.959 00:06:50.969 change in the future but the little
00:06:52.969 00:06:52.979 grimy debuff that they get doesn't
00:06:54.770 00:06:54.780 actually have a negative effect about
00:06:57.409 00:06:57.419 the toilets they definitely need
00:06:58.520 00:06:58.530 laboratories or a bit cleaner version of
00:07:00.619 00:07:00.629 the outhouse and you're fine using 95
00:07:04.550 00:07:04.560 degree water as long as you use a
00:07:05.749 00:07:05.759 Bissell like pipes in and out that's
00:07:07.670 00:07:07.680 good but let's say you want to grow some
00:07:10.189 00:07:10.199 of these bad boys
00:07:11.209 00:07:11.219 the Bristol blossoms if you look they
00:07:14.570 00:07:14.580 need a body temperature of between five
00:07:16.309 00:07:16.319 and thirty degrees and if you're using
00:07:19.519 00:07:19.529 hydroponic tiles like this which has a
00:07:21.980 00:07:21.990 water input if you send in 95 degree
00:07:25.700 00:07:25.710 water there's water that sits in these
00:07:28.129 00:07:28.139 hydroponic tiles let's see here
00:07:31.580 00:07:31.590 so hydroponic farm you can see there's
00:07:34.189 00:07:34.199 about five kilograms of water sitting in
00:07:35.930 00:07:35.940 there and I'm sending in cool water but
00:07:38.209 00:07:38.219 if you were sending in 95 degree water
00:07:39.969 00:07:39.979 this area would heat up the tile would
00:07:42.559 00:07:42.569 heat up and then the air would heat up
00:07:44.119 00:07:44.129 and your Bristol blossoms would stop
00:07:46.399 00:07:46.409 growing because it would get too hot in
00:07:47.629 00:07:47.639 here so these require cooler water and
00:07:51.170 00:07:51.180 at the moment I'm sending in twenty six
00:07:54.170 00:07:54.180 point seven degree water Celsius which
00:07:57.200 00:07:57.210 is kind of just under the max
00:07:58.670 00:07:58.680 temperature of these what these guys
00:08:01.189 00:08:01.199 like so the question becomes how do you
00:08:03.019 00:08:03.029 get water down to 25 degrees or 20
00:08:05.809 00:08:05.819 degrees to use with these guys and
00:08:09.920 00:08:09.930 that's what I'm going to talk about got
00:08:12.170 00:08:12.180 a bit distracted there so one way to do
00:08:15.079 00:08:15.089 it is to pump the water coming out of
00:08:20.659 00:08:20.669 the geyser room through a nice biome
00:08:24.339 00:08:24.349 using wolframite pipes so if we go here
00:08:28.869 00:08:28.879 wolframite is kind of special actually
00:08:32.089 00:08:32.099 we have some of it on the map here it's
00:08:33.560 00:08:33.570 found in the ice biome and it has a
00:08:36.709 00:08:36.719 thermal conductivity of 15 which is
00:08:39.740 00:08:39.750 quite high which basically means
00:08:42.100 00:08:42.110 if you have wolframite pipes the hot
00:08:44.500 00:08:44.510 water the heat from the hot water will
00:08:46.390 00:08:46.400 escape into the surrounding environment
00:08:47.920 00:08:47.930 really well as long as I mean assuming
00:08:50.530 00:08:50.540 the environment is cold you would take
00:08:52.240 00:08:52.250 your pipe and lead it through the cold
00:08:57.130 00:08:57.140 biome and building something like a
00:09:00.700 00:09:00.710 radiator like this and the longer the
00:09:04.240 00:09:04.250 radiator the more cooling you'll get and
00:09:06.280 00:09:06.290 then you'll send it off to the base
00:09:07.930 00:09:07.940 where you want to use it so the water
00:09:11.050 00:09:11.060 will come in at 95 degrees and this this
00:09:13.420 00:09:13.430 ice biome is at minus 30 at the moment
00:09:16.060 00:09:16.070 so you'll send in your 95 degree water
00:09:18.280 00:09:18.290 it'll sneak through these pipes
00:09:19.930 00:09:19.940 releasing its heat and the ice biome
00:09:24.190 00:09:24.200 will essentially cool down the water as
00:09:26.680 00:09:26.690 it travels through but it will also heat
00:09:29.320 00:09:29.330 up this ice biome so this is not a
00:09:30.730 00:09:30.740 permanent solution but it'll work for
00:09:33.790 00:09:33.800 quite a while now this assumes you have
00:09:35.830 00:09:35.840 quite a bit of wolframite you can also
00:09:37.540 00:09:37.550 use granite but it won't be as good and
00:09:39.460 00:09:39.470 as an effect and you can plant wheeze
00:09:43.120 00:09:43.130 warts around this area as well to try to
