/ News & Press / Video / Crude Oil Petroleum boiler tutorial 10 Kg_s(Save file linked) Oxygen not included

Crude Oil Petroleum boiler tutorial 10 Kg_s(Save file linked) Oxygen not included

WEBVTT
Kind: captions
Language: en

00:00:00.000
this is a tutorial on how to build an
00:00:01.640 00:00:01.650 oil boiler first up though I'm gonna
00:00:03.770 00:00:03.780 cover why you might actually want to
00:00:05.269 00:00:05.279 build an oil boiler because it is a bit
00:00:06.769 00:00:06.779 of an investment of time effort and
00:00:08.270 00:00:08.280 resources if you already know why you
00:00:10.220 00:00:10.230 want it then just skip ahead a bit to
00:00:11.839 00:00:11.849 the actual design the reason to boil
00:00:14.660 00:00:14.670 petroleum is because it's a sustainable
00:00:17.359 00:00:17.369 power source that actually has some nice
00:00:19.460 00:00:19.470 side puts and can give you an enormous
00:00:20.929 00:00:20.939 amount of power if done correctly it's
00:00:23.420 00:00:23.430 all based on oil reservoirs effectively
00:00:25.910 00:00:25.920 you think of them like the natural gas
00:00:27.349 00:00:27.359 geysers of oil all wells you play you
00:00:30.140 00:00:30.150 pump in one kilo of water and it will
00:00:32.450 00:00:32.460 pump out 3.3 kilos of crude oil that 3.3
00:00:37.430 00:00:37.440 kilos of crude oil we boil in a
00:00:39.729 00:00:39.739 petroleum boiler and it will give us a
00:00:42.260 00:00:42.270 one-to-one ratio of petroleum if you try
00:00:46.190 00:00:46.200 and run this to a regular oil refinery
00:00:48.260 00:00:48.270 you'll only get half the output so
00:00:49.970 00:00:49.980 you'll put in 10 kilos of crude oil and
00:00:51.979 00:00:51.989 you're gonna get at 5 kilos of petroleum
00:00:54.010 00:00:54.020 so by doubling the EDD push using a
00:00:56.569 00:00:56.579 direct heat conversion by heating the
00:00:58.760 00:00:58.770 petroleum up to 403 degrees or hitting
00:01:02.060 00:01:02.070 the crude oil up to 403 degrees we get
00:01:06.469 00:01:06.479 100% conversion rate which means when we
00:01:08.719 00:01:08.729 burnish in our petroleum generators the
00:01:11.600 00:01:11.610 amount of polluted water that's kicked
00:01:13.370 00:01:13.380 out we can then save that and we will
00:01:16.730 00:01:16.740 have an actual excess of water to put
00:01:19.580 00:01:19.590 back into the starting oil well for
00:01:23.660 00:01:23.670 every kilo of water you put into the to
00:01:25.640 00:01:25.650 the oil well you'll get one point two
00:01:27.140 00:01:27.150 kilos of polluted water back after you
00:01:29.359 00:01:29.369 burn that petroleum in a power generator
00:01:32.260 00:01:32.270 this whole system generates about 3.3
00:01:36.530 00:01:36.540 kilowatts of power of course there will
00:01:39.109 00:01:39.119 be some power taken for powering the oil
00:01:40.999 00:01:41.009 well and your water save and the pumps
00:01:43.010 00:01:43.020 involved and all that there is overhead
00:01:44.859 00:01:44.869 but considering you can get 3 oil wells
00:01:48.200 00:01:48.210 on a map which is not uncommon and 2 is
00:01:50.719 00:01:50.729 usually about average that's if you get
00:01:53.240 00:01:53.250 three oil wells up and running you can
00:01:54.859 00:01:54.869 effectively generate 10 kilowatts of
00:01:57.080 00:01:57.090 power and maybe spend one and a half one
00:01:59.660 00:01:59.670 to one and a half kilowatts of power
00:02:00.889 00:02:00.899 actually running the whole system and on
00:02:03.350 00:02:03.360 top of that with 3 of them you'd be
00:02:04.730 00:02:04.740 kicking at 0.6 of a kilo of polluted
00:02:07.550 00:02:07.560 water extra a second all for the cost of
00:02:11.950 00:02:11.960 well the duplicate labor required to run
00:02:13.870 00:02:13.880 one water sieve composter that's pretty
00:02:16.870 00:02:16.880 much the only duplicate interaction
00:02:18.190 00:02:18.200 required at that point and the only
00:02:19.630 00:02:19.640 thing to keep this perfectly sustainable
00:02:21.250 00:02:21.260 for ever would be filtration medium
00:02:23.260 00:02:23.270 which you confirm from regolith and this
00:02:25.810 00:02:25.820 is the reason you would want to employ a
