![]() Just know that this output line will merge with the 30 pipeline before it spans the bottom of the build. This will come from the aluminum scrap refinery output line, which we will place next. So we will need to find another 90 water from another section of the build. At this point we will have merged 210 water for these refineries. This pipe will then run across the bottom of the build to the bottom right hand corner where it will merge with the 180 water from the blenders. I’ve done this with a simple split using valves to limit the amount of flow to 30 water per minute. The second water pipe will be taking 30 water from the 60 water line. Make sure to use valves to control the direction of the water. This pipe will hold 180 water per minute and this pipe will need to merge with another water line prior to entering the sulfuric acid line. We will run the output pipes from the blenders around to the right of the build and then down the side of the sulfuric acid refineries. However, it is important to set the water lines up ready for that moment. We will create a loop to recycle the water from the batteries, but that will require us to over saturate the input water line until the factory is up and running. For these refineries we will need a total of 300 water per minute. The water in this build is once again the complicated part. On the input side we will run the 300 sulphur along a raised manifold. These refineries will be set to sulfuric acid and set to 100% clockspeed. For this I’m using a double manifold with the outputs merging into a tier two pipe that will run a manifold into the blenders. I’ve placed these in the right of the build. Six of these will be creating sulfuric acid. Part 3 – Sulfuric Acid Refinery PlacementĪt this point we need to place a total of 11 refineries. However, before moving onto the refineries, makesure this raised manifold line runs along the foundry line depositing the silica to help produce the aluminium ingots. The 50 silica output will wrap back round to the input side where it will merge on a raised manifold with the silica from the refineries we will place next. Run the input of 30 raw quartz up along the fourth column. We will require a total of 50 silica per minute so underclock the two accordingly. These will also be facing the top of the build and will be turning raw quartz into silica. Half a foundation across from these two constructors, we will place another two constructors. ![]() These two constructors will output 120 aluminum casing per minute and these will run a manifold feeding the 6 blenders. These two will be set to aluminum casing and should be fed by a merging line from the aluminium ingot line. I’ve placed these spanning the sixth and seventh row. We will then place two constructors spanning the first and second column facing the top of the build. Again these will run at 100% clockspeed with a total output of 180 aluminium ingots. These three foundries will be set to aluminium ingots. First place three foundries in the bottom left hand corner with the outputs facing the left of the build. Next we shall place the foundries and constructors. Each of these blenders will be set to batteries at 100% clockspeed. For me, I’ve placed two foundations space in the top section to allow for buses and pipes. Step one of this build is to place all six blenders across the top of the build with the outputs also facing the top of the build. For the ease of the build it may be easier to run only Mk5 belts to do this you will need alclad aluminum sheets – Thankfully we covered these in last weeks guide, 300 Aluminum Aclad Sheets. *Note we will need to use a mixture of belts according to the amount of resources required. We will also require resouces for the following buildings: The light blue box and pipe holds 60 water and the dark blue 600 water. These can be located on our 17 x 15 grid by the pink, black, brown and blue boxes. This Satisfactory build guide has been produced to help you understand how to produce 120 batteries per minute in a manufacturing line, whilst getting to grips with water looping throughout the aluminium process. This guide will include a video, as well as photos to help break down the build for you.įor this build we will require the following raw resources: Unfortunately to run these we require batteries, so in this super efficient build guide, we'll be looking at how to easily produce 120 batteries per minute. ![]() Update 4 brought with it drones that allow us to transport resources quickly, over long distances. 120 Batteries Per Minute - Efficient Build Guide ![]()
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