00:09:46.960 00:09:46.970 cool it even more an even simpler way
00:09:50.290 00:09:50.300 without building radiator is just to
00:09:53.020 00:09:53.030 take your hot water and dump it directly
00:09:57.940 00:09:57.950 into a nice biome so you could pipe it
00:10:00.820 00:10:00.830 directly in and let it accumulate I
00:10:02.470 00:10:02.480 often like doing it near the bottom
00:10:04.450 00:10:04.460 where you have a bunch of abyss light
00:10:05.770 00:10:05.780 naturally forming which is three or four
00:10:08.500 00:10:08.510 tiles thick so it doesn't break so you
00:10:11.530 00:10:11.540 could do something like let's take some
00:10:13.690 00:10:13.700 let's take some water at let's say 380
00:10:18.340 00:10:18.350 degrees Kelvin and just paint some in no
00:10:23.740 00:10:23.750 that was too hot that was steamed let me
00:10:27.370 00:10:27.380 destroy that let's do it at 3:33 ah
00:10:32.140 00:10:32.150 350 paint that in
00:10:37.520 00:10:37.530 so what's that one or at it's at 72
00:10:41.600 00:10:41.610 degrees Celsius now if you pump in small
00:10:46.070 00:10:46.080 amounts of water into a nice biome over
00:10:49.040 00:10:49.050 time it will cool down well it's already
00:10:51.350 00:10:51.360 down to 49 so when in at 70 it's already
00:10:54.260 00:10:54.270 down to 45 and it will continue to cool
00:10:56.240 00:10:56.250 normally you wouldn't dump in a whole
00:10:57.680 00:10:57.690 bunch like this at once you would be
00:10:59.030 00:10:59.040 trickling it in but the ice the ice
00:11:00.920 00:11:00.930 biome will naturally cool it down and
00:11:02.750 00:11:02.760 then you could pump it out of there to
00:11:04.460 00:11:04.470 use it for plants or whatever as long as
00:11:06.650 00:11:06.660 it was cold enough and you can set up
00:11:09.350 00:11:09.360 regulation using something like a thermo
00:11:12.560 00:11:12.570 switch and say you know if the
00:11:17.030 00:11:17.040 temperature is below 25 degrees then
00:11:22.010 00:11:22.020 pump the water otherwise don't pump it
00:11:24.020 00:11:24.030 now another way to cool down a water
00:11:26.900 00:11:26.910 tank it's to build some mesh tile above
00:11:30.230 00:11:30.240 it and then put in ice sculptures so
00:11:34.610 00:11:34.620 under furniture there's an ice block now
00:11:37.190 00:11:37.200 in debug mode it won't actually build it
00:11:39.080 00:11:39.090 it will melt right away but if you build
00:11:43.250 00:11:43.260 them the doops will come along use some
00:11:44.930 00:11:44.940 ice from the ice biome build some ice
00:11:48.079 00:11:48.089 sculptures and they'll cool the air
00:11:49.970 00:11:49.980 around them but then when they melt the
00:11:51.290 00:11:51.300 cold water goes into the water tank and
00:11:53.270 00:11:53.280 cools it down that's kind of a temporary
00:11:56.329 00:11:56.339 but manual way to cool water as well now
00:11:59.270 00:11:59.280 this water is already down to 37 so
00:12:02.660 00:12:02.670 those are two simple ways this is
00:12:04.190 00:12:04.200 probably the simplest way of all dump
00:12:06.620 00:12:06.630 hot water in an ice biome it'll cool
00:12:09.560 00:12:09.570 down but it's not a permanent solution
00:12:11.140 00:12:11.150 because your ice biome will eventually
00:12:13.940 00:12:13.950 warm up but it might get you through 100
00:12:16.400 00:12:16.410 cycles a couple of maybe 500 cycles and
00:12:18.820 00:12:18.830 once one ice biome is heated up you
00:12:21.170 00:12:21.180 could move on to the next because the
00:12:22.280 00:12:22.290 map usually has quite a few and you can
00:12:25.700 00:12:25.710 ask a tweeze warts to kind of speed the
00:12:28.850 00:12:28.860 or keep the cool things down even more
00:12:31.970 00:12:31.980 now you can also use these under
00:12:34.190 00:12:34.200 utilities you can use a temp shift plate
00:12:37.060 00:12:37.070 now you can make these out of granite
00:12:39.140 00:12:39.150 you can make them out of dirt Diamond is
00:12:41.660 00:12:41.670 one of the better ones and if you've
00:12:43.610 00:12:43.620 build them like this
00:12:46.730 00:12:46.740 what they do is they essentially spread
00:12:49.650 00:12:49.660 the heat out so this water is hot but
00:12:52.889 00:12:52.899 this air is cool so it's basically gonna