00:02:28.180 00:02:28.190 petroleum boiler first up the materials
00:02:31.270 00:02:31.280 involved you're going to want some
00:02:33.100 00:02:33.110 diamonds temperature shift plates a few
00:02:35.140 00:02:35.150 of them to go in the magma section at
00:02:36.700 00:02:36.710 least this helps draw the heat out of
00:02:39.130 00:02:39.140 the magma evenly otherwise you're gonna
00:02:40.630 00:02:40.640 end up with parts of it being very hot
00:02:42.250 00:02:42.260 and other parts of it being very cool
00:02:43.570 00:02:43.580 it's just there's not a lot of when
00:02:46.000 00:02:46.010 magma solidifies it intake nice Rock
00:02:48.160 00:02:48.170 there's not a lot of terminal shift
00:02:49.510 00:02:49.520 there so you do need some shift plates
00:02:51.160 00:02:51.170 diamond is plentiful in the oil biome so
00:02:54.190 00:02:54.200 it's not too hard to get your hands on a
00:02:55.510 00:02:55.520 few time and temperature shift plates in
00:02:57.340 00:02:57.350 here tungsten steel is what I like to
00:03:00.520 00:03:00.530 use when dealing with any sort of magma
00:03:01.860 00:03:01.870 tungsten is basically the only thing
00:03:03.760 00:03:03.770 that won't melt when it's around a metal
00:03:05.230 00:03:05.240 volcano so I just as a standard anything
00:03:08.080 00:03:08.090 to it magma I use tungsten for the door
00:03:11.680 00:03:11.690 that's your thermal injector and the
00:03:13.240 00:03:13.250 door will want to be made out of steel
00:03:14.470 00:03:14.480 and in fact anything you're putting in
00:03:16.780 00:03:16.790 around here steel or tungsten pretty
00:03:18.310 00:03:18.320 much just to make sure it does not melt
00:03:20.460 00:03:20.470 now the last and most expensive piece is
00:03:23.890 00:03:23.900 the radiant pipes along here these
00:03:27.280 00:03:27.290 radiant pipes are hugely important they
00:03:29.950 00:03:29.960 allow for a temperature shift change
00:03:32.110 00:03:32.120 between the incoming crude oil and the
00:03:34.270 00:03:34.280 outgoing petroleum this is hugely
00:03:36.400 00:03:36.410 important but it also requires a lot of
00:03:38.530 00:03:38.540 them this is about 10 tons of gold 10
00:03:42.790 00:03:42.800 tons of refined gold assuming you built
00:03:45.760 00:03:45.770 yourself a decent industrial brick 10
00:03:47.860 00:03:47.870 tons of refined gold should not be a
00:03:49.630 00:03:49.640 problem there's no real way to
00:03:52.680 00:03:52.690 counteract this you could make a shorter
00:03:55.000 00:03:55.010 run and use lots more diamonds
00:03:56.350 00:03:56.360 temperature shift plates but time and
00:03:58.600 00:03:58.610 temperature shift plates costs 800 kilos
00:04:00.970 00:04:00.980 of diamond per tile one Radian pipe is
00:04:04.090 00:04:04.100 50 kilos of gold it's just fair cheaper
00:04:07.870 00:04:07.880 to do it with gold and usually it's
00:04:09.220 00:04:09.230 plentiful enough if you have any
00:04:10.420 00:04:10.430 problems getting enough gold just look
00:04:12.790 00:04:12.800 up a tutorial on how to make an
00:04:14.530 00:04:14.540 industrial brick or industrial design
00:04:17.080 00:04:17.090 it's it's fairly easy once you get one
00:04:19.390 00:04:19.400 up and running you can churn out
00:04:20.440 00:04:20.450 enormous amounts of refined metals I'll
00:04:23.710 00:04:23.720 do
00:04:24.200 00:04:24.210 a quick guide at the end on how to
00:04:26.330 00:04:26.340 actually fill one of these tanks if you
00:04:28.159 00:04:28.169 don't have a volcano to draw on you
00:04:30.469 00:04:30.479 don't need a volcano to get one of these
00:04:31.999 00:04:32.009 up and running you can actually draw the
00:04:33.650 00:04:33.660 magma from the geothermal magma down at
00:04:36.260 00:04:36.270 the bottom it's a it's a little bit
00:04:37.730 00:04:37.740 tricky requires a requires you to be
00:04:40.100 00:04:40.110 very careful but it can be done and it's
00:04:42.469 00:04:42.479 not that difficult this this magma tank
00:04:46.790 00:04:46.800 will last once it's full up to about
00:04:48.290 00:04:48.300 here it should last 350 to 400 cycles
00:04:51.129 00:04:51.139 that's assuming you run this at full
00:04:53.210 00:04:53.220 capacity at 10 kilos per second so this
