Minecraft Mechanical Mastery | ESSENCE OF DARKNESS & BLACK HDPE! #16 [Modded Questing Skyblock]

In the last stream we were working on setting up this mechanism turbine right here to allow us to process all of the steam that is being generated by our fission reactor and in turn produce 350 000 Redstone flux per tick that basically completes out the tier 4

Questline in terms of the quests that we have to do and really gets us started with tier 5. and what I want to work on in today’s episode is moving through this section of the quest book towards getting antimatter pellets now to do that we have to set up a super critical

Phase shifter that is this process right here the supercritical phase shifter is a fairly large multi-block structure from mechanism that is going to allow us to turn polonium into antimatter the polonium we can get from nuclear waste and the nuclear waste we can of course generate from our fission reactor now

The reason that currently the fission reactor is offline and the turbine casing is also offline is that right now we don’t have aware of disposing of that nuclear waste right now we just have a couple of radioactive waste barrels and if we were to just leave this running the radioactive waist barrels would

Fairly quickly fill up with nuclear waste then once the nuclear waste started to back up in the fission reactor it would overheat meltdown and things would end badly So the plan is to hopefully automate A system that allows us to fully get rid of that nuclear

Waste what we should be able to do is turn our nuclear waste into polonium using a solar Neutron activator and then use that polonium in order to make antimatter and then we can use the antimatter to make antimatter pellets and then we can just store the antimatter pellets for the time being

Until we need them later on in the pack in order to make the final star and as a byproduct of making those antimatter pellets we’re also going to get a continuous supply of 350 000 Redstone flux per tick that we can use to expand our automation going forward now in

Order to make the supercritical phase shifter we need 60 SPS casing 123 structural glass this is easy enough we’ve made a ton of it our system knows how to make it we need three SPS ports and we need at least one supercharged coil now the SPs ports also require

Casing and so I believe the actual number of SPS casing that we need is 72 and so in order to make 72 SPS casing we are going to need 288 polonium pellets 288 black HDPE sheets and of course 72 plutonium pellets the plutonium pellets are where we’re going to start here not

Only because they’re the thing we need the fewest of but also because they are the thing that we can currently make with the Machinery currently available the isotopic center fuse we’ve made before it’s the machine that’s currently making us fissile fuel can be used to turn nuclear waste into plutonium and

Then we can use another pressurized reaction chamber with some water and some fluorite dust to turn that plutonium into plutonium pellets with a byproduct of spent nuclear waste which as I mentioned in a previous episode in this pack you can turn into stable spent nuclear waste which can then be deleted

Which is a very nice indeed normally you just have to store that spent nuclear waste in nuclear barrels somewhere and either have enough barrels to where you never fill them up or have enough barrels to wear the one Milli bucket per second to cure it is fast enough to get

Rid of all of your nuclear waste but for us not something we have to worry about between streams I did go ahead and craft up another pressurized reaction chamber and another isotopic centrifuge and so it should be as simple as kind of extracting the nuclear waste from these radioactive barrels here running them

Through the isotopic centrifuge which I’m gonna put down right about here and then we’ll have that go directly into the pressurized reaction chamber and then I think we will probably just put another storage drop down on the front of this for the time being again we only

Need 72 plutonium and once we have that we can kind of turn this system off and pivot over to trying to make the polonium the trouble with the polonium is that it requires a solar Neutron activator which is a machine that we don’t have yet and that machine that we

Don’t have requires black HDPE sheets which is a resource that we don’t currently have yet so I’m going to set this up I’m going to get this going I have a feeling that we are almost certainly going to have to make our fission reactor substantially bigger in

Order to process more fissile fuel and produce more nuclear waste because just looking at some of the numbers here if we want to make 288 polonium pellets each polonium pellet requires a thousand milliwockets of polonium and each millibocket of polonium requires 10 millibockets of nuclear waste and so for

Every polenium pellet we make we need 10 000 Milli buckets of nuclear waste and so if we need 2 288 of these polonium pellets we need 2.8 million almost 2.9 Million millibockets of nuclear waste and given that right now we’re only producing 10 millibockets per tick of