00:12:56.569 00:12:56.579 move spread the heat out into this area
00:12:59.220 00:12:59.230 faster and if you put some wheeze warts
00:13:02.730 00:13:02.740 along here they would cool the temp
00:13:04.740 00:13:04.750 shift plate and kind of send the cooling
00:13:07.920 00:13:07.930 down this way or extract the heat
00:13:09.780 00:13:09.790 whichever way you want to look at it so
00:13:12.540 00:13:12.550 temperature if plates are pretty good at
00:13:14.009 00:13:14.019 spreading heat up so now for now for a
00:13:16.319 00:13:16.329 slightly more advanced way to cool water
00:13:21.259 00:13:21.269 so we've got our 95 degree water here 96
00:13:24.769 00:13:24.779 you can send it in let's say you have a
00:13:27.449 00:13:27.459 bunch of carbon dioxide you want to get
00:13:28.829 00:13:28.839 rid of you can send it into a carbon
00:13:31.259 00:13:31.269 skimmer at 95 degrees or whatever and
00:13:34.530 00:13:34.540 the polluted water that comes out is
00:13:36.600 00:13:36.610 always going to come out at 40 so it's
00:13:39.360 00:13:39.370 essentially destroying a whole bunch of
00:13:41.550 00:13:41.560 heat quite a bit of heat but then you're
00:13:44.490 00:13:44.500 left with polluted water which is not
00:13:46.410 00:13:46.420 what you want for bristle blossoms you
00:13:47.970 00:13:47.980 want clean water so then you send that
00:13:50.880 00:13:50.890 40 degree polluted water into a sieve
00:13:55.250 00:13:55.260 water sieve it'll clean it for you using
00:13:58.949 00:13:58.959 sand and a map has a ton of sand and you
00:14:01.740 00:14:01.750 can even make more sand it's essentially
00:14:03.780 00:14:03.790 unlimited in practice and there's ways
00:14:08.430 00:14:08.440 to generate sand that's more complicated
00:14:09.810 00:14:09.820 but there's a ton of sand on the map you
00:14:12.720 00:14:12.730 can also use under refinement you can
00:14:15.660 00:14:15.670 use the rock granulator to turn certain
00:14:20.120 00:14:20.130 minerals into sand so that's a way to
00:14:23.880 00:14:23.890 get set if you happen to run out but
00:14:25.259 00:14:25.269 there's tons of sand on the map so this
00:14:27.720 00:14:27.730 uses sand it it gives off polluted dirt
00:14:30.720 00:14:30.730 which you can put in the compost or
00:14:33.180 00:14:33.190 hatches can eat it for you and make coal
00:14:35.400 00:14:35.410 but you can use for energy but the
00:14:38.610 00:14:38.620 output of the sieve is clean water at 40
00:14:40.889 00:14:40.899 degrees so you've taken 95 degree clean
00:14:44.460 00:14:44.470 water and turn it into 40 degree clean
00:14:47.460 00:14:47.470 water without too much power this is
00:14:51.030 00:14:51.040 only 120 watts for these two devices
00:14:53.630 00:14:53.640 you're going to need some co2 for this
00:14:56.280 00:14:56.290 thing to operate but there's often your
00:14:58.980 00:14:58.990 dupes are giving off co2
00:15:00.120 00:15:00.130 and there's ways to generate co2 a lot
00:15:02.490 00:15:02.500 of power production like coal production
00:15:04.440 00:15:04.450 or coal power natural gas power they all
00:15:08.940 00:15:08.950 give off co2 so there's now some people
00:15:12.540 00:15:12.550 would say don't waste your co2 doing
00:15:14.580 00:15:14.590 this
00:15:14.910 00:15:14.920 send your co2 to slicksters which are
00:15:16.620 00:15:16.630 little oil eating monsters at the bottom
00:15:18.570 00:15:18.580 of the map these little guys and they
00:15:22.470 00:15:22.480 would be right it's a better use to get
00:15:25.050 00:15:25.060 oil into them but if you need to cool
00:15:27.180 00:15:27.190 water this is a good way to do it so
00:15:28.800 00:15:28.810 then you take now you have 40 degree
00:15:30.960 00:15:30.970 water which isn't quite cool enough and
00:15:33.180 00:15:33.190 you can use some of the first methods
00:15:35.250 00:15:35.260 that I talked about to bring it down to
00:15:36.750 00:15:36.760 20 or 25 or what do you ever whatever
00:15:38.790 00:15:38.800 you need it up but then there's more
00:15:40.470 00:15:40.480 advanced ways to cool the water further
00:15:42.480 00:15:42.490 so I'll show you that now now you can
00:15:44.670 00:15:44.680 build a device like this which is not
00:15:48.840 00:15:48.850 quite the Borg cube it's a name that the