00:04:56.059 00:04:56.069 should get you pretty much all the
00:04:57.620 00:04:57.630 petroleum you need to get to space at
00:04:59.240 00:04:59.250 which point you can rip out this whole
00:05:00.980 00:05:00.990 magma container and just replace it with
00:05:02.779 00:05:02.789 a space metals aqua tuner to provide
00:05:04.939 00:05:04.949 your heat source I'll cover more in that
00:05:07.279 00:05:07.289 an end as well but for the time being
00:05:08.839 00:05:08.849 let's get into the actual design itself
00:05:10.460 00:05:10.470 and how it with what functions it's very
00:05:12.980 00:05:12.990 straightforward in fact it's just the
00:05:14.719 00:05:14.729 size needed to exchange the heat that's
00:05:16.370 00:05:16.380 the problem
00:05:16.760 00:05:16.770 the crude oil just comes up and it winds
00:05:19.430 00:05:19.440 its way up the heat exchange stairs
00:05:21.379 00:05:21.389 until it gets to the actual petroleum
00:05:24.920 00:05:24.930 boiler right here now because of the
00:05:28.129 00:05:28.139 mechanics of this game if when you drop
00:05:29.659 00:05:29.669 liquids out of a vent they will fall
00:05:31.460 00:05:31.470 until they hit a solid surface you can
00:05:33.560 00:05:33.570 drop them through a hundred tiles of
00:05:35.060 00:05:35.070 water anything you want but unless it
00:05:36.980 00:05:36.990 hits a solid surface it won't stop or
00:05:38.570 00:05:38.580 interact with anything along the way so
00:05:40.430 00:05:40.440 you'll see this black tile here that's
00:05:41.959 00:05:41.969 where the crude oil is just hit the
00:05:43.610 00:05:43.620 plate the heat over here gets injected
00:05:46.580 00:05:46.590 when the temperature here falls below
00:05:47.810 00:05:47.820 four hundred and three degrees yes pull
00:05:51.589 00:05:51.599 it up so as you can see it hits the
00:05:53.149 00:05:53.159 bottom of the plate instantly converts
00:05:55.060 00:05:55.070 if the temperature here ever drops below
00:05:57.350 00:05:57.360 four hundred and three degrees which is
00:05:58.670 00:05:58.680 the conversion point steel door engages
00:06:01.010 00:06:01.020 heat is injected crude oil is converted
00:06:04.029 00:06:04.039 now as it converts it changes into
00:06:08.330 00:06:08.340 petroleum for a bit and then this sort
00:06:09.980 00:06:09.990 of bubbles over the top so all the
00:06:12.830 00:06:12.840 petroleum is basically percolating up
00:06:14.330 00:06:14.340 and at the top the size of this doesn't
00:06:16.640 00:06:16.650 matter make it at least two tiles high
00:06:17.990 00:06:18.000 but beyond that it doesn't really matter
00:06:19.370 00:06:19.380 I made some adjustments to this base
00:06:21.230 00:06:21.240 that make it slightly different from my
00:06:23.330 00:06:23.340 test version because I had things in the
00:06:25.219 00:06:25.229 way and I had to adjust the size but
00:06:28.520 00:06:28.530 make this at least two tiles high and
00:06:29.990 00:06:30.000 you'll be fine
00:06:31.070 00:06:31.080 extra tiles on top of that don't really
00:06:32.719 00:06:32.729 matter then the heated petroleum because
00:06:35.300 00:06:35.310 there were bubbles over the top
00:06:37.260 00:06:37.270 and then just rolls down the easy
00:06:39.629 00:06:39.639 exchange stairs left to right left right
00:06:41.879 00:06:41.889 to left until it gets to the bottom
00:06:43.529 00:06:43.539 where a pump extracts us and we send
00:06:46.409 00:06:46.419 that off to our industrial brick or into
00:06:50.070 00:06:50.080 a storage tank I've built over here now
00:06:54.300 00:06:54.310 the main benefits of this air well
00:06:56.640 00:06:56.650 efficiency the petroleum that's coming
00:06:58.830 00:06:58.840 out of here is going to come out nice
00:06:59.909 00:06:59.919 and cool about 26 degrees hotter than
00:07:02.879 00:07:02.889 the crude oil you put in so depending on
00:07:05.670 00:07:05.680 how your crude oil shake dive on the
00:07:07.920 00:07:07.930 orangie side of it maybe you had some
00:07:09.839 00:07:09.849 broken abyssal ice and some of this is
00:07:11.279 00:07:11.289 you know 100 200 degrees but whatever
00:07:14.129 00:07:14.139 temperature you put it in at it will
00:07:16.020 00:07:16.030 come out 26 degrees the petroleum that