Nuclear waste at the mix that’s when we’re burning the maximum amount of fissile fuel that this reactor can burn it’s going to take a long time to get to almost 3 million millibockets so we’re almost certainly going to have to make that bigger but for the time being let’s

Not get too distracted what I think I’m gonna do real quick these are all empty so it doesn’t really matter too much if we break one but I think ideally what I would like to do here is kind of keep these down as a buffer I don’t foresee

Us running into a problem where we have too much nuclear waste I think we should be fine especially if we get I think it’s an enrichment chamber a purification chair but let me quickly go and request that our system make a purification chamber for us request

While we have that to come in let’s go and let’s grab a few more of the pressurized tubes again they don’t need to be ultimate pressurized tubes because we’re not really talking about that much ganks here but essentially what I think I’m going to do is I’m going to put

These down on the bottom of the barrels which I think you can extract from and then we’ll just set these to extract and extract and then we’re going to run those up around over into the isotopic centrifuge alright so there is our purification chamber over here all of

The nuclear waste panels have been set to extract from the bottom up and around into the isotopic centrifuge this is set to input from the bottom and it’s set to Output to the front with auto eject on let’s go ahead and drop down a flux point and of course make sure that is

Set to our Network and then as per usual we can connect our machines up to that I think what we might do here is put the purification chamber down directly next to the pressurized reaction chamber and then potentially do something like this to get power to both of these here the

Bank is set to input gas which is correct this does also require water if we’re going to make the plutonium that is fine we can get another Ender tank and connect that up to our water frequency and then all we need to do is make sure that in here the output gas is

Set to Output to the left Auto eject is on here we have input for gases set to the right that is correct and so I think it should just be a case of exporting obsidian to the purification chamber and fluorite dust to the pressurized reaction chamber at which point we

Should be good to turn this machine on and get this going as per usual it’s quite possible we might need a couple of speed and energy upgrades really just depending on how fast the isotopic centrifuge is relative to the fission reactor but let’s get a couple of low retrieval modules down connected to

These mechanism machines and let’s see if we can’t get this plutonium up and running so going into the purification chamber here we want obsidian like so and then for the pressurized reaction chamber we actually need a Crusher to go down first and it’s the crusher that needs the lower retrieval module here

Because we have to crush the fluoride into fluorite dust so we’ll place the crusher down there we’ll make sure it is connected up I am now realizing that we’ve kind of completely blocked off the PRC here from getting water I think we’re going to have to give it that from

The bottom but that should be fine let’s go ahead and kind of move this pipe just a little bit and then if we grab some basic mechanical pipes which again I think should be more than fast enough to make this work we can put our tank down

Like so set that to extract and then just connect this back up underneath like so of course give this yet another low retrieval module and tell you to retrieve fluoride again up into the crusher the crusher needs to be set to input from the bottom it is an output to

The left Auto eject on and I think that should just kind of work so long as everything here is set up correctly that needs to be set to input to the bottom as well and like I mentioned before we might need a couple of speed and energy

Upgrades but uh let’s give this a go if we turn this on it’s going to start burning Face Off fuel it’s going to start producing Steam and hopefully we can start to see some of the nuclear waste here make its way around into the isotopic centrifuge oh that’s my bad I

Just didn’t connect this up at the bottom there we go now we should see some nuclear waste making its way around into the isotopic centrifuge we can and then in here it’s slowly but surely being turned into plutonium you’ll see that we’re actually doing just fine like

We’re producing such a small amount of nuclear waste that even without any speed and energy upgrades the isotopic centrifuge is keeping up just fine because we’re producing 10 millibockets per tick so again we definitely probably almost certainly want to look at um at upgrading our reactor just making it

Bigger if we can let’s also make sure that you are set to input on the right there so you can actually receive the flower dust so that eventually it will start making those plutonium pellets again let’s set the front to Output we’ll turn auto eject on and that’s going to push those plutonium

