[NCO] For the future of solid -state fission (from my station B post) [NCO] Nuclear power process: NUCLEARCRAFT: Overhau

2024-12-09 18:32:06|Myriagame |source：minecraft skins

This tutorial is set by the author's setting without permission.

Start

A few days ago, the author of NCO issued a notice on GitHub, saying it was done.Players who have come into contact with nuclear power technology should have heard of its remake. At present, the thermal exchanger of the remake is not yet mature, so the complex power generation systems such as melting salt piles cannot be talked about for the time being.Soon ago, this news brought new hope, which means that not only the melting salt pile, the seemingly developed area that seems to be completely developed may usher in different scenery.

What is a dual -level joint power generation system?

We first start from the melting salt pile of NC (original) molten salt piles to facilitate understanding.

The complete melting salt pile outside can be divided into two parts -nuclear island (melting salt circuit) and conventional islands (water circuits).For the nuclear island, two heat exchangers need to pass the heat to the different parts of the conventional island; for conventional islands, there are two turbines with low -voltage steam and low -pressure steam after the heat -fired heat.

How to cooperate with Nuclear Island and Conventional Island?

We take normal operation as an example.After the reactor heating coolant (common crystal sodium potassium), the common crystal sodium potassium outputs the heat output, and the thermal coolant will be diverted, and two thermal exchangers are entered.We looked at the first heat exchanger entering the conventional island from water.After the water enters the first heat exchanger, it is heated by the thermal coolant. It produces high -voltage steam. The high -pressure steam is input to the first wheel, and the turbine outputs waste steam.However, waste steam is not a real waste, it can be heated again to obtain higher power generation efficiency.At this time, the second heat exchanger came in handy field. It used the thermal coolant produced by the reactor to re -heat waste and waste steam, generating low -voltage steam into the second steam turbine to generate electricity.Finally, low -quality steam will condense back water.

Analyzing the operation of the melting salt reactor, it is not difficult to find that the processing of steam on the conventional island is a repeated heating process.In the NCO, the solid -state fission reactor can directly process the water as a high -pressure steam, which saves us a heat exchanger.The solid -state fission reactor can produce IC2 thermal coolant. If NCO adds a mature heat exchanger, then we can use two solid -state fuel fission heaps to achieve a complete Langken cycle and possible higher power generation.

That's right!Presumably here, you have found it.Dual -level joint power generation system, its essence is to achieve a circular circuit of molten salt pile with solid -state fission!

What's the use of it?

Some people may ask: If the NCO production is completed, we can create a molten salt pile, so why should we build a dual -level circulating power generation system?

In this regard, I summarized a few possible advantages:

In NCO, some fuels can achieve unlimited renewal.Take uranium-233 as an example: For nine exhausting [OX] LEU-233 fuel, it can produce after entering the fuel processing machine: 5*[OX] U-238,1*[OX] PU-241,2*[OX] PU-242,1*[ox] AM-243.And they can be recovered into 9 new [OX] Leu-233 fuels after the following path.

1*[OX] PU-241 --- Deat change-> 1*[OX] NP-237 --- Deatful change-> 1*[ox] U-233

2*[OX] PU-242 --- Deats-> 2*[OX] U-238

2*[OX] U-238 ([OX] PU-242 declined)+5*[OX] U-238 (directly processed by fuel)+1*[ox] U-238 (additional input)++1*[OX] U-233 ([OX] PU-241 declined) ===== 9*[OX] LEU-233

And the wealthy 镅 -243 oxides can become a new fuel through the following route:

1*[OX] AM-243 --- Deatfulness-> 1*[OX] PU-239

1*[OX] PU-239+8*[OX] U-238 ===== 9*Mox-239

It can be seen that assuming that one of the reactors in the dual-stage power generation system uses [OX] LEU-233 as a fuel, then when the MOX-239 exhausted fuel is recycled, we can let the fuel of the two reactor fuel replace the material at one time.All the unlimited renewal cups are consumed when you consume a depleted uranium block!Moreover, this also solves the disadvantages of the reactor system that can hardly produce any useful nuclear raw materials (because they are taken back to use the mobile cup) when they rely on uranium-233!The recycled MOX-239 will bring the same heavy element as the entire power generation system as the entire power generation system.

Because the fuel can be renewed indefinitely, unmanned supervision can be achieved. When there is not enough depleted uranium, you can use redstone logic to stop the reactor safely.

At a very high cost performance, we need to invest in only depleted uranium, but we can produce considerable heavy elements and electrical energy.

In summary, I think we need to explore this direction, which will be expected to break the current situation of solid fuel fission piles.

Author's words

All in all, this column today is about the idea of ​​the NCO module completely. At present, we can use modules such as immersion, CRT and other modules for alternative experiments.If the readers of this article have different views or new results, they are very welcome to share and discuss in the comments area!Tsarevaniv 2024.2.20

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