This tutorial is aimed at Minecraft 1.7.10 version + IC2 EXP 2-2.2.811.I actually used in the survival mode to stabilize the 2220EU/T stable output. It has the advantages of anti -overload (without using electrical appliances), anti -heat prevention, no need to stop maintenance, small occupation, etc.Danger.It is particularly recommended for the use of perverted mods such as senior solar energy. Basically, a 10*10 room is enough to provide energy for the entire base.It is particularly applicable to those senior houses who like to do small construction at home.

Give a panorama first:

Operating environment

Necessary component

My world Minecraft (nonsense): This tutorial is written for 1.7.10, but other versions can also be used.

Industrial 2 experimental version of IC2 Exp (still nonsense): This tutorial is aimed at the experimental version. If you are not using this version, you can ignore this part.

Application Energy 2 Appliednergistics2: It is very important, the reason will be mentioned later.

Nuclear power control NUCLEAR Control: The maximum guarantee for the safety of nuclear reactors, a must -have for nuclear power!

Optional component

Please choose according to the requirements of the server. It is best to choose a single machine, which will provide great convenience.

There is EX-nihilo: the most powerful logistics guarantee!Nothing.

Thermal three mods: ThermalFoundation + thermal expansion thermalexpansion + thermal pipeline thermalDynamics.

Building buildcraft.

Thermal MOD and architectural mods can be selected according to their preferences. Many of their functions are repeated.

Constructive ideas

High -output nuclear reactor

There are already many tutorials on nuclear reactors. It is recommended to read the nuclear power tutorial first -the most practical generator and then continue reading.The current limit of the current nuclear reactor with conventional heat dissipation is about 400EU/T, such as: (all from the network)

420EU/T, 28 sticks, efficiency 3.

440EU/T, 32 sticks, efficiency 2.75.

Nuclear power with greater power can only be achieved through the cooling unit (10K cooling unit, 30K cooling unit, 60K cooling unit, redstone cooling unit, and greenite cooling unit).Among them, 10K, 30K, and 60K cooling units will disappear after durability, basically consumables (although you can recover durability through the heat sink, but the actual significance is not great), you can try it if you are interested.Redstone and green stone cooling units will not disappear after durability, but in the IC2 Exp version, it is impossible to recover durability through synthesis with Hongshi and Lugolus.Hongshi and Lugolus cooling units are very valuable, and obviously cannot be used as disposable products. Therefore, the first step is to increase the synthesis table of restoring the green stone cooling unit!This is to use the custom synthetic table function of application energy 2!For details, see the tutorial AE2 custom synthetic table.Specific practice:

Add content in the synthetic table: Shapeless = IC2: ReactorCondensaterLap: 9998 Minecraft: Dye: 4-> IC2: ReactorCondensatorLap: 1

Note: Shapeless is a disorderly synthesis, and after the number is the synthesis formula.IC2: ReactorCondensatorLap is a greenite cooling unit. When Meta is 1 is a new cooling unit, it is 9998 is the exhaustive cooling unit.Minecraft: Dye: 4 is the green stone.The role of this synthetic table is to combine the exhaustive greenite cooling unit with a greenite into a intact green stone cooling unit.This change takes effect after restarting the game. Both NEI or G keys can be found:

With the cooling unit, it is time to build a nuclear reactor.Found a reactor of extreme output on the Internet, which can reach the output of 3780eu/t:

But this reactor is problematic in actual use!Even if there is an overheating protection for nuclear power control, it is likely to explode!Because there is a short vacancy period during the cooling unit replacement process, at this time, the heat production of fuel is nowhere to be discharged, which will cause the temperature of the reactor shell to rise sharply.As long as a cooling unit fails for 1 second, the temperature is enough to increase the temperature by more than 3,000.In addition, because the cooling unit only takes into effect with the contact fuel rods, it cannot reduce the temperature of the reactor shell, which makes the temperature of the reactor rise or not.The final result is either overheating (nuclear power control), or the explosion directly.

Another reactor is as follows:

illustrate:

In order to ensure that the cooling unit is not warmed up during the process of replacement, each fuel rod is in contact with at least two cooling units.The replacement of the two cooling units at the same time is a small probability event.