Pellets out of the front of the machine and then ideally I do want to make sure this works before we leave it alone because otherwise we could end up in a bad place if this starts to fill up on spent nuclear waste but ideally the spent nuclear waste should be ejected

Here you should be receiving obsidian I can’t help but notice that you’re not receiving obsidian and that is because I think when I changed the inputs sometimes this um like sometimes the cards pop out which I think is the problem there that hopefully should now receive some obsidian hopefully fairly

Quickly and so as this takes over to a thousand we should see it process into a plutonium pellet it does the spent nuclear waste is not being ejected all right so a little bit of testing later and I have come to the conclusion that I think this recipe just doesn’t work it

Does say disabled in Brackets before it says save for storage or disposal but it also is a recipe from Cube JS cube.js is the mod that allows pack makers to add custom recipes like this recipe here is also from cubejs and so I was under the impression that this was a recipe added

By the pet creator for this pack and that even though it says disabled it might still work turns out it doesn’t work you can’t put the spent nuclear waste into the purification chamber at least I’ve not been able to in my testing world and so I think what we are

Going to have to do here is use a staggering number of radioactive waste barrels to get rid of all of the spent nuclear waste so as we’ve mentioned before each radioactive wear Sparrow has a Decay rate of one millibocket per second and over here we have a consumption rate of however many

Millibockets that we want to burn per tick there are 20 ticks per second in Minecraft and so essentially we just have to multiply whatever number we have here by 20 and that is how many waste barrels we are going to need in order to effectively dissipate all of the spent

Nuclear waste without it backing up and causing radiation to leak all over the base never mind that is not actually true because of the fact that right here there is a a ten to one ratio so we get one millibocket of nuclear waste for every one millibocket of fissile fuel

That part is correct however it takes 10 Milli wickets of nuclear waste to make one Milli bucket of plutonium or polonium and then the 1000 millibockets of plutonium make 1000 ml buckets all that spent nuclear waste and so I think that it’s actually less I think we need

Two times as many so if we have 10 Milli buckets per tequila I think 20 barrels should be able to get rid of that because essentially here every second we turn 200 millibockets of fissile fuel into 200 millibockets of nuclear waste but then over here in the isotopic centrifuge that 200 millibockets of

Nuclear waste gets turned into 20 millibockets of plutonium and then that 20 millibockets of plutonium gets turned into 20 Milli buckets of spent nuclear waste and if we want to get rid of all of that in one second we need 20 barrels because each Barrel can get rid of one

Millibocket of spent nuclear waste per second and so that’s actually gonna be substantially easier for us than what I thought which is that we would need 200 plus Barrels in order to make this work and so what I think we can probably do in that case then is go ahead and make a

Bunch more of these radioactive waste barrels which in all honesty are not that difficult to make it’s just land and a steel we could have made 200 of these if we needed to I am going to craft a stack of those we’ve got a ton

Of lead and a ton of Steel and we’re going to make more and replenish that almost instantaneously I did mention earlier that I do want to increase the red that we’re burning fessile fuel that is something we’ll probably look at doing whilst we’ve got the HDPE up and

Running but for the time being let’s just go ahead and put down at least 20 of these radioactive waist barrels down here we have one two three four five six seven eight nine ten eleven twelve thirteen and so we’re just doing two rows of there which I think we can do

With the wand we totally can should get rid of all of the spent nuclear waste that we’re producing if my arithmetic is correct so we no longer need this enrichment chamber here it is not going to do anything so we can get rid of you

We of course do want to make sure that this guy continues to get power and so instead I think what we’ll do is we’ll just have we do also need to make sure that that does stay connected actually before I progress here let’s do that and

Then I think what we’ll do is we’ll see about crafting a couple more of these basic pressurized tubes which of course do require glass which I think we might actually have over here we do indeed fantastic can I get a couple of those 55 is going to be more than enough and then

All we’ll do is just connect those up to these radioactive waste barrels and I think annoyingly despite the fact that I’ve just put them down right up against the roof I think you actually do have to insert to the top of these barrels and so real quick I might have to uh alter