00:07:18.749 00:07:18.759 comes out will be 26 degrees hotter
00:07:20.279 00:07:20.289 roughly assuming you stick to this
00:07:22.230 00:07:22.240 design if you want to make a shorter run
00:07:24.689 00:07:24.699 you quite you can do that that's not a
00:07:27.300 00:07:27.310 problem
00:07:27.689 00:07:27.699 however the efficiency of the boiler
00:07:29.399 00:07:29.409 will be less meaning you won't get the
00:07:30.839 00:07:30.849 same lifespan out of your magma and the
00:07:33.330 00:07:33.340 petroleum that comes in it will be
00:07:34.950 00:07:34.960 hotter for example if I was to remove 40
00:07:36.870 00:07:36.880 tiles of this this is for stairs four
00:07:39.300 00:07:39.310 stair stairs and each one's 50 tiles
00:07:42.089 00:07:42.099 long if I was to remove say 40 of them
00:07:44.040 00:07:44.050 and have my collection point here that
00:07:46.529 00:07:46.539 would increase the output temperature by
00:07:47.939 00:07:47.949 about 10 degrees from 26 to about 36
00:07:51.209 00:07:51.219 that's what it did in testing it takes a
00:07:53.700 00:07:53.710 little time to shake out it's about 20
00:07:55.230 00:07:55.240 cycles for the temperature to even out
00:07:56.550 00:07:56.560 everywhere but that's why we make it
00:07:58.620 00:07:58.630 exactly 200 tiles long just to get the
00:08:00.719 00:08:00.729 right level of efficiency there is a
00:08:03.270 00:08:03.280 diminutive diminishing returns on the
00:08:05.189 00:08:05.199 longer you make this so this was about
00:08:06.870 00:08:06.880 the perfect sweet spot as far as I could
00:08:08.820 00:08:08.830 tell you may want to experiment with the
00:08:10.890 00:08:10.900 lengths yourself I'm just gonna do a
00:08:12.659 00:08:12.669 quick jump over to a test map where I
00:08:14.959 00:08:14.969 stress tested its design to make sure it
00:08:17.279 00:08:17.289 would run the full length and all that
00:08:18.540 00:08:18.550 and back to you one side this is the oil
00:08:21.899 00:08:21.909 boiler torture test map and its end of
00:08:24.209 00:08:24.219 life this is the point where the actual
00:08:25.709 00:08:25.719 magma itself is hitting a temperature
00:08:27.330 00:08:27.340 where it will no longer be able to boil
00:08:29.189 00:08:29.199 the crude oil successfully in mind this
00:08:33.480 00:08:33.490 tile here it's you know smothered by
00:08:35.550 00:08:35.560 igneous rock since the magma hardened is
00:08:37.050 00:08:37.060 a temperature sensor it's set to 425
00:08:39.779 00:08:39.789 degrees that is linked back up here to
00:08:41.880 00:08:41.890 the liquid shut off when this hits 425
00:08:46.500 00:08:46.510 degrees I don't want to be dumping any
00:08:48.329 00:08:48.339 more crude oil in here otherwise it's
00:08:49.800 00:08:49.810 eventually
00:08:50.480 00:08:50.490 fill it up bubble over and then I'm
00:08:51.680 00:08:51.690 gonna be pumping crude oil where I do
00:08:52.910 00:08:52.920 want so I've set it to 425 you can lower
00:08:56.060 00:08:56.070 the temperature a bish I'm leaving in a
00:08:57.769 00:08:57.779 nice safety margin here because honestly
00:09:00.290 00:09:00.300 the amount of crude oil it will produce
00:09:01.400 00:09:01.410 over its life by the time you get to the
00:09:03.019 00:09:03.029 end of this it should be a case if
00:09:04.760 00:09:04.770 you're replacing it with something else
00:09:05.900 00:09:05.910 to HEDIS if you really want to you could
00:09:08.780 00:09:08.790 just mine this out again and fill it
00:09:11.090 00:09:11.100 back up with more magma if you really
00:09:12.590 00:09:12.600 want to choice is yours this design has
00:09:15.860 00:09:15.870 lasted three hundred and eighty three
00:09:18.260 00:09:18.270 cycles according to my notes so it will
00:09:20.840 00:09:20.850 run for quite a long time and should
00:09:22.610 00:09:22.620 provide most of your oil needs and
00:09:23.900 00:09:23.910 that's assuming you're running at ten
00:09:25.519 00:09:25.529 kilos as in you have three oil wells to
00:09:28.040 00:09:28.050 feed it or enough reserve oil and oil
00:09:30.230 00:09:30.240 wells to keep it going for that long
00:09:31.960 00:09:31.970 that produces I think it's 1,000 to 800