Although the two cooling units are replaced at the same time, although the probability of occurrence is very low, it will still occur!The actual measurement occurs 1 to 2 times every 5 minutes, which will cause the temperature to rise by about 1,000.This depends on the reactor in the two corners.Each reactor heat sink can be dispersed from the shell for 5 calories/second, and the reactor will stabilize the temperature at a rate of 10/second after heating.A group of 4*4 is to improve efficiency and output.If the output power is not high, you can also use the international chessboard to place it. The number of materials is exactly the same, but the output is only 1500EU/T, and the efficiency is 3.The advantage of low efficiency is low -efficiency, and the calories are only 2400, which can greatly save lauginas and be better safety.

Remember, don't forget to use the temperature controller!This is the last and most important insurance that guarantees not to explode!

If the extreme swing method is adopted, you can use the strategy of stopping the stack before replacing the cooling unit.

Replenish:

It can also be used to use this method, which is more efficient.

The reactor looks like after the reactor is placed:

illustrate:

The temperature controller should be set like this:

Among them, the temperature value is adjusted by itself. It may be stopped frequently by 2000, and the potential risk of accidents is higher than 7000 (the face is dark, and the temperature rise is too large).Note that the redstone signal method is reverse, that is, the signal is turned off when the set temperature is higher.

Redstone comparator plays the role of switching.Pay attention to the "reduction device" mode (right -click after putting, make the third red stone fire handle light up).When the switch on the right is turned on, the signal (strength 15) at the rear is reduced with the signal (strength 15) on the right. There is no output in front and the reactor is closed.

After the reactor is completed, you can throw fuel and components with confidence.You can let it go when you open it, don't worry about the explosion, it will stop naturally when it is overheated.But before the temperature controller is put, don't try to put things in!The high -power reactor is absolutely cool to explode!

Cooling unit replacement

Application Energy 2 itself is an efficient system that integrates storage, synthesis, and transportation. If Extracells2 can even complete the storage and transportation of liquid and gas.In this tutorial, the logistics system brought by application energy 2 is the core.

Full picture:

Storage part

There are not many materials used, a 16K-ME storage element is enough.

Conveying part

The ME output bus is set to a new cooling unit, and the ME input bus is set to exhaustive cooling unit.It should be noted that the ME input bus must not be empty, otherwise everything in the reactor will be taken away.In order to improve efficiency, it is recommended to plug in full acceleration card (ME -dedicated upgrade component).

Note: Own cooling unit method: Throw a greenite cooling unit in the center of the reactor, and put a fuel rod around each other (the best 4X).Set the temperature limit to only 1, and wait until the cooling unit is exhausted.Don't worry, at this time the temperature of the reactor is only more than 100, which is quite safe.

Synthetic part

Application Energy 2 comes with its own synthesis, but it is more suitable for large -scale combined synthesis (from raw materials to semi -finished products, and the integration of integration of finished products).The tool is more convenient.Here is the circular workbench in TE:

As shown in the figure, the drawing is set to the synthetic formula. Click the green pairing sign, and the formula is saved on the blueprint.The left and above are set as the entrance to different raw materials, a cooling unit that is exhausted, and an input lauginol.The rear is the exit, put a ME input bus to receive the finished product.This equipment is fully automatically run. As long as there is a recycled cooling unit entering the storage, a new cooling unit is automatically synthesized.

So far, all the equipment is completed!Here, only the space of 5*5*3 is used to create a very efficient energy base. The electricity issued by the reactor can be directly used for the energy consumption of the storage and synthesis part to achieve self -sufficiency.If the space is really tense, there is a possibility of further optimization, occupying a smaller area.

Attach the reactor working diagram:

Appearance:

Reactor working interface:

summary

The reactor involved in this tutorial is controlled at a lower level due to temperature needs, which is not suitable for MOX fuel.It is recommended that the MOX reactor still uses an "constant temperature" cooling system composed of component heat sinks, component heat exchangers, heat sinks, and high -end heat sinks to ensure the maximum output efficiency.

The replacement of the cooling unit can also be achieved using the thermal pipe or BC pipeline, but when designing, it must be noted: the replacement time should be as short as possible!This point is the best performance in several mods.