Mine all of these and place them down one block lower all right so all of the waste barrels are down we’ve got 26 down right now and they’re all connected up to basic pressurized tubes and so up on the surface here we should be able to place down this pipe right here and

Hopefully we should then begin to see yep all of the nuclear waste gets ejected it should then be dispersed amongst all of these barrels right here of course right now we have a little bit of a backlogger so there is a little bit of waste hanging around in here but

Hopefully this should work so let’s have a look if I go and click activate that’s going to start running I do notice that oh it’s just a visual glitch I was going to say that the Ender tank is out of water which would have been a problem

For us because we need the PRC here to keep keep working but what we should see down here I think is basically none of these gaining any nuclear waste and they’re not you’ll see that we are still losing nuclear waste despite the fact that we should be producing more again

That could be due to the fact that this kind of produces a thousand in a big batch now that I think about it so it doesn’t actually come in at a certain number of Milli buckets per tick it comes in one big bench where we get a thousand Milli buckets of nuclear waste

And then it’s slowly but surely needs to be dispersed but in theory we should be able to get rid of 1000 Milli buckets of nuclear waste before the PRC is able to produce another thousand Milli buckets of nuclear waste and so this should be pretty much good to go I am going to

Check up on it once or twice just to make sure that we’re not backing up on spent nuclear waste I think my calculations are correct but if they’re not they could end in disaster but uh while we wait for that disaster to potentially strike we can now look at

Automating the production of HDPE so that we can get our first solar Neutron activator so that we can pivot over to polonium once the plutonium here is done so in order for this to work the HDPE here is made by placing some HDPE pellets into an enrichment chamber You

Can Craft eight HDPE pellets into one sheet however it’s more efficient to do it with the enrichment chamber and of course we can request that our system make an enrichment chamber for us so that is not going to be a problem whatsoever the harder part is actually making the HDPE pellets these require

Yet another pressurized reaction chamber in the pressurized reaction chamber we need liquid ethylene we need oxygen and we need substrate so I’ll bookmark all three of those oxygen we can of course get from an electronic separator we just have to give it some water the substrate here we get in another pressurized

Reaction chamber this time with biofuel you can use this recipe here to duplicate substrate but I don’t think it’s gonna be worth it because we need this ethylene here for the production of HDPE pellets so I think we’re gonna go with the top recipe which is water plus

Hydrogen and biofuel biofuel you can get by essentially crushing down any kind of plant matter in the crusher we already have wheat automated over here and so I think what we might look at doing is potentially increasing the speed of the phytogenic insulator with some augments and some integral components and then

Siphoning off some of this wheat to be turned into substrate and locally as a byproduct of making the substrate with the biofuel the hydrogen and the water you get ethylene the ethylene that you get is in gas form so we are going to have to run that through a rotary

Condenser Tracer to turn the gas form of ethylene into liquid ethylene which is a liquid it’s like water will move through the mechanical pipes not the pressurized tubes and then that liquid ethylene is what we need along with oxygen to make the substrate so for the hydrogen and

Oxygen we can of course once again request our system make photos and electrolytic separator while we went for that we do need two more of these plcs which do in fact require two more in enrichment chamber so let’s request two more of those and is there anything else

We don’t have we do need some basic chemical tanks that is fine we’ll drop all of those into the system and then we’ll probably have to request yeah some more basic control circuits and some more infused Alloys but none of that seems too difficult and so whilst I wait

For those enrichment Chambers to come in I think I will just quickly craft up a few more flux linkage amplifiers and an integral component to get our wheat production moving just that little bit faster all right so a little bit of Auto crafting later we have yet another reinforced intercore component with

Three more flux linkage amplifiers which is hopefully gonna increase the speed at which we produce the wheat here and then I’ve gone ahead and requested that our system produce a couple of machines for us we have a Crusher along with three enrichment Chambers two of those enrichment Chambers are for the prc’s

Here one and it’s too fantastic and then the other of course is for the final production of the HDPE sheets and then on top of that we also need a rotary condensing tray to this guy right here which I think we should be able to make never mind it’s not working however I’m