00:15:53.040 00:15:53.050 guy who created it his name's to turn us
00:15:55.140 00:15:55.150 any posts in the clay forums a lot so
00:15:57.120 00:15:57.130 the pump sucks up the crude oil it sends
00:15:59.940 00:15:59.950 it into the equity so it's going in at
00:16:01.680 00:16:01.690 80 degrees and coming out at 66 and it
00:16:05.130 00:16:05.140 just goes like this in a loop now the
00:16:07.530 00:16:07.540 Aqua tuner gets really hot when it runs
00:16:09.740 00:16:09.750 but because it is immersed in this crude
00:16:12.540 00:16:12.550 oil it in theory it should heat up the
00:16:17.670 00:16:17.680 oil an equal amount to what it's cooling
00:16:20.130 00:16:20.140 but the way the game mechanics work it
00:16:22.410 00:16:22.420 eventually cools down so if we take a
00:16:26.670 00:16:26.680 look at this oil here it's at 79 degrees
00:16:30.560 00:16:30.570 let's watch this
00:16:32.190 00:16:32.200 one tile of oil here it's at 81 point
00:16:34.350 00:16:34.360 five degrees now let's speed things up
00:16:36.590 00:16:36.600 control U is like super speed now you'll
00:16:40.500 00:16:40.510 notice it's eighty one point one it's
00:16:42.090 00:16:42.100 eighty one eighty point nine so it's
00:16:45.480 00:16:45.490 going down one could argue it's
00:16:48.240 00:16:48.250 exploiting some mechanics in the game
00:16:50.550 00:16:50.560 that are broken but not not to a huge
00:16:54.300 00:16:54.310 degree so let's slow things back down
00:16:55.920 00:16:55.930 here
00:16:58.500 00:16:58.510 so if you let this thing run for a long
00:17:01.060 00:17:01.070 time the crude oil would get cooler and
00:17:02.740 00:17:02.750 cooler and cooler eventually we'd get
00:17:05.560 00:17:05.570 like down to zero degrees and Beyond and
00:17:07.920 00:17:07.930 oil freezes solid at negative 40 so you
00:17:12.820 00:17:12.830 would want to put some regulation in
00:17:14.200 00:17:14.210 using a a thermo switch thermo sensor
00:17:20.400 00:17:20.410 you'd want to immerse it in the oil and
00:17:22.990 00:17:23.000 say don't run this thing when you get
00:17:26.890 00:17:26.900 down to about minus 20 the reason - 20
00:17:30.730 00:17:30.740 is that the oil going through the aqua
00:17:33.010 00:17:33.020 tuner will come down another 14 degrees
00:17:34.630 00:17:34.640 and will be close to freezing so shut
00:17:37.510 00:17:37.520 the thing off if it gets too cold
00:17:38.920 00:17:38.930 basically now the tiles around this are
00:17:44.170 00:17:44.180 abyss light to kind of retain the
00:17:45.550 00:17:45.560 coolness but if you used metal tiles
00:17:48.820 00:17:48.830 let's say right here or along here
00:17:52.290 00:17:52.300 actually along here for instance metal
00:17:56.080 00:17:56.090 tiles have a high thermal conductivity
00:17:57.370 00:17:57.380 let's draw a few here if you click on
00:18:00.880 00:18:00.890 them you'll see thermal conductivity 60
00:18:04.960 00:18:04.970 which is extremely high if you made
00:18:07.480 00:18:07.490 metal tiles along here and you had hot
00:18:10.000 00:18:10.010 water kind of in a small tank here this
00:18:15.340 00:18:15.350 thing would get really cold like minus
00:18:16.750 00:18:16.760 20 and it would cool down the water the
00:18:19.090 00:18:19.100 coldness would essentially suck the heat
00:18:20.770 00:18:20.780 out of the hot water and then you could
00:18:23.800 00:18:23.810 cool it down to whatever temperature you
00:18:25.600 00:18:25.610 needed another thing you could do is
00:18:28.690 00:18:28.700 circulate this cooler oil through a hot
00:18:30.970 00:18:30.980 water tank and cool the water down that
00:18:32.800 00:18:32.810 way using something like a wolframite
00:18:35.710 00:18:35.720 pipe radiator like I showed you earlier
00:18:38.430 00:18:38.440 now there's a NIC exploit with this kind
00:18:42.400 00:18:42.410 of system let's let's watch it so we see
00:18:45.940 00:18:45.950 it's really hot but if we put a metal
00:18:48.220 00:18:48.230 tile right here watch what happens to
00:18:52.630 00:18:52.640 the temperature temperature
00:19:01.400 00:19:01.410 see it's at 40 degrees 30 degrees look
00:19:05.460 00:19:05.470 how fast it's cooling now we're not even
00:19:10.050 00:19:10.060 through like a tenth of a cycle and
00:19:12.150 00:19:12.160 we're down to 20 degrees so this thing