If frequent overheating suspension is caused by delayed reasons in the survival service, you can consider increasing the number of reactor heat sinks or placing checkered dibers to increase fault tolerance.

In the early stages of development, the redstone cooling unit can be used. The principle is the same. Although the replacement is more frequent, the materials are really cheaper.True 6 can also use 60K cooling units to force cooling, which will simplify more in design, but the pressure on logistics will be greater.

The above automation design is suitable for a small amount of reactor automation (because there is no automatic fuel exchange design, it will be uncomfortable if you want to change it manually)

Suitable for mass automation

First, analyze why the above design is not suitable for large -scale automation

1: Each reactor requires two bus, one input, one output

2: Each reactor requires manual replacement fuel 3: If all reactors share a control system, then channel occupation will be slightly troublesome

Therefore, you can use another improvement type:

This part seems a bit complicated, remember to prepare draft paper at hand

The overall map of the control unit:

Okay, let's take a closer look at the device in this picture (the red stone -related MOD in the figure is the PR redstone plan, which provides an extremely convenient way to simplify redstone) and their working principle

First, this controller can definitely achieve a cooling unit.Here is the ME storage bus. It has an absolutely powerful function: read the items inside the container and implement the operation (such as taking it out) (in fact, the space of the container is used as the storage space of the network. For details, see the AE2 page meStorage bus)

After the storage bus is pasted, the inside of the container (reactor) will be read by the network and can be put in/out by the ME network.

From this, you only need to get the input bus for the control network, keep input to the available cooling unit, get an output bus, and keep output the unit that is used up, the rest is not enough.

Therefore, as long as a storage bus is attached on each nuclear reactor, large -scale expansion can be achieved.

At this time, some people want to say: 这?Isn't this the automatic material change?

Don't worry, let's come below.

It's the same, analyze why the original design cannot be automatically replaced with fuel:

Because when changing fuel, the cooling unit is still replaced, and the replacement of the fuel rod will cause the vacancy, which may cause the position of the fuel rod to be occupied by the cooling unit, resulting in a reduction in power.

Then the solution is also very simple: when the fuel is changed, the cooling unit replacement group does not work.

The following is the circuit logic design:

The interior of the sender of the red circle is as follows:

This is the version used by the controller after the capacity. How many cooling units are there in all the reactors controlled by this controller, just write how much

The sender of the blue circle is as follows:

Still the same expansion version, the solution is the same as above

The redstone signals output by these two senders are connected to one and the door.Then the situation becomes like this: when the cooling unit in all reactors does not need to be replaced, and the fuel rod is exhausted, the output signal is output.

After processing this signal is processed to control the item circulation system

The structure of replacing the fuel rod is activated when there is a signal, and the structure of the replacement of the cooling unit is activated when there is no signal.

However, this is still not stable: it is simple. If the reactor is still running during the replacement of the fuel rod, the heat will produce heat, and the cooling unit that needs to be replaced may be generated to interrupt the fuel change process.

Therefore, the following methods are used here: when the fuel is needed (insufficient fuel rods), the reactors are not running.After the signal of the inspection of the heat rod is passed through a non -door, the input is input (there are two inputs with the door, one is the temperature monitor, and the other is the pull rod), and the output of the door directly gives the reactor.Each connection reactor has such a secondary control system.

In this way, the entire process is stable.

However, such a control system can only control the low -temperature reactor of uranium fuel rods.Because such a reactor control system cannot achieve a stoppace replacement during the replacement process. If you want to stop the stack, the reactor under all the system must be stopped.It will become lower and lower.

Therefore, it is impossible to use the reactor control system for MOX nuclear power.However, there is still a way

High temperature strong cold MOX nuclear power

As the title, in this paragraph, we come to the MOX nuclear power to improve the control crew mentioned above, so that it can be used to control the MOX nuclear power.(Note: The control system in this chapter is version 2.1, there will be some problems, but because 3.1 uses the control idea of ​​2.1, so if you want to build version 2.1, please add your own thinking)

In the above, it has been analyzed why this system cannot be used to control the ultra -high power MOX nuclear power, that is, the heating up when the cooling unit is replaced.

So, the improved version 2.0!

For various reasons, there is no picture here

The MOX nuclear power adoption used in the example is the third in the following supplement 2.