Not quite sure why it could be the tank full of water it could also be that we might not have a basic chemical tank spare so let’s quickly try that once again that is still not working it thinks it needs for glass despite the

Fact that I have four glass on me and so I am really not too sure why that’s not working let me try craft that manually and see if that works it does not quite sure why that wasn’t crafting through the storage scanner but either way back over here we should now

Be able to start putting this all together so what I think we will do is we’ll put the crochet down potentially right about here that way it’s going to get some power from this flux point and it should also get some of the wheat coming out of this draw here then what

We need to do is we need to take that and pop it around into our pressurized reaction chamber so we can start making the substrate so let’s have the PRC I guess go down directly beneath the crochet we can put it right about there that way we can set the output of the

Crochet to the bottom and we can set this to input from the top which it looks like it’s already doing by default then we need to get both hydrogen and water into this PRC and again looking ahead at the recipe for the HDPE pellet this is another PRC that requires oxygen

So I think what we’ll do is we’ll place down our electrolytic separator in the middle here between these two pressurized reaction Chambers again we can make sure that this does not connect at the back because I do not know what that is off the top of my head it looks

Like Send a flower which we do not want in our PRC and then in here we can just set the right side to Output number one which is the dark blue and the left side to Output the cyan Auto eject on as same with the gas here actually we want the

Dark blue going to the right and the light blue going to the left because the dark blue is hydrogen in the light blue is oxygen that’s all good from there we just need some basic mechanical pipes which it looks like we do have good stuff and all we should have to do is

Kind of pull from here round and into the electrolytic separator nice and I guess at the same time we can also do this as well because the PRC also requires water then if we hook all of this up to power like so we should start to see the electronic separator turning water into

Hydrogen and oxygen the hydrogen is going to make its way over here and start producing the substrate the oxygen should be going over to the right here although this potentially yeah needs to have its a gas input set to the right as well that is fine over here the PRC is

Somehow getting power I’m not actually quite sure oh there’s a flux Point behind it look at that that’s very convenient I did not know that that was the case but that’s fine we’re making substrate and we’re making ethylene so we need to do kind of two things here

Because we need to extract both the ethylene and the substrate and we need to send them both to the same pressurized reaction chamber so what I think we will do it’s gonna get a little bit dicey here I guess potentially what I might do here is I might move the PRC

Because thinking about it we could extract the ethylene out of the bottom of this PRC put the rotary condenser Tahir turn that into liquid ethylene and then pump it into the pressurized reaction chamber but then that means that if we want to get the substrate out

Of here we’ve either got to go through the floor or we’ve got to go like out and around the room both of which are a little bit awkward and so what I think I might do instead is potentially move this PRC and the one and only time that

I want the carry-on mod to work of course it doesn’t work that’s fine let’s break this let’s place it down potentially right here it looks like it does retain its inventory which is very nice indeed and then we can just extract the substrate here from the front of

This PRC into the right of this PRC and then we can extract the ethylene kind of down around and up into here I think that’s going to be a tidier solution we might end up with some slightly more janky water pipes but we could always get another Ender tank if we really

Wanted to tidy up the the Jank on that front so I’m thinking we put our rotary condenser traitor right there we set the bottom here to extract with a basic pressurized pipe we make sure here that gas is set to Output at the bottom Auto eject is on and so the ethylene makes

Its way in there that is all good let’s run energy cable down to then and then let’s go turn the ethylene into liquid ethyl in which we can then extract with the mechanical pipe again if we set the front here to alter output like so that

Should then pump that up and around into our second PRC and then from there we just need to get ourselves a logistical transporter put that on the front of this PLC and now if we set this to Output items to the front with auto eject on that should hopefully push

These out and around into heal it does nice that is going to make for us the HDPE pellets and then from there we just need one in a Richmond Chamber which we can put right about here and again if we disconnect whatever is trying to go in there and instead set