00:19:14.810 00:19:14.820 will basically cool down to a freezing
00:19:18.030 00:19:18.040 point almost instantly look how cold it
00:19:20.070 00:19:20.080 is already and we're not at super speed
00:19:22.530 00:19:22.540 we're just at like regular speed and
00:19:25.170 00:19:25.180 what's going on is the cold oil is
00:19:28.860 00:19:28.870 coming out and forming a tiny little
00:19:30.660 00:19:30.670 droplet here and the cold droplet when
00:19:35.100 00:19:35.110 it hits the big pot of warmer oil cools
00:19:40.560 00:19:40.570 down the whole thing the way the
00:19:42.060 00:19:42.070 mechanics of the math works with liquids
00:19:45.840 00:19:45.850 merging with liquids doesn't take mass
00:19:48.480 00:19:48.490 into account so one gram of really cold
00:19:51.840 00:19:51.850 water or oil can cool down a giant body
00:19:55.890 00:19:55.900 like this this you could have a giant
00:19:58.140 00:19:58.150 body of boiling hot oil and drip in tiny
00:20:03.060 00:20:03.070 amounts of freezing oil and it would
00:20:05.070 00:20:05.080 freeze the whole tank almost immediately
00:20:06.740 00:20:06.750 so this is the exploit now if you like
00:20:10.500 00:20:10.510 cheating you can do this if you don't
00:20:12.720 00:20:12.730 like cheating you can do something
00:20:15.690 00:20:15.700 simpler like the kind of the original
00:20:18.780 00:20:18.790 method which cools but not it's such a
00:20:20.880 00:20:20.890 crazy rate I should mention that the
00:20:23.520 00:20:23.530 reason you use oil for something like
00:20:25.470 00:20:25.480 this is that it can it doesn't freeze at
00:20:27.600 00:20:27.610 zero degrees like water it freezes down
00:20:29.310 00:20:29.320 at like - Myka said - 40 Petroleum's
00:20:34.050 00:20:34.060 even better it freezes at an even lower
00:20:35.760 00:20:35.770 temperature so you can get your cooling
00:20:37.410 00:20:37.420 thing down really far now an on cheaty
00:20:40.980 00:20:40.990 way of doing this is to use either a
00:20:44.880 00:20:44.890 bunch of aqua tuners in series and these
00:20:46.770 00:20:46.780 things use a ton of power but you can
00:20:50.700 00:20:50.710 get essentially unlimited power in this
00:20:52.680 00:20:52.690 game through using fertilizer makers
00:20:54.480 00:20:54.490 plus natural gas power I've got quite a
00:20:57.600 00:20:57.610 bit of power here so one natural gas
00:21:00.540 00:21:00.550 geyser for instance will power three of
00:21:02.490 00:21:02.500 these and each of these is 800 watts but
00:21:05.910 00:21:05.920 then you can build an unlimited number
00:21:07.170 00:21:07.180 of fertilizer makers which can power an
00:21:10.920 00:21:10.930 unlimited number of
00:21:12.330 00:21:12.340 natural gas generators you can also
00:21:14.220 00:21:14.230 build petroleum generators which take in
00:21:17.100 00:21:17.110 petroleum and generate a bunch of power
00:21:19.280 00:21:19.290 so eventually you'll have a ton of power
00:21:21.450 00:21:21.460 and you can do something simple like
00:21:23.940 00:21:23.950 this and I'm what I'm doing here is I'm
00:21:25.680 00:21:25.690 just sending water 95 degree water
00:21:28.830 00:21:28.840 through a valve and I'm controlling the
00:21:31.980 00:21:31.990 amount of water that goes through right
00:21:33.030 00:21:33.040 now I'm just letting all 10 kilograms
00:21:35.100 00:21:35.110 per per bubble go through and so the
00:21:40.110 00:21:40.120 water is coming in at 96 or 97 and it's
00:21:42.600 00:21:42.610 coming out at 26 as you can see and
00:21:46.860 00:21:46.870 these things aren't operating at all the
00:21:49.740 00:21:49.750 time they just operate this kicked on
00:21:53.610 00:21:53.620 there so what we're doing is we're
00:21:57.150 00:21:57.160 sending that cold water to 12
00:22:00.090 00:22:00.100 Bristol blossoms and they're each using
00:22:03.960 00:22:03.970 20 kilograms let's see 20 kilograms of
00:22:09.060 00:22:09.070 water per cycle which is essentially 33
00:22:11.730 00:22:11.740 grams per second of fresh water so
00:22:15.390 00:22:15.400 that's why these aren't running kind of
00:22:17.580 00:22:17.590 all the time there they go the kicked on
00:22:20.760 00:22:20.770 and when these things operate they kind
00:22:23.670 00:22:23.680 of they get quite hot that's why I have