00:09:35.269 00:09:35.279 tons of petroleum I've been pumping the
00:09:38.060 00:09:38.070 crude oil from here through the
00:09:39.940 00:09:39.950 petroleum boiler and dumping it over
00:09:41.960 00:09:41.970 this side and that's about what it looks
00:09:44.870 00:09:44.880 like when it's when you that's what it
00:09:48.920 00:09:48.930 looks like after it's all finished
00:09:49.880 00:09:49.890 that's the quantity in a visual aid for
00:09:52.519 00:09:52.529 matter of how much petroleum you'll end
00:09:54.320 00:09:54.330 up with by enlarge you'll be burning off
00:09:56.269 00:09:56.279 this is you make it though so you
00:09:57.500 00:09:57.510 shouldn't need a storage tank that large
00:09:59.110 00:09:59.120 there's only a very minimal amount of
00:10:01.579 00:10:01.589 automation included here I didn't want
00:10:04.579 00:10:04.589 to make this too complicated I like to
00:10:05.840 00:10:05.850 keep the design simple and robust the
00:10:08.210 00:10:08.220 first one is I just put in an or gate on
00:10:10.730 00:10:10.740 the door so you have a switch to turn it
00:10:13.010 00:10:13.020 off at the start you don't want that
00:10:14.329 00:10:14.339 door engaging before you started dumping
00:10:16.910 00:10:16.920 in your crude oil otherwise you're just
00:10:18.560 00:10:18.570 going to be super heating the air in
00:10:19.940 00:10:19.950 here to four hundred and three degrees
00:10:21.290 00:10:21.300 and I don't like dumping four hundred
00:10:23.180 00:10:23.190 three degree air into my base so putting
00:10:24.860 00:10:24.870 in a an or gate hooked up to the
00:10:27.170 00:10:27.180 temperature sensor as well this way when
00:10:29.480 00:10:29.490 I turn this on it will start work once I
00:10:31.550 00:10:31.560 turned this switch to the on position it
00:10:34.970 00:10:34.980 can potentially allow the door to close
00:10:36.380 00:10:36.390 and so long as the thermal sensor agrees
00:10:38.389 00:10:38.399 they'll both let the door close and in
00:10:39.800 00:10:39.810 check the heat the second one is a
00:10:42.550 00:10:42.560 little bit of automation hooked up to
00:10:44.540 00:10:44.550 the liquid pump once a liquid pump the
00:10:47.569 00:10:47.579 actual a liquid shut off I don't want
00:10:50.090 00:10:50.100 the oil coming in or maybe at some point
00:10:52.160 00:10:52.170 I want to shut this off assuming I have
00:10:53.840 00:10:53.850 too much petroleum or there's some sort
00:10:56.000 00:10:56.010 of issue I want to fix to do maintenance
00:10:58.060 00:10:58.070 this switch here allows me to turn off
00:11:00.079 00:11:00.089 the crude oil being dropped in so I can
00:11:02.090 00:11:02.100 effectively shut down the design
00:11:04.220 00:11:04.230 now to know a few notes on the design it
00:11:07.790 00:11:07.800 does take time to eat up you're gonna
00:11:09.140 00:11:09.150 run on a run this for about 20 cycles
00:11:10.850 00:11:10.860 before it's gonna hit perfect efficiency
00:11:12.890 00:11:12.900 and the crude oil will used to be
00:11:15.890 00:11:15.900 preheated up to about three hundred and
00:11:17.270 00:11:17.280 eighty-five degrees by the time it gets
00:11:18.740 00:11:18.750 in there assuming you're using this
00:11:20.120 00:11:20.130 design there is actually a few things I
00:11:23.210 00:11:23.220 want to try to actually improve the
00:11:24.290 00:11:24.300 efficiency but I was quite happy with
00:11:25.790 00:11:25.800 the design and I torture tested it so it
00:11:27.260 00:11:27.270 fully so I'm not gonna try any of the
00:11:28.730 00:11:28.740 things I mentioned any things I'm
00:11:30.410 00:11:30.420 planning on implementing in future
00:11:32.120 00:11:32.130 designs just this should do plenty for
00:11:35.540 00:11:35.550 all of your petroleum boiling needs of
00:11:38.570 00:11:38.580 course there's always a few caveats with
00:11:40.160 00:11:40.170 every testing this was tested on
00:11:42.770 00:11:42.780 SuperSpeed so I don't know if that
00:11:44.630 00:11:44.640 caused any issues it shouldn't but I
00:11:46.640 00:11:46.650 just thought I'd mention it just in case
00:11:48.020 00:11:48.030 you think it might be a problem secondly
00:11:50.210 00:11:50.220 I've only tested this at ten kilos per
