This tutorial is set by the author's setting without permission.
The first thing to say is that starting from the crystal processor, the difficulty of the game will increase the exponential speed. The specific manifestation is that the material demand and the scientific and technological routes grow at the same time. Therefore, it is now necessary to exit, and it will need liverity.Even if your planning is perfect, it takes a lot of time.
Then if you choose to continue playing, we must first discuss the main problems faced by Gray to the crystal processor at this stage:
The technology route is very long, especially the organic synthesis part
Because of the card technology, the first -level nuclear fusion, the first -level nuclear fusion, and the demand of various multi -square machines are very large
Then we to deal with these two problems, first of all, the first problem. Here I recommend a module AE2 University Extended Life
This module can add to the ME interface to up to three model expansion cards, which can increase the model capacity of the ME interface to 36 models of four rows, which can greatly save the number of machines and reduce the difficulty of wiring difficulty in the wiring difficulty.
Then we need to have a total of three large -scale chemical reactors to accelerate the chemical reactions. Why are three? Because the commonly used chemical reactions are divided into four types: those with no control circuit, with the 0 ~ 2 control circuit, without without with the number of control circuits, no without with the 0 ~ 2.The control circuit can be reacted normally in the chemical reactor with a control circuit. However, the three different control circuits require three different chemical reactors to be automated normally.
As for the automation of the chemical reactor, in fact, it is the same automation method as other multiple input port machines. I still teach everyone to build a way, because there are many multi -port input machines in the future., Put the picture first:
First of all, in the formula of large -scale chemical reactors, at most five fluids participate in synthesis, four fluid outputs. ThereforeThe output bus, the fluid input bus connects the output warehouse to remove the product. One of the need to mention here is that the input bus and the fluid input bus are best filled with four acceleration cards, because the original meaning of using a large chemical reactor is to accelerate chemistryThe response, if the reaction is accelerated but did not accelerate the process, then the best results will not be achieved.
After connecting here, let's consider the synthetic & input section. We use the ME two -in -one interface to connect a ME two -in -one port in the ME two -in -board interface here, and use the wrench to adjust the direction of the ME two -in -one interface, so that the arrows point to it in itThe ME two -in -one -in -one -in -one -in -the -type ME two -in -one port is mentioned here. Here is a mechanism of the ME interface. If there is a ME interface on the side of the ME interface, it will thenSend items/liquid.
Then use the ME storage bus and ME fluid storage bus to connect to the input bus and input warehouse, so that this sub -network can be stored in the input bus and input warehouse directly when receiving the item/liquid to ensure that the response is normal.
It is worth mentioning that in the figure, I use two ME two -in -one portlands, so that they can store up to 72 models at the same time, but if the ME controller is not configured at the input place, it can only be placed at most two ME two -in -one one -in -mouth port.Because the ME two-in-one interface covering the type of the board is occupied by one channel, and then the five ME fluid storage bus and a ME storage bus account for a total of six channels, 8-6 = 2, so only two can be placed at most.
There is also a small detail that the ME interface does not transmit electricity, so you also need to use quartz fiber to power the sub -network.
One of the problems of this problem, let's discuss how to solve the problem.
To get a large number of minerals, the first thing that needs to be mentioned is the artifact -advanced large mining space
This multi -square machine can consume all minerals in the surrounding 7 × 7 blocks, and output crushing ore with timely IX to output crumbs in the surrounding blocks.So far, it is a must -have mineral acquisition machine.
The use of this multi -square machine itself is very easy. What needs to be mentioned is that his excavation order starts from the upper left corner, instead of radiation from center to four weeks. ThereforeWhen you need to calculate where to place multi -square machines.
The biggest problem using mining is how to transport the crushed ore back to the base and how to quickly and conveniently handle the ore. First of all, the first part is solved:
The picture is the mining place I use, and it is automated. You will find that you only need to use a quantum ring to transport minerals.
Although the quantum ring has been rarely used by people, the effect of use here is quite perfect. It can remotely connect here and base, so it can automatically transport minerals to the base.
The second question is how to deal with minerals, so some front machines are needed here: large -scale washing machines, large thermal centrifugal machines, large crushing machines
Why do you need to centrifuge?Because the recipe of observing thermal centrifuge machine can be seen that its output probability will gradually grow as the voltage level increases, and the growth will become faster and faster. After basically EV, thermal centrifugation will be far better than directly crushing pure purity.Ore.Then the mode of large -scale washing machines is best adjusted to a simple miner washing machine. This is because the rate of the miner washing machine itself is very slow, which will seriously not keep up with the processing speed of the other two machines.Minerals are treated, and the use of simple minerals can reach demand, and the loss is not very large.
The next most critical issue is to automate ore treatment?
Here you are requested to go to the ME mineral output bus. This thing can specify a expression to determine what kind of mine items output, so you can avoid the embarrassing situation of the ME output bus only nine positions.
Because the expression design is more complicated, I don't expect everyone to understand this thing, so I directly provide the final three expressions here:
Mining machine: Crushed*&! Crushedpurify*&! CrushedCentrifuged*
Heat centrifuge: Crushedpurify*&! Crushedpurifieddiamond
Character: CrushedCentrifuged*| ORE*
There is a key point here that it is said that pure crushing diamonds will not be output in the expression of thermal centrifugal machine. This is because exquisite diamonds will be used in the future, and the exquisite diamonds cannot be compressed by agglomeration.Can use pure crushing diamonds to obtain in the filter, so I recommend that you put all the pure crushing diamonds into the filter to be used for follow -up.
At this point, the mineral treatment part is also over, so you must start preparing to start the production of the crystal.
First of all, after observing the formula of the JEI, you will find that there is only one way to obtain the initial crystal raw material without crystal raw materials, then it is used with exquisite olive/emerald+RF elements to synthesize in the high -pressure kettle, howeverThe only way to get the RF element is the nuclear fusion reactor, so you need to make a first -level nuclear fusion reactor.
There are no details that need to be said in specific production. Most of the time are accumulating and processing raw materials, because there are too many materials required.
The only point mentioned here is that the energy warehouse in the nuclear clustering reactor requires at least LUV level, and it seems that it can only use the basic 2 security compartment, and it is limited to the placement of the block. I suggest that I suggest thatAfter making enough materials and squares, use the free wrench construction mode to place it with one click.
Then you can start nuclear aggregation. In addition to synthetic basic elements that cannot be obtained, nuclear agglomeration can also use uranium-238 synthesis 钚, reducing the needs of nuclear reactions.
Nuclear fusion is also relatively slow. It takes a long time. You can invest in many materials at one time and hang up and wait for the response.
After the crystal raw material is synthesized, it can be mass -produced in 1 life and 2.
After all the steps of the subsequent steps, there is basically no difficulty. The automatic synthesis of the large circuit assembly line is similar to the large chemical reaction kettle of the previous taught.
It is worth mentioning that when you make a crystal host, the first machine you should make is the quality generator and copy machine to make various elements of scarce.
So far in this tutorial, you can leave a message or add a discussion (1486572549)