This to Output items to the left with auto eject on that’s going to push the HDPE pellets over into the inner Richmond Chamber and the enrichment chamber is going to turn those HDPE pellets into HDPE sheets the only thing left to do here is run the water around

To the PRC and I guess the thing that I’ve not really thought about is the water to the electrolytic separator although again both of these systems can be made much tidier if I just go and craft two more ender tanks and there we go we now have one and a tank here on

The back pumping into the electrolytic separator which is set to input water on all sides that’s fine we do want to dump excess oxygen and excess hydrogen I think we’re probably going to use more hydrogen than oxygen but we can set both to dump just in case and we have a

Second tank here as well providing water to this PRC without a horrible pipe running across the front of all of this machinery and I think this is kind of just working I hope that we are still getting yeah enough wheat going around to keep our production over here oh we

Should be fine we’ve got 1 600 wheat flour backed up in this drawer so the whole dirt production there should continue to run just fine and over here we’re slowly virtually producing HDPE sheets which I think we will then pump up into a storage door is this one empty

It is indeed let’s again make sure that you do not connect and you also do not connect we can take all of the the wheat flour that we’ve just put in back out of there stick it back up in there set you here to Output to the top or to eject on

And that is going to slowly but surely continually produce HDPE sheets which is very nice indeed over here let’s just do a quick check and make sure that yeah we we are not at all backing up on spent nuclear waste all of these barrels are completely empty which is exactly what

We want to see and we are currently at a whopping 11 plutonium pellets and don’t forget we need 72 in order to progress on here so now that we have the HDPE sheets we can look at producing the black HDPE sheets so the way this works

Is we need to use black Iron which the quest book calls a unique super alloy nearly 100 immune to any type of radiation black Iron can be made in a metallurgical infuser with the newly unlocked essence of darkness and an iron ingot and so what I’ve gone ahead and

Done between streams is you guessed it I’ve set up yet another metallurgic infuser slash enrichment chamber setup this pipe here has nothing in the low retrieval module and so it just keeps sending uranium for some reason the whole idea here is that we are going to

Get yet another EMC link which we can request from our system and we’re going to add that to to the row of EMC links down below the platform and we’ll set up a draw somewhere most likely with a storage downgrade that is going to hold our essence of Darkness so we can just

Pump an unlimited amount of that into one of our storage drawers and then just like we’ve done previously for all of our other metallurgic infusers we can have all of that essence of Darkness sent around and up into the metallurgic infuser to allow it to automatically

Craft all of the black Iron that we’re going to need going forward much like with everything else the Redstone the Diamonds the coal you can enrich the essence of Darkness first now this does work a little differently to the other enrichments because here you actually have to run the essence of Darkness

Through a metallurgic infuser with refined obsidian which we do have of course all the way over here we have this uh here I should say we have this ready to go so we could potentially teach our system how to craft the enriched essence of darkness and then

Use that as the basis for producing all of our black Iron that’s probably worth doing and it does mean that I’ve made a mistake here by putting down another enrichment chamber this enrichment chamber is completely useless but either way if we take this Philosopher’s Stone

And we add it to the line of EMC links down here we should then be able to grab one essence of Darkness out of our storage scanner drop that into here set this to extract before we set that to extract let me make sure that I have

Allocated a draw to the essence of darkness and then down here let’s do something like this and you’ll see that we’re slowly but surely backing up on essence of Darkness from there all we need to do is teach our system with yet out of the crafting module and I did

Notice earlier we have a bunch of crafting modules hanging out in here for some reason but if we take those over here we should be able to add yet another crafting module to our refined obsidian metallurgic infuser and in here we’re going to say that one essence of

Darkness equals one enriched essence of Darkness so let’s start by putting the essence of darkness in right about there and then if we enrich that real quick foreign we can then place the enriched essence of Darkness as the output and of course we can add enriched essence of Darkness

To the crafting component wall of storage draws over here let’s do this and then finally all we need to do is over on our metallurgic infuser we actually need to take this retrieval module out of here get rid of this enrichment chamber place down yet another pretty pipe right about here put

