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Single thermal boiler 1.93 billion RF/T survival construction tutorial [MEK] Minecraft Game

2024-12-10 17:57:14|Myriagame |source:minecraft skins

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

The tutorial area also has a 200mrf/T water -cooled pile of power generation tutorials, but there are major vulnerabilities and misleading, so this article is corrected.

(Game version 1.12.2)

Before reading, please learn about the polytable reactor, industrial steam turbine, and thermal boiler related content.This article uses the method of direct thermal conductivity of nuclear fusion reactors into boilers for steam production and power generation.The size of the boiler is 18x18x18, and the size of the industrial steam turbine is 17x17x18.

The rate of steam in the 1.12 version of the thermal boiler in version 1.12 is a threshold for the maximum water storage volume (determined by the number of lower water tanks) and the evaporation threshold (determined by the number of upper thermal conductive elements)!Not a threshold!It is not the gate value in the game translation!The minimum value of the two is the so -called barrel effect, which is not as much as the steam of the heating component of the pile.Each water tank provides a water storage amount of 5,616,000MB. Each layer of heat -conducting component increases the evaporation threshold of 25,600,000MB. The ratio of the 3 -layer heating element and the 12 -layer water tank (Figure 2) reaches the maximum steam generation value of 67,392,000MB/T (the water tank capacity is capacityLimit, see the red box part of Figure 1), the water tank cannot be reduced in the short board. If the heating element is reduced to 2 layers, the evaporative threshold is only 51,200,000MB/T, which is far less than the maximum value above.

Figure 1

Figure 2

(It is a bit tight and there is no good camera angle, and it is not convenient to survive and disassemble the redemption ...) It is recommended to use the sink to match the fantasy fluid interface (as shown below, the fantasy interface and the sink are bound, close to the sticker, and close to itThe boiler valve is placed, and the binding method can be seen). It can supply water unlimited and no longer need to consider the problem of returning water.The threshold of 100,000MB/T is increased by the thermal conductive element, and it is enough to put it in 674 in 674.(I'm just too lazy to do three full layers of stuffing in ... and what is the boiler temperature of 9.84 billion Kailvin! The core temperature of the sun is only 15 million Kervin! Is this a neutron star in!)

The steam connection suggestion also uses the fantasy fluid interface (the fantasy interface is bound to the boiler valve, and the turbine valve is placed). Otherwise, each turbine generator needs a pipe network composed of 151 ultimate mechanical pipes to supply.Of course, there are 4 turbines that can directly transmit steam by valve stickers.

It is known that the 6 -layer exhaust port is the maximum power configuration of the turbine generator (if you have any questions, you can view the industrial steam turbine entry), consume 9,360,000MB/T steam and generate at a speed of 267 million RF/T. This is full of loads.The boiler can drive 7 full -loading turbine and a fish turbine (7.2 units in total), and this full -loaded boiler can heaterate from a nuclear cluster in a fuel input rate of only 4MB/T.(In fact, 2MB/T can also be feasible, but the temperature rises too slowly, and if you can afford 8 17x17x18 turbines, you should not care about this fuel 2333)

Figure 3

Although the fish turbine is only running in a 20%power state, it is still recommended to use the maximum turbine. One is that the steam conversion efficiency is higher. SecondUse the field (although 40%of the power is still touching the fish ...).Figure 4 is a steam (1MB/T is a pot of a pipeline) with a 256,000MB/T rate, and the 17X17X18 size turbine (above) and the power generation efficiency of the 7x7x8 size turbine (below) are obvious.

Figure 4

Do not forget the passive capacity of the reactor during the wiring and the power generation capacity of 150,000 RF/T. No matter how small the mosquitoes are, it is a piece of meat!In the end, the power generation was around 19 billion RF/T (the first red font of Figure 3).But one of my eight turbines has a characteristic that I don't know what characteristics have triggered, it is overclocking!(No. 7 in Figure 3)

Figure 5

Although the internal UI shows that the power generation is only 156 million (below Figure 5), the actual output has reached 321 million (above Figure 5), which is about 20%higher than the 267 million yuan of the 6 -layer exhaust port turbine.The steam consumed directly leads to the turbine (No. 2 turbine in Figure 3) that the operating power that should have touched the fish directly lying down and fell asleep ... (nor is it excluded that the author did it intentionally, after all, for the sake of after all, for the sake of20%power reconstruct a turbine is indeed a bit of material)

Big photo: (Please ignore the ingenious people of the limit reactor next to the next limit reactor ... 32x32x48 reactor is less than 2 million output, and the frame is also dropped to take off!)

That's right, this covers 16 blocks is just driven by a 4 -speed fusion heap. The power generation is close to 2 billion RF/T. It is already a very cost -effective generator (even playing overClocking)).If a single turbine is driven directly from the water cooling agglomeration, it takes 8 20 -speed reactors to barely reach the full speed (yes yes, I did set up like this, and even a silly FUFU screenshot!), So if you playDo not consider using the boiler directly!

PS: Sometimes the boiler does not reach full load, but the turbine does not get enough "characteristics" of steam supply. Exit to the main menu to enter again to solve it again.

How do I feel that I am writing a dissertation ...

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