00:11:52.310 00:11:52.320 second I ran a brief test for about
00:11:54.560 00:11:54.570 twenty cycles with 6.6 kilos per second
00:11:57.050 00:11:57.060 it kept functioning it's just the output
00:11:58.850 00:11:58.860 dropped off I haven't actually torture
00:12:02.420 00:12:02.430 tested anything less than ten kilos so I
00:12:04.100 00:12:04.110 I'm not aware of any problems or can't
00:12:06.260 00:12:06.270 think of any problems that could be
00:12:07.610 00:12:07.620 caused by running this at lower than ten
00:12:09.260 00:12:09.270 kilos but I just thought I'd make let
00:12:11.780 00:12:11.790 you make you aware that information in
00:12:13.340 00:12:13.350 case that influences your decision to
00:12:15.200 00:12:15.210 utilize this or not next up we'll just
00:12:17.480 00:12:17.490 cover using a thermal aqua tuner in this
00:12:19.310 00:12:19.320 and after that I'll cover how to fill
00:12:20.930 00:12:20.940 your magma tank without blowing up your
00:12:22.640 00:12:22.650 base okay so all I've done here is I've
00:12:26.480 00:12:26.490 ripped at the igneous rock eastream
00:12:29.060 00:12:29.070 magma and I've replaced it with an aqua
00:12:31.040 00:12:31.050 tuner made of no-bid iam or yeah nobody
00:12:33.650 00:12:33.660 I'm backing you up to 500 degrees so you
00:12:36.230 00:12:36.240 simply slot one of those in here and set
00:12:39.620 00:12:39.630 a temperature sensor hooked up to the
00:12:41.030 00:12:41.040 Aqua tuner to keep the temperature in
00:12:42.470 00:12:42.480 here I've set it to a 450 450 degrees
00:12:44.690 00:12:44.700 seems plenty
00:12:46.360 00:12:46.370 I'm running super coolant through this
00:12:48.530 00:12:48.540 you can also run water through it but it
00:12:50.510 00:12:50.520 will be less energy efficient by running
00:12:52.760 00:12:52.770 super coolant through this the average
00:12:54.050 00:12:54.060 what had you according to my notes is
00:12:55.960 00:12:55.970 you use about 350 watts to keep this
00:12:58.940 00:12:58.950 running or to to inject enough heating
00:13:01.250 00:13:01.260 into this to keep ten kilos of crude oil
00:13:03.590 00:13:03.600 converting constantly if you don't have
00:13:06.530 00:13:06.540 super coolant to run through this you
00:13:08.330 00:13:08.340 can run water but that will increase
00:13:10.370 00:13:10.380 your power draw to about 700 watts
00:13:13.389 00:13:13.399 so by and large it's pretty
00:13:15.650 00:13:15.660 energy-efficient at that point I've got
00:13:17.000 00:13:17.010 the reports here let's go back power
00:13:20.329 00:13:20.339 usage the running super : shield you'll
00:13:23.780 00:13:23.790 actually be using less power on the a
00:13:25.220 00:13:25.230 questioner than you would on the two
00:13:26.420 00:13:26.430 liquid pumps it takes to pump liquid in
00:13:28.160 00:13:28.170 and out of the actual oil boiler now in
00:13:30.769 00:13:30.779 real life testing you're going to need
00:13:31.970 00:13:31.980 power for the actual oil wells as well
00:13:34.220 00:13:34.230 and power for the water saves you can
00:13:38.060 00:13:38.070 actually cut down on the energy usage if
00:13:40.009 00:13:40.019 you say I have this feed instead of
00:13:41.480 00:13:41.490 having this drop down to a liquid pump
00:13:43.100 00:13:43.110 you could maybe drop it into a storage
00:13:44.420 00:13:44.430 tank in fact if I had been thinking
00:13:45.949 00:13:45.959 ahead I would have put two petroleum on
00:13:47.240 00:13:47.250 this side and I could have just dripped
00:13:48.410 00:13:48.420 it straight in and cut out one water put
00:13:50.449 00:13:50.459 one liquid pump from the design depends
00:13:53.329 00:13:53.339 on your map the space you have where
00:13:55.129 00:13:55.139 you're gonna place it all of that but
00:13:57.110 00:13:57.120 it's generally quite energy efficient
00:13:58.819 00:13:58.829 and should give you quite a net positive
00:14:00.439 00:14:00.449 of power to work with they're cooling
00:14:02.569 00:14:02.579 here I'm just dumping that into this
00:14:03.860 00:14:03.870 water tank I just ran some running
00:14:05.540 00:14:05.550 piping just to dispose of the cooling
00:14:07.280 00:14:07.290 you'd probably want to use the cooling