00:22:26.160 00:22:26.170 them in immersed in oil and this oil is
00:22:30.750 00:22:30.760 around 87 degrees here over here it's
00:22:36.330 00:22:36.340 like 80 it's actually make some of this
00:22:41.370 00:22:41.380 light Tyler really quickly so if we let
00:22:44.760 00:22:44.770 this run at super speed
00:22:52.070 00:22:52.080 the oil will eventually warm up I don't
00:23:00.230 00:23:00.240 know how long this would last before it
00:23:03.290 00:23:03.300 became an issue oil boils at 400 degrees
00:23:08.240 00:23:08.250 it would take a while I think to heat up
00:23:12.380 00:23:12.390 this oil now I have it encased in abyss
00:23:17.270 00:23:17.280 light if he built something like this
00:23:20.210 00:23:20.220 down at the bottom of the map where
00:23:23.780 00:23:23.790 there is a ton of oil let's say you dug
00:23:26.870 00:23:26.880 into a bunch of this oil you could put
00:23:30.470 00:23:30.480 you could immerse those aqua tuners in
00:23:31.850 00:23:31.860 there in a large amount of oil build
00:23:37.400 00:23:37.410 something like this I mean it would take
00:23:39.560 00:23:39.570 a while to dig out but once you have
00:23:40.700 00:23:40.710 exosuits you can do that so you've got a
00:23:43.670 00:23:43.680 giant pool of oil you could immerse
00:23:46.280 00:23:46.290 those aqua tuners in there and it would
00:23:48.380 00:23:48.390 take probably thousands of cycles to
00:23:50.900 00:23:50.910 heat up the oil now another thing you
00:23:53.000 00:23:53.010 could do is heat the oil up to let's say
00:23:56.890 00:23:56.900 a hundred degrees or 120 degrees and
00:24:01.090 00:24:01.100 then actually consume it in a oil
00:24:07.520 00:24:07.530 refinery for instance
00:24:08.900 00:24:08.910 [Music]
00:24:11.590 00:24:11.600 consume it turn into petroleum and then
00:24:14.630 00:24:14.640 pump in new fresh cool oil from down
00:24:16.880 00:24:16.890 below or from your slicksters cuz these
00:24:19.430 00:24:19.440 slicksters make oil and they eat carbon
00:24:21.650 00:24:21.660 dioxide and though they're out putting
00:24:24.020 00:24:24.030 oil at 25 degrees so you could pump that
00:24:27.770 00:24:27.780 25 degree oil into a tank like this dump
00:24:32.360 00:24:32.370 all the heat into it from these aqua
00:24:34.610 00:24:34.620 tuners and then consume the oil and
00:24:37.760 00:24:37.770 destroy the heat so it's pretty common
00:24:40.160 00:24:40.170 to use things like polluted water like
00:24:43.160 00:24:43.170 in this instance here I used I was using
00:24:46.850 00:24:46.860 polluted water into the sieve now I
00:24:49.280 00:24:49.290 could take this polluted water and cool
00:24:52.340 00:24:52.350 down Machinery with it dribble it on top
00:24:54.290 00:24:54.300 of machinery or put it through a an area
00:24:57.800 00:24:57.810 that's say 60 degrees and kind of dump
00:25:00.350 00:25:00.360 the heat into it and then put it into
00:25:02.060 00:25:02.070 the sieve and it would destroy the 60
00:25:04.400 00:25:04.410 degree polluted water and give and give
00:25:07.580 00:25:07.590 out 40 degree fresh water now a less
00:25:10.550 00:25:10.560 power-hungry way of doing this using all
00:25:14.720 00:25:14.730 these aqua tuners would be to take the
00:25:17.960 00:25:17.970 output of one echo tuner and feed the
00:25:21.260 00:25:21.270 cooler water back into the aqua tuner
00:25:23.390 00:25:23.400 and basically get a cooling loop going
00:25:25.460 00:25:25.470 and then eventually use it but as you
00:25:29.510 00:25:29.520 can see these aren't running all the
00:25:30.710 00:25:30.720 time so they're not actually you don't
00:25:33.290 00:25:33.300 need you know 1200 watts times 5 to run
00:25:37.100 00:25:37.110 this thing you just need enough battery
00:25:39.440 00:25:39.450 storage to run them intermittently so if
00:25:43.580 00:25:43.590 we put a bunch of smart batteries on
00:25:44.960 00:25:44.970 00:25:48.200 00:25:48.210 00:25:50.610 00:25:50.620 we can see them fill up
00:25:55.170 00:25:55.180 and then when this runs they'll take a
00:25:58.960 00:25:58.970 little hit oh they didn't even take a
00:26:02.260 00:26:02.270 hit we have so much power and this isn't
00:26:05.860 00:26:05.870 even a big power setup this is only one
00:26:09.580 00:26:09.590 two three four five it's only six