The low retrieval module there and then place the enriched essence of Darkness going east into the metallurgic infuser that should in theory automatically request that enriched essence of Darkness be made over here which it is that enriched essence of Darkness should be sent around directly into the

Metallurgic infuser it is and then from there we can now add yet more crafting cards here in order to teach our system how to make that black Iron so the black Iron is quite simply one iron ingot in this methodological infuser so up here one iron ingot equals 1. black Iron

Right now it’s very slow that is fine we do have some energy upgrades those are not quite as useful as speed upgrades right now I will put them in and then I’ll just go ahead and request eight more speed upgrades as well so we can make that nice and fast because we are

Going to need quite a lot of black Iron for quite a lot of those blank HDPE sheets again we need 288 of those blank HDPE sheets in order to make the super critical phase shifter but this should be pretty much good to go let’s do something like that and then let’s of

Course go and add blank iron to the back wall as well we’ll throw you right about there next to the enriched essence of Darkness over here the speed upgrades are done let’s drop those into the metallurgic infuser fantastic and so now we should be good to go in terms of

Making black HDPE I guess the next step is kind of twofold it really depends on if we’re going to need that much black HDPE going forward we don’t 288 in order to make the SPs casing but after we have the supercritical phase shifter I really don’t think we’re going to need much

Black HDPE going forward so I don’t think it’s worth automating this the reason I’ve automated the black Iron is that the black Iron is needed a lot for a lot of the end game catalysts and components and Quantum compressors and basically everything involved in extended crafting which is the mod that

Adds the ultimate Singularity so we are going to need quite a bit of black Iron in order to make all of this stuff happen in order to make these Quantum compressors that require just a ton of black Iron so automating that definitely worth it automating the blank HDPE

Probably not we only need about 300 black HDPE for the entirety of the player through here and so I think what we can probably do is quickly request a stack of black Iron which of course should come in fairly quickly now that this methodological infuser is as fast

As it can be without a factory upgrade of course you can never be too fast so let’s just give that a quick tap to try and make that nice and quick and then once we have all 64 of those we can look at making our very first solar Neutron

Activator and then that of course is going to allow us to start making polonium now of course the trouble that we’re going to run into is our reactor size and of course this needs to be done up here I forgot completely let’s do this and this

Give that a quick tip again the thermal expansion machines do have kind of a hard limit on how much they can speed up by because there’s a limit on how fast the power can go in either way let’s turn the top there back on let’s put

That back in and let that make even more of the the kale site but uh we should have I think everything that we need to make the solar Neutron activator almost we need one more blank HDPE which we have it’s probably just in the Ender Chest here right it is indeed that’s

Fine there’s the quest a complete fantastic let’s go over here and then let’s request one you know what I’ll request 16 steel casings again just so we have a couple lying around that’s fine then let’s also go ahead and request two more Elite control circuits and two more reinforced Alloys once we

Have all of those it should be as simple as just shift clicking that in it is nice so that is the solar Neutron activator taken care of and we do get four more blank iron as a reward there which is I guess nice to have and so now

It’s just a case of getting all of the polonium pellets and the plutonium pellets required for the SPs casing because we’re almost certainly going to get enough HDPE in the time it takes to make all of the polonium and plutonium and so I’m not really too worried about

The 288 HDPE sheets um if needs to be we can always look and get doing more of that it looks like surprisingly oh of course I need to set the back of that to input gas in the front of this to export gas to Output to I think it is yes that

Is indeed correct that’s going to start outputting oxygen that’s going to keep that all going and so even without any speed energy upgrades I think this will be fine in terms of making us the 300 HDPE that we need the problem of course is this we’ve made 16 plutonium pellets

So far this episode we need 72 plutonium pellets and then we need 288 of the polonium pellets which are made in in almost the exact same way the only difference is that for the polonium pellets we just need the polonium which is made in the Solar Neutron activator

So we basically just swap out this isotopic centrifuge for a solar Neutron activator other than that the process is the same and the speed is going to be the same unless we make this fission reactor bigger Thank you Foreign