00:14:08.900 00:14:08.910 from this for something useful
00:14:10.540 00:14:10.550 worst-case scenario you can always just
00:14:12.500 00:14:12.510 cool the petroleum coming out of here so
00:14:14.420 00:14:14.430 it can be even cooler than before well
00:14:16.759 00:14:16.769 one last note the reason one of the
00:14:19.090 00:14:19.100 strong reasons for running at this long
00:14:21.319 00:14:21.329 and having your your petroleum output so
00:14:23.870 00:14:23.880 cool is I intend on running this
00:14:25.819 00:14:25.829 petroleum through metal refineries and
00:14:27.980 00:14:27.990 dumping heat into it before I destroy it
00:14:30.139 00:14:30.149 in my power plants that's one of the
00:14:32.199 00:14:32.209 best reasons for building releases the
00:14:35.329 00:14:35.339 petroleum that comes out of here is cool
00:14:36.620 00:14:36.630 enough that you can still dump it into a
00:14:38.560 00:14:38.570 integral metal refineries and so long as
00:14:41.090 00:14:41.100 it comes out below 125 degrees you can
00:14:43.130 00:14:43.140 actually store it in gold amalgam liquid
00:14:46.189 00:14:46.199 tanks it's just generally a lot easier
00:14:49.130 00:14:49.140 to deal with cool petroleum as well as
00:14:51.889 00:14:51.899 that if your petroleum is coming out of
00:14:53.180 00:14:53.190 here at hotter than 275 degrees you
00:14:56.660 00:14:56.670 won't actually be able to use a liquid
00:14:57.920 00:14:57.930 pump to extract it so well until you get
00:15:00.620 00:15:00.630 to space but you wouldn't really want to
00:15:03.079 00:15:03.089 be using this design if you've already
00:15:04.819 00:15:04.829 got space material you could you could
00:15:06.170 00:15:06.180 probably come up with something a little
00:15:06.980 00:15:06.990 bit more efficient
00:15:08.510 00:15:08.520 but I like to design it this way so that
00:15:10.790 00:15:10.800 you could build it in the mid-game
00:15:11.840 00:15:11.850 and then you this in the moment
00:15:13.820 00:15:13.830 you've its basement space and you only
00:15:15.560 00:15:15.570 need a small amount or a relatively
00:15:17.510 00:15:17.520 small amount of space materials to just
00:15:19.610 00:15:19.620 plug into your original design meaning
00:15:21.320 00:15:21.330 there's no ripping things down and
00:15:22.670 00:15:22.680 building them back up again okay
00:15:25.910 00:15:25.920 let's cover how to fill a magma tank
00:15:28.570 00:15:28.580 dealing with the stuff is exceptionally
00:15:31.430 00:15:31.440 dangerous so what we have done over here
00:15:33.110 00:15:33.120 is we have tapped into and like a pile
00:15:36.020 00:15:36.030 of magma we have hooked it up with a
00:15:38.090 00:15:38.100 pitcher pump made of ceramic and we have
00:15:40.250 00:15:40.260 made sure that the room we are using is
00:15:41.780 00:15:41.790 a complete vacuum
00:15:42.710 00:15:42.720 I actually just built this here first
00:15:44.810 00:15:44.820 and then excavated the rest out so I
00:15:46.430 00:15:46.440 didn't have to use an air pump I just
00:15:48.950 00:15:48.960 basically built this entrance gateway
00:15:51.260 00:15:51.270 here and then once I started digging out
00:15:52.700 00:15:52.710 here there was no atmosphere to take up
00:15:54.140 00:15:54.150 any space a little bit of oil in here
00:15:56.210 00:15:56.220 mop that up but now that we have the
00:15:58.130 00:15:58.140 pitcher pump down we can literally just
00:16:00.020 00:16:00.030 transport magma around the place will
00:16:02.300 00:16:02.310 hurt the duplicants two-track carry it
00:16:04.070 00:16:04.080 but they'll recover and then we just
00:16:08.210 00:16:08.220 have a couple of pitcher pumps over here
00:16:09.440 00:16:09.450 or a couple of empties and we'll see who
00:16:13.070 00:16:13.080 is it magma there we go and let's make
00:16:15.590 00:16:15.600 that stupidly high priority and then a
00:16:17.810 00:16:17.820 below the bottling and it's copy those
00:16:19.610 00:16:19.620 settings over here perfect
00:16:24.020 00:16:24.030 now realistic you don't about four or
00:16:25.670 00:16:25.680 five of these because one duplicate can
00:16:27.350 00:16:27.360 carry about a thousand kilos at least
00:16:29.810 00:16:29.820 this one's only gonna pick up four