00:26:11.800 00:26:11.810 natural gas generator it's not that big
00:26:15.660 00:26:15.670 so that's kind of a non Chiti way of
00:26:18.900 00:26:18.910 cooling water this is kind of a crude
00:26:21.430 00:26:21.440 setup because I'm doing in series but
00:26:23.050 00:26:23.060 but the thing like I said you might want
00:26:24.850 00:26:24.860 to pump in cold oil and eventually once
00:26:28.270 00:26:28.280 it gets too hot pump it out and you
00:26:30.400 00:26:30.410 could use regulation for that pump it
00:26:32.710 00:26:32.720 out and destroy it in the oil refinery
00:26:35.020 00:26:35.030 so the water that's coming out of that
00:26:36.730 00:26:36.740 is twenty six point eight degrees which
00:26:39.160 00:26:39.170 is just perfect for Bristol blossom now
00:26:41.980 00:26:41.990 I'll show you one other way to cool
00:26:43.300 00:26:43.310 water this is not as effective but you
00:26:47.500 00:26:47.510 can use the anti entropy thermo
00:26:49.330 00:26:49.340 nullifier which you feed hydrogen it
00:26:53.680 00:26:53.690 doesn't use very much it uses C here 10
00:26:58.450 00:26:58.460 grams per second of hydrogen and you can
00:27:02.500 00:27:02.510 generate hydrogen with the electrolyzer
00:27:04.870 00:27:04.880 so that's one way of generating the
00:27:06.460 00:27:06.470 hydrogen that you send to it I just
00:27:08.560 00:27:08.570 built a room up here a fake little room
00:27:10.600 00:27:10.610 full of hydrogen to do this but and it
00:27:13.300 00:27:13.310 can even be hot hydrogen that goes into
00:27:15.190 00:27:15.200 this thing if you're using a vis light
00:27:17.740 00:27:17.750 pipe so this thing does quite a bit of
00:27:21.340 00:27:21.350 cooling I think it's equivalent to about
00:27:22.840 00:27:22.850 12 wheeze warts somewhere between 8 and
00:27:26.140 00:27:26.150 14 wheeze words I don't know the exact
00:27:27.910 00:27:27.920 number it says minus 400 watts but
00:27:31.450 00:27:31.460 there's some internal math that actually
00:27:33.280 00:27:33.290 turns it into 80 kilowatts apparently
00:27:35.110 00:27:35.120 versus the 12 kilowatts for a wheeze
00:27:38.500 00:27:38.510 work so this will cool itself as well as
00:27:40.690 00:27:40.700 the surrounding area and I have this
00:27:43.360 00:27:43.370 room filled with hydrogen at 2,000 grams
00:27:46.510 00:27:46.520 per tile and as I said earlier hydrogen
00:27:50.050 00:27:50.060 is a really good gas for kind of cooling
00:27:53.410 00:27:53.420 it's the best gas for cooling so this
00:27:56.920 00:27:56.930 thing is down at let's see
00:28:00.690 00:28:00.700 ten degrees and I've got the temp shift
00:28:04.200 00:28:04.210 plates to kind of spread the coolness
00:28:05.700 00:28:05.710 out and then what I'm doing is I'm
00:28:09.119 00:28:09.129 sending I think it's a hundred grams per
00:28:11.849 00:28:11.859 second of 95 degree water through the
00:28:14.399 00:28:14.409 system so the water is going in at 97
00:28:18.149 00:28:18.159 and it's coming out at 12 and the room
00:28:23.310 00:28:23.320 isn't heating up like if we kind of
00:28:25.440 00:28:25.450 watch this watch the hydrogen it's at
00:28:28.799 00:28:28.809 ten point four and we speed things up
00:28:30.619 00:28:30.629 massively it's pretty stable ten point
00:28:34.919 00:28:34.929 three now if we send more than a hundred
00:28:38.159 00:28:38.169 grams the equation changes so let's said
00:28:43.830 00:28:43.840 now hundred grams per second of cold
00:28:45.960 00:28:45.970 water is enough to grow three Bristol
00:28:49.560 00:28:49.570 blossoms which isn't very much but let's
00:28:53.099 00:28:53.109 try 200 and see what happens and speed
00:28:56.369 00:28:56.379 things up so if we watch the hydrogen
00:29:01.379 00:29:01.389 10.1 10.2 so it is warming up very very
00:29:09.450 00:29:09.460 slowly but and the water that's coming
00:29:17.460 00:29:17.470 out is no longer as cold it's coming out
00:29:22.799 00:29:22.809 at 25 degrees which is still good enough
00:29:24.419 00:29:24.429 to for Bristol blossoms just barely so
00:29:28.169 00:29:28.179 gas cooling is not as effective as
00:29:30.239 00:29:30.249 liquid cooling the aqua tuner is super
00:29:32.820 00:29:32.830 powerful but it does take you know 1200
00:29:36.960 00:29:36.970 watts whereas this thing actually
