This tutorial is set by the author to use the CC By-NC-SA protocol.

Note: There are many concepts and formulas in this tutorial. Please eat cautiously.

Everyone must be familiar with the IC 大家 MOD. The most important place for him is the word "industry", and industry must have electricity. This is common sense.There are many ways to power generation in the industrial cymbal: like thermal power generation used in the early stages, wind power without brain piles, as well as biogas power generation, radioactive homogenic temperature difference power generation, etc.But when it is a power generation output, it is this -nuclear power.

First of all, you need to know how nuclear power is generated.All material in the world is composed of atoms, and the atoms are composed of atomic nucleus and surrounding electronics.The fusion of the light atomic nucleus and the division of the nucleus of the nucleus can be released. They are called nuclear aggregation and nuclear fissure energy, and referred to as nuclear energy or nuclear power.

The nuclear power in the industry is nuclear fission.The principle of power generation of nuclear fission is this: nuclear fission in the fission material → nuclear energy is released in the form of heat → drives steam engine → generates electricity.Of course, in the industry, it becomes nuclear fission → heat production → electricity.

OK, the concept explanation is over, come to Zhengge.First of all, the place where the nuclear reaction is called a nuclear reactor. The reality is very large. Of course, it is not so large in the industry. It becomes a square block. It can also be expanded using a nuclear reactor.The pictures of the nuclear reactor and nuclear reaction warehouse are shown below:

Left is a nuclear reactor, and right is a nuclear reactor

Note: The nuclear reactor can only be pasted on the nuclear reactor and cannot exist alone.If a nuclear reactor attached to a nuclear reaction warehouse is knocked off, all the nuclear reaction warehouses attached to the above will fall off.Secondly, the side of the nuclear reactor can also open the nuclear reactor.The reactor can also start the reactor for the nuclear reaction.

The reactor can also be stored in heat, up to 10,000 points, and the heat stored in the reactor is the heap temperature.Because the heap temperature is different, the reactor will also have a certain impact on the surrounding environment:

When the heap temperature> 4,000, the 5*5*5 blocks around the nuclear reactor as the center will have a chance to get angry;

When the heap temperature> 5,000, the chance of evaporating the water with a nuclear reactor as the center of 5*5*5;

When the heap temperature> 7,000, there is a chance to receive damage with a chance to receive damage with a nuclear reactor as the center of 7*7*7.

When the heap temperature> 8,500, the 5*5*5 blocks around the nuclear reactor will have a chance to become a magma;

When the heap temperature is ≥ 10,000, the nuclear reactor will explode!IntersectionIntersection

The problem of water evaporation and the fire can basically ignore it. It is enough to put a combustible square block and water from around the reactor (the combustible square block can be understood, but it feels that the water basically does not put it); the more tricky is damage and magmaThe damage will cause damage to the surrounding creatures, but it is basically no major in wearing anti -chemical uniforms. It is a very painful thing to replace it with magma, because it can replace your wires and tie rods with magma!If you use it, it is still strong!Then I can only say: the deceased rests.

But there are a few blocks that will not be destroyed. First, Kiyan, there is no need to say, but how to get it is a problem; second, architectural bubble, this stuff can be wrappedIntersectionRedstone signal?Put the lever on the building foam!The third is a set of reactor pressure vessels. These things are expensive. It is recommended to use building bubbles.

We right -click the nuclear reactor/nuclear reactor to open the reactor.The interface of the non -review reactor is as follows:

The reactor interface of the reactor of a nuclear reaction warehouse is as follows:

The reactor interface of the 6 nuclear reaction warehouse is pasted as follows:

The reactor, even a box.When the counters are not affixed to the reactor, there are 3 columns and 6 lines, a total of 18 grids; each post will be added by 1 row, that is, 6 grids; 9 columns are full after full reaction warehouse (6).6 lines, a total of 54 grids.When the nuclear reactor/nuclear reaction warehouse receives the redstone signal, the nuclear fission will begin, and the nuclear fission will also be disconnected when the redstone signal is disconnected.This box is not ordinary. It contains nuclear fuel, heat sinks and cooling units of reactors.The specifics are as follows:

Red: fuel rods (all of which are depleted version)

White: What added GT

Yellow: cooling unit

Light green: heat sink and heat exchanger (left heat exchanger, right heat dissipation)

Grape color: other series

1. Fuel stick

If the reactor is compared to the firepower, the fuel rod is fuel.The nucleus in the fuel rod was bombarded by the neutrons, split into a lighter atomic nucleus and released energy and neutrons, and then the neutron strike another atomic nucleus.EssenceFrom this continuing, it provides a lot of heat, which is the role of fuel rods.