00:16:31.580 00:16:31.590 hundred kilos because that's the maximum
00:16:33.110 00:16:33.120 that's being requested and here comes
00:16:36.470 00:16:36.480 their duplicate for a nice magnet up
00:16:37.880 00:16:37.890 four hundred kilos yeah one thing it is
00:16:42.920 00:16:42.930 a bit of a long journey and just in case
00:16:45.020 00:16:45.030 at some point they decide it's lunchtime
00:16:46.790 00:16:46.800 I've basically sealed off areas on
00:16:49.160 00:16:49.170 ladders and stuff like that where they
00:16:50.360 00:16:50.370 could accidentally drop it into liquids
00:16:51.890 00:16:51.900 or somewhere that could be awkward I
00:16:53.930 00:16:53.940 can't do anything about the liquid locks
00:16:55.520 00:16:55.530 you just gotta get a little hope you
00:16:57.560 00:16:57.570 don't get caught there because if they
00:16:59.240 00:16:59.250 good call to lunch folder in the middle
00:17:00.500 00:17:00.510 of a delivery it does cause problems now
00:17:06.620 00:17:06.630 we're checking them their health is one
00:17:08.120 00:17:08.130 hundred hundred no bothers perfect so
00:17:12.980 00:17:12.990 this is what allows you to actually fill
00:17:14.690 00:17:14.700 one of these magnetics without having
00:17:16.910 00:17:16.920 access to a volcano you can just use
00:17:18.800 00:17:18.810 geothermal magma
00:17:20.540 00:17:20.550 it's just as good it'll do the job it's
00:17:22.310 00:17:22.320 actually slightly cooler but this has
00:17:24.350 00:17:24.360 been tested thoroughly with weaker magma
00:17:26.630 00:17:26.640 so it will work fine for at least 350
00:17:29.300 00:17:29.310 cycles that is the minimum you will get
00:17:31.190 00:17:31.200 out of this and that's assuming you're
00:17:32.840 00:17:32.850 pumping 10 kilos of Krewe of crude oil
00:17:35.210 00:17:35.220 through it a second so this will last
00:17:37.460 00:17:37.470 you 300 50 cycles minimum at which point
00:17:39.950 00:17:39.960 you should have already hit space if not
00:17:41.540 00:17:41.550 you'll have to fill it a second time one
00:17:44.060 00:17:44.070 last note it might be idea to put four
00:17:45.770 00:17:45.780 bottle empty here it'll just speed up
00:17:47.600 00:17:47.610 the filling process otherwise this is
00:17:49.070 00:17:49.080 gonna take about 15 cycles and great add
00:17:51.800 00:17:51.810 records got in again take it everywhere
00:17:54.820 00:17:54.830 a few last notes you don't need to turn
00:17:58.220 00:17:58.230 this into a vacuum there's no need to
00:17:59.870 00:17:59.880 vacuum this place out um yes I left that
00:18:03.770 00:18:03.780 vent there it's a hydrogen event it's
00:18:05.000 00:18:05.010 completely useless so that's why it was
00:18:06.590 00:18:06.600 left in there um additionally all wells
00:18:11.320 00:18:11.330 yeah you can
00:18:12.890 00:18:12.900 sometimes when you get one oil on a map
00:18:14.780 00:18:14.790 and if you have only one oil well this
00:18:16.340 00:18:16.350 may not be in your best interest to use
00:18:18.020 00:18:18.030 however there's normally enough oil on a
00:18:20.870 00:18:20.880 map I think it's about just what usually
00:18:23.240 00:18:23.250 well over 100 1000 to 1500 tons of oil
00:18:26.780 00:18:26.790 already so assume you've got access to
00:18:29.420 00:18:29.430 that it's usually pretty decent too
00:18:31.430 00:18:31.440 decent to investment to build one of
00:18:33.170 00:18:33.180 these if you don't have say five or six
00:18:35.870 00:18:35.880 natural gas geysers lying around your
00:18:37.160 00:18:37.170 map this is by far the most efficient
00:18:39.260 00:18:39.270 way to generate huge amounts of power
00:18:40.610 00:18:40.620 but unless you've already got access to
00:18:42.620 00:18:42.630 space and can put down lots and lots of
00:18:45.170 00:18:45.180 solar panels but doing it this way you
00:18:48.320 00:18:48.330 you don't need to be anywhere in your
00:18:49.850 00:18:49.860 space to actually get you do need to be
00:18:51.860 00:18:51.870 anywhere in your space at all to
00:18:53.090 00:18:53.100 actually generate enough power and do
00:18:55.400 00:18:55.410 all the things you need to do to get
00:18:56.750 00:18:56.760 into the very late game

Sales phone