00:29:39.659 00:29:39.669 doesn't require any power at all it's
00:29:41.310 00:29:41.320 free power except for the hydrogen that
00:29:43.349 00:29:43.359 you gotta generate and there's usually
00:29:46.289 00:29:46.299 three of these on the map
00:29:47.580 00:29:47.590 some I've only ever seen three they're
00:29:50.549 00:29:50.559 kind of hidden in the ice by let's see
00:29:52.080 00:29:52.090 if we can find one okay here's one here
00:29:57.500 00:29:57.510 they're usually hidden in ice but
00:29:59.330 00:29:59.340 they're usually a little bit of them as
00:30:00.710 00:30:00.720 exposed if you turn on the gas overlay
00:30:05.090 00:30:05.100 you can see their input so there's one
00:30:09.260 00:30:09.270 hidden away so not the most effective
00:30:11.420 00:30:11.430 way to cool but a decent way it's good
00:30:16.250 00:30:16.260 for cooling oxygen if you set up your
00:30:18.530 00:30:18.540 oxygen generation close to one of these
00:30:22.100 00:30:22.110 nullifiers it's pretty effective but for
00:30:24.740 00:30:24.750 cooling liquids it's not as effective
00:30:26.690 00:30:26.700 the reason it's so hard to cool liquids
00:30:30.470 00:30:30.480 is that they're they have a high mass so
00:30:33.410 00:30:33.420 we're doing like 10 kilograms for bubble
00:30:36.020 00:30:36.030 here but one tile of gas only has
00:30:38.390 00:30:38.400 usually 2 kilograms or less so it's a
00:30:41.690 00:30:41.700 it's it comes down to mass and a tile of
00:30:46.430 00:30:46.440 water is a thousand kilograms so quite a
00:30:49.460 00:30:49.470 bit you know it's almost 500 times the
00:30:52.130 00:30:52.140 mass of a normal gas tile so there's
00:30:55.430 00:30:55.440 probably lots of other ways to cool
00:30:56.720 00:30:56.730 water but these are the the ones that I
00:30:58.610 00:30:58.620 have used in the past this set appears
00:31:01.730 00:31:01.740 super effective at destroying a you know
00:31:04.730 00:31:04.740 a good portion of the heat gets you down
00:31:07.370 00:31:07.380 from 95 to 40 and then you can use an
00:31:10.520 00:31:10.530 aqua tuner to bring them down to kind of
00:31:13.990 00:31:14.000 26 degrees a single aqua tuner and
00:31:17.150 00:31:17.160 remember you only need to cool the water
00:31:18.980 00:31:18.990 for your food you don't need to cool it
00:31:22.730 00:31:22.740 for showers or toilets or a lot of other
00:31:25.550 00:31:25.560 uses if but let's say like electrolyzers
00:31:28.340 00:31:28.350 you can send hot water into those
00:31:31.529 00:31:31.539 food is pretty much the only thing you
00:31:33.490 00:31:33.500 need cold water for I'd love to hear
00:31:35.230 00:31:35.240 your thoughts in the comments about
00:31:36.279 00:31:36.289 these systems I've probably missed some
00:31:38.680 00:31:38.690 some ways to do cooling Louisa works
00:31:40.870 00:31:40.880 like I said are good at cooling they're
00:31:42.759 00:31:42.769 essentially a small version of this
00:31:44.799 00:31:44.809 nullifier and they're more portable
00:31:46.899 00:31:46.909 these things you can't move around so
00:31:48.549 00:31:48.559 you can do something similar to this but
00:31:49.960 00:31:49.970 you're going to need a lot of Wiis words
00:31:51.120 00:31:51.130 so sorry this video is so long but I
00:31:53.620 00:31:53.630 wanted to get kind of a lot of different
00:31:55.389 00:31:55.399 varieties in terms of cooling in if you
00:31:57.639 00:31:57.649 enjoy these kind of videos hit that
00:31:59.139 00:31:59.149 subscribe button and give it a thumbs up
00:32:02.080 00:32:02.090 if you want to hear any other kind of
00:32:04.539 00:32:04.549 guides let me know in the comments I've
00:32:06.730 00:32:06.740 already done a gas guide a kind of
00:32:08.860 00:32:08.870 temperature guide I'm about to do a
00:32:11.049 00:32:11.059 slime guide probably after this one
00:32:12.639 00:32:12.649 slime and germs guide so let me know if
00:32:14.889 00:32:14.899 you want to see any other guides I'll
00:32:16.990 00:32:17.000 probably put a link in the description
00:32:18.190 00:32:18.200 to the playlist that shows all the
00:32:20.409 00:32:20.419 guides and as always thanks for watching
00:32:22.930 00:32:22.940 and we'll see you guys next time

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