Foreword

This tutorial applies toAfter making the UHV energy storage, you can use dual-chamber boostCulture medium formula requiring UEV voltage.

The method used in this tutorialis not the optimal solution for biological cell production, pleasejudge according to the actual situationwhether this tutorial is needed.

parse loop

By viewing the formula through emi, we can know that there are two small cycles in the production of biological cells, namely the culture medium and biological culture medium cycle, and the biological culture medium and biological cell cycle. The two cycles are shown in Figure 1.

Balance

By balancing with simple mathematical operations, we can get the flowchart shown in Figure 2.

It can be seen that the whole system only needs input

• 1B Mutagen

• 100B Biomass

• 20 Glutamine Powder

• 160 Cetus T star E Algae Extract

Can output 7280 biological cells.

In order to start the production line within the subnet, we need to

• 1B biological culture medium

• 8560 biological cells

build machine

The required machines include large culture tanks, biochemical reaction chambers, and large breweries. Arrange them according to personal preference, or refer to Figure 3 to align them directly in a line.

Configure network

ME warehouse room

First, create a wireless subnet, which is called a biological cell network here.

Place 2 ME Input Buses, ME Template Assembly, and ME Output Assembly in a large culture tank. All spray the same color, except for one ME Input Bus, the others connect to the biological cell network. The ME Input Bus is labeled 8560 biological cells. The remaining one ME Input Bus connects to the main network, labeled with a certain number of Frostland Shards.

Place the ME input chamber, ME sample assembly, and ME output assembly in the biochemical reaction chamber. Spray all with the same color, then connect to the biological cell network. ME input chamber labeled with 1B biological culture medium.

Large Brewery Place ME Pattern Assembly, ME Output Assembly, connect to Biological Cell Network.

network subject

Refer to the figure below for the network main body.

The left side of the green ME cable is the ME output bus, and below it is the ME super large interface.

ME output bus facing the extended ME interface, below the extended ME interface is the ME sample supplier.

Default cable is the main network, green cable is the biological cell subnet.

Place one 256K item and one fluid hard drive in the ME drive.

The front of the green ME cable can hold one ME terminal, which will be used later.

Template Writing

• Subnet Template Supplier: 100B Biomass + 1B Mutagen + 160 Cetus + 20 Glutamine Powder = 7280 Biological Cells

• Biochemical Reaction Chamber: 100B Biomass + 1B Mutagen + 20 Glutamine Powder = 100B Culture Medium

• Large Culture Tank: 100B Culture Medium + 160 Cetus = 100B Biological Medium

• Large Brewery: 0.1B Biological Medium = 0.1B Sterilized Biological Medium

• Large Culture Tank: 99B Sterilized Biological Medium = 15840 Biological Cells

Just put it into the machine.

final step

ME output bus inserts a synthesis card, marks biological cells, first link the chambers that mark the biological culture medium and biological cells to the main network, after items are extracted into the chamber, you can reconnect to the biological cell network.