The fuel rod can be divided into 3 types according to the number of rods, single -united, dual and four -united.As shown in the figure, the first line of 3*2 grids is the single, double and four -link versions of each nuclear fuel. Their heat production is different from the electricity production, but the life is the same (here is the same asOf course, the fuel stick made of different fuels is of course different).The data is given below: fuel production heat (unit: click ^① /s) Power Generation (Unit: EU/T ^② ) Life (Unit: S) Concentrated nuclear fuel 4/244/ 965 /20 /6020000

(Equivalent to 5H33min20s)

物 Uranium hybrid oxide nuclear fuel 4 /24 /965 /20 /6010000

(Equivalent to 2H46min40s)

1 1 /6 /241 /4 /2050000

(Equivalent to 13H53min20s)

Silicone 4 /24 /965 / 20/60100000

(Equivalent to 27H46min40s)

①: HU and Heating Spots are two things!IntersectionThe number of thermal spots is a concept that starts from IC2 (here is a classic version, that is, the era of iron -roasted iron refining iron); HU is the concept introduced in the IC2 EXP version due to the fluid thermal reactor.Take the number of hot spots 2

②: All T in this tutorial are 1/20s

③: The power generation of MOX fuel is related to the heap temperature -of course, if you just engage in a pile of temperature to maintain 0, heat production and heat dissipation and stability, it is useless.

④: You installed at least 5.08+ version GT

⑤: Make sure you install at least 5.09.26 GT

If the GT 5.09.17 is installed, all fuel sticks are double -produced, but the maximum heat increase of MOX will be reduced from 5 times to 2.5 times, and the heat contained in the thermal coolant in the HU mode is 4 times.

In the .27 version, the heat of the thermal coolant in the IC heat exchanger rose to 5 times.

In the nuclear reactor, when the fuel rod is adjacent to other fuel rods, their fever is different from the data of the power generation and the foundation.As follows:

(Overclocking radiator is only used for heat dissipation, which does not affect my expression and its effect)

We can see that the two single -united are adjacent to each other. Power generation is not 2 × 5 = 10 EU/T, but it is 20 EU/T. Why is this?In fact, the design of IC2 is in line with physics.With the increase in power generation, the fever is getting higher and higher, but why do their power generation and heat transmission change?Who is changing?This leads to a concept: efficiency.

Generally speaking, the efficiency of a fuel rod refers to its total efficiency.The total efficiency is divided into two parts, one is the basic efficiency, and part is additional efficiency.Basic efficiency is fixed, the basic efficiency of single -connected fuel rods is 1, dual -couplet is 2, and four couplets are 3; additional efficiency is uncertain.The sum of the number of boards.

With efficiency, then the formula for departing calories and power generation:

Basic power generation: concentrated uranium fuel 5 EU/T | MOX fuel [5+20 × (heap temperature/10000)] EU/T

Power generation = basic power generation × total efficiency

Send heat = 2 × total efficiency × (total efficiency +1)

It can be seen that the power generation is a one -time function, and the heat is a secondary function; in any case, the growth of the heat is always the fastest.Therefore, how to balance power generation and consumables is an eternal problem.

In this way, the above example, the total power generation is 20, and the fever is 24. Do you think of something?That's right, the dual -connected fuel rod and the four -united fuel rod are to focus multiple fuel rods in a grid, which can greatly compress the space; of course, the side effects are when their efficiency increases, the increase in power generation and the increasing heat of the heat will be.It is obvious because their additional efficiency is attached to a single fuel rod (a single fuel rod here refers to a single fuel rod that constitutes a multi -coalted fuel rod).It may be a bit fascinated, let's take an example:

As shown in the figure, this is what the dual -connected fuel rod is disassembled, which is adjacent to the two fuel rods.When the dual -connected fuel rod is calculated with the efficiency of its power generation and heat, the efficiency of its single fuel rod should be obtained (dual -connected basic efficiency + additional efficiency).Get the amount of power in the entire fuel rod.

Let's take an example:

As shown in the figure, a single -connected fuel rod is next to each other with a dual -connected fuel rod to calculate its power generation and its heat.

First of all, calculate the single -connected fuel rod: the power generation is 5 × 2 = 10 eu/t, the heat is 2 × 3 × 2 = 12 points.EU/T, the heat is 2 × 3 × 4 = 24 points.This is a single fuel rod. Because we are Shuanglian, we have taken 2, and finally got 30 EU/T, 48 points of fever.Add up to get power generation 40 EU/T, heat 60 points

Let's look at it again, the life of the fuel rods filled with the same type of nuclear fuel is the same life. The only difference is that their power generation and thermal mass.× 20000 × 20 = 24,000,000 EU/T, but if his efficiency is increased by 1, let's look at power generation: 5 × 4 × 4 × 20000 × 20 = 32,000,000 EU/T, which is also amazing.Therefore, efficiency is important for nuclear power and it;× 5 × 4 = 160 points, the growth is quite amazing, but it is also easy to see -because there is a place "total efficiency × (total efficiency +1)" in the calculation formula of the heatingThe formula is a secondary function.So how to balance power generation and fever is an eternal problem.

2. Scattering film

The heat sink is what is used to cool down the reactor. The way to work is from the fuel rod or the reactor to the heating to the accumulation of itself, and then discharge.But there is another thing that is the component heat sink (that is, the middle is like it looks like)