First of all, you can automatically stop the pile when replacing the cooling unit (at the same time retain the function of the automatic fuel stick of 1.0 at the same time)

Therefore, the goal is to allow it to achieve automatic stops.

At first glance, it seems very simple, right?No.

You know, the MOX heap will not cool down automatically, and the heap temperature itself will be relatively high.Whenever a little bit, even if it is 1Tick, if the reactor is performed on the reactor to perform an operation, it is likely to cause the reactor explosion.The improved authors exploded twice, and 2.1 was exploded at a time, and 3.1 was exploded at a time.

Extremely recommended, install the archive and backup MOD before implementing MOX strong cold

The topic starts below:

Different from the previous, the core of the improved version 2.1 is not those and doors, but the RS memory

Regarding its nature, I won't go into details here. For those who do not know, please click the hyperlink above to view.

Let's start talking

One of the reasons for no longer using the door is that the door control system will lead to control delay, and the item circulation system made by AE2 will not have this delay, and then explode.And using the RS memory can simplify the design of the logical door, try to reduce the delay

Similar to the previous system, do not change the soup.Through the sender, I learned the status of the items in the reactor and replaced the materials.The only difference is that when the material is replaced, the reactor is closed.

Therefore, the advantage of the RS memory is that there are 2 output ports in this stuff, which can save the delay of non -door (in fact, if there is only one RS lock memory, the control of the reactor and the circulating group will be exactly the same delay.There is almost no need to worry about delay leading to explosion)

Then there are two input ports connected to what kind of stuff

The input port that allows the reactor to enter the open state, then one is right with the door, and the door.But because the delay generated with the door does not affect the core control system, the problem is not big

This signal is only exported by the door with the position of all cooling units and fuel rods in the reactor (using the sender to achieve this effect)

The input terminal where the reactor is closed is two senders, one output signals in the case of insufficient reactor fuel, and the other outputs the signal when the cooling unit is insufficient.Yes, there is no door this time.In fact, there should be one or door here, but because a transmission line itself is one or door, there is no need to add this or door.Moreover, when you need to close it, the faster you need to close, the better, and the omittitable or the door can increase security.

At present, the port that controls the reactor, control the port of the reactor closing, and the ports that pass the reactor.

The following is the port of controlling freight.

Actually, ah, very simple.You only need to allow the freight system to operate only when the portal signal is exported by the port (the function of the redstone control bus can be used to use the red stone card or trigger the bus)

The internal design of the freight system is the same as the design of the improved version 1.0.

So far, you can already make a safe MOX strong cold reaction.

In the specific value or control part above, the above part is not necessarily accurate, nor does it necessarily guarantee that it is safe. If you think about your brain, and do your own understanding, you should not have a big problem

Therefore, there are the latest ones: improvement type 3.1 of nuclear power control system!

Better MOX strong cold nuclear power

In this chapter, the new control system will not only make the MOX nuclear power more secure, but also make it more efficient but also make the uranium reactor suffering.

First of all, the same is the same. What does the efficiency of the MOX reactor reduce the MOX reactor?

It is the durability of the cooling unit

As mentioned above, the MOX reactor replacement of the cooling unit needs to be stopped, and the cooling unit will constantly damage, and the cooling unit that needs to be replaced will appear frequently in the reactor.

And this frequently stopped to replace the cooling unit will greatly reduce efficiency

so!The solution is to remove those cooling units that are not durable, but they are about to replace the cooling unit.

Then you are afraid to say: What should I do if this takes away?Can't send it back, it is a pity that the repair is unfortunate ...

Don't worry, don't you still have uranium reactors next to it ~

We let these consumption, but not completely consumed cooling units into the uranium reactor, where to make them exert the remaining value, and then wait until it needs to be repaired.

Rest assured that a fuzzy card can be easily completed in the output bus of the cooling unit of the cooler cooler area to the cooler cooler area of ​​the uranium reactor cooler.

At the same time, in order to make the MOX reactor more secure, another method of activating the reactor can be used:

As you can see, use the ME sender to activate the reactor, and then set some parameters in this sender to allow the reactor to protect another layer (it is recommended to set the number of cooling units+durability)

At this point, all the contents of 3.1 finish all the content

Finally, put a screenshot of the MOX reactor output average value of the MOX reactor using the 3.1 control system

Seeing this, probably many readers feel dizzy.There are two main reasons: one is that the author is too stupid to have the author's description is not accurate enough and specific, and the other is that this design is a bit complicated.So, that's the same sentence, I hope you think about the tutorial and think about it: Why should this design be improved?What are the improvement?How to repair the previous problems?

I believe that most people can understand the meaning of these design after careful thinking, and may have better ideas.

warn!The designs in all improved descriptions may not be successfully operated. Remember to use automatic backup or manual backup.

In addition, if a big brother successfully clarifies the design of the design and can be described by it, please also worry about it to make this tutorial moisturizing to make it easier to understand.

If you have any better design or a new improvement, please add self -help to this tutorial.

So, the formal control system part is over here!

Replenish

This tutorial uses the synthetic table modification function of the AE2. This function is actually very reversed: because it can completely jump technology trees, and can even use a stone to synthesize the ultimate product.Therefore, this feature basically does not need to think on the server, please use it with caution even on a single machine.However, pure IC2 does not provide the durability of the greenite cooling unit to resume synthesis. When writing this tutorial, I have not been grenades, so I have to adopt this method.Later, I got started with Gray, and this problem was perfectly solved: universal vacuum freezer played!Vacuum freezer is a necessary equipment in the middle period, which can be made in the middle of the medium pressure.Replace the greenite cooling unit in the picture above with a 60K cooling unit (which can be changed to 360K cooling unit in the later period). When it is durable, it will be removed and sent to the vacuum freezer to recover durable. The effect is really good.The production cost of the 60K cooling unit is N -grade lower than that of the Anshong Stone unit. In the early days, an efficient and stable nuclear reactor can be made, which is enough to use the LUV era.It is unhappy that the GT5 has greatly increased the height of the nuclear reactor. The nuclear reactor must be made until the EV era. At this time, if the resources are sufficient, the nuclear power of the flow will be more efficient.Then there is a time -consuming time to restore durability. A 360K cooling unit must be restored to full durability in 3 minutes without bonus. If you work with a vacuum freezer at 128mv, you may not keep up with the reactor.Consumption!Is it necessary to increase the voltage or make a few more cooler depends on your resources to decide on your own.Here is a double -combined cold reactor that is still in use: when large -scale production is not performed, this reactor plus the later fluid reactor is enough to provide energy for a set of IV -level mineral automatic processing systems.Another: a salted fish mentioned that it can use funnel to supplement the cooling unit.I tested the funnel here, it is really good, stable and timely.There is only one small problem, that is, when there are multiple cooling units at the same time, they are almost removed together, the continuity of the funnel and material is not very good, and the supplement to the back is a bit unable to keep up.It also compared the pipelines of TE and BC, and finally felt that TE's pipeline was ideal.Use a resonant server or retrieval to reach a replacement speed of 0.5 seconds. Use the shortest kinetic energy pipeline to reduce delay. The replacement effect is ideal.图中就是用TE的管道：有信号时反应堆工作，同时启动冷却单元的推送（伺服器为高信号启动）；无信号时不再推送冷却单元，但是激活燃料棒的更换（相关的伺服器、The search device is set at a low signal).Such a one -button operation is still very convenient!Because the replacement cycle of the silicon rod is too long (100,000 durability = 27.7 hours), there is no automatic change of fuel for automatically arranged, and it will be changed manually after time. Anyway, there is a fluid heap in the back, so as not to completely disconnect.Patients with automatic obsessive -compulsive disorder can add a energy output detection to achieve fully automatic replacement.

I wonder why the nuclear power in the GT5 is larger than in pure IC2.The actual measurement really reaches 4560EU/T power output, and the heat volume and power generation of uranium and silicone rods are the same, but durable.

It is just mentioned that the fluid reactor efficiency will be higher.Here is a dual-connected high-voltage steam-steam turbine, which provides 1940Hu per second. The total power generation power is 6300EU/T. Its high efficiency can be seen. When the fuel in your hand is not enough, this will obviously greatly improve the utilization rate.The thermal flow is provided by double heap (4 sets of 4 sets of uranium rods with 4 sets of 4 sets of uranium rods, and the heat is 1320/s, automatic control. See this article). The 4 turbines are large high-speed steel-E turbo.Although the steam power generation is efficient, there are many required equipment, and the maintenance is much more troublesome. Generally, it can only be carried out in the IV era. At this time, you should try to use a concentrated silicon rock reactor or plasma generator.

Supplement 2: Several MOX swinging methods

1. The most basic and basic method

Many MOX players start from this method of swinging. A generation of people who are poisoned by the old tutorials are basically this method.

39 MOX sticks are needed. The heat distribution is relatively balanced and belongs to friendly nuclear power.

Number of resource consumables: 15X cooling tablets, 39X nuclear power MOX stick

Extreme power generation/average power generation: 21098/541 (EU/T)

Recommended index: ☆☆☆

2. Variations of the foundation method

I have seen it at a server that the puppets that have evolved according to the source of the evil sources, only 14 cooling tablets are required to stabilize the nuclear power plant.

However, it is surprising that although the total power generation has increased, the average power generation of the MOX stick has been reduced a lot, so it is just a flash.

The earliest entered 14 coolest pests (anyway, it was right), suitable for the such as burning rod or fast production.

Number of resource consumables: 14X cooling tablets, 40X nuclear power MOX stick

Extreme power generation/average power generation: 21398/535 (EU/T)

Recommended index: ☆☆

3. An excellent method of being ignored

Another variant of the foundation method, but I have never read this method after turning a lot of posts. For the time being, it is a new method by default.

Interestingly, this method requires 39 uranium rods, and the power generation is actually higher than above. It confirms that a good method is better than a MOX in it.

The high power generation is likely to have a bonus for its mysterious power.Number of resource consumables: 15X cooling tablets, 39X nuclear power MOX stick

Extreme power generation/average power generation: 21498/551 (EU/T)

Recommended index: ☆☆☆☆☆

4. Wide -known 14 tablets

An indisputable fact is that the power generation of 14 pieces is generally higher than that of 15 pieces, which also proofs the superior performance of 14 pieces from the side. With the deepening of the understanding of nuclear power, some excellent 14 pieces of papers also stand out.

This is the most widely known one of the collections. It is famous for its beautiful swinging method. Unfortunately, the power generation is almost the same as the improved version. It can be said that it is a pity.

Number of resource consumables: 14X cooling tablets, 40X nuclear power MOX stick

Extreme power generation/average power generation: 21398/535 (EU/T)

Recommended index: ☆☆

5. At present, the most power generation nuclear power MOX increases the power generation, the more difficult it is, and there are very few ones of more than 21600EU/T. This method has relying on the power of up to 21800EU/T.Putting method.

At present, there is no similar method of swinging, which is a new method, but unfortunately, the average utilization rate of this method has not exceeded the improved version, and can only be used as one of the references.

Number of resource consumables: 14X cooling tablets, 40X nuclear power MOX stick

Extreme power generation/average power generation: 21798/545 (EU/T)

Recommended index: ☆☆☆

6.4XX reflective board excellent swing method

The method of swing is also quite beautiful, and the laws that can be seen at a glance are selected and explained.

Surprisingly, it only needs 12 coolers. It is enough. The remaining position is used to increase the power generation with a reflective board, which is a very wonderful way.

Number of resource consumables: 12x cooling tablets, 4X reflective 38X nuclear power MOX stick

Extreme power generation/average power generation: 20400/536 (EU/T)

Recommended index: ☆☆

7.5X reflective board excellent swing method

The strange method can barely see some signs of sorting.

The utilization rate is similar to the source of all evils, and there are two less uranium rods.

Number of resource consumables: 12X cooling tablets, 5X reflective 37X nuclear power MOX stick

Extreme power generation/average power generation: 19780/534 (EU/T)

Recommended index: ☆☆

8.6XX reflective board's excellent swing method

It is also one of the strange methods, the utilization rate is lower (laughs)

Interestingly, it only takes 11 cooling tablets for this method.

Number of resource consumables: 11x cooling tablets, 6X reflective 37X nuclear power MOX stick

Extreme power generation/average power generation: 19580/529 (EU/T)

Recommended index: ☆☆