2024-12-10 17:58:42|Myriagame |source:minecraft skins
This tutorial is set by the author's setting without permission.
UP is also a recently contacted DE. It took about two days to study the small tutorial of dragon pile.
This article is prepared to write the contents of the three chapters, you can selectively skip it
Chapter 1: Concept and basic parameters
Chapter II: Safety Starting and Stable of the Reactor
Chapter II
Chapter 1: Concept and basic parameters
Basic characteristics of dragon pile:
The safety is low, the scope of harm is large, and the stability is not very good. Nowadays, the power generation is only a mid -range status in major technology modules, and the cost performance is quite high.Therefore, I personally think that from a practical perspective, there is really no better choice to generate electricity with dragons (except that you feel interesting, fun, and explosion).
Basic parameters:
First of all, the explosion of dragon piles is about 20 blocks of 320m straight line distance.And there is no effective explosion -proof means.Therefore, the site selection is based on its own energy transmission method, and try to choose the location of the world and ultra -long distance.A lot of materials are described in detail in detail, and it is not written here.
Second, the role of various parameters in GUI:
This is a reactor GUI that has just started and entered a stable state. First of all, look at 4 parallel grooves (left → right)
Temperature grooves: In the case of range of 0-10000, more than 2500 degrees, the reactor will start power generation and consume fuel.Therefore, when the temperature is turned off, the temperature will begin to decline, the reactor will continue to generate power, and the production rate of power generation will gradually decrease; when the temperature drops below 2500 degrees, the yield will become 0.The shutdown is completed.
Control field: range of 100 million (100,000,000), he can use him as a battery and enter the reactor by reactor energy injection.The reactor will constantly consume the energy in this battery to maintain the stability of the reactor.The more power storage in this battery, the core will consume relatively more energy to control the reactor.
Energy slot: range of 0-1 billion (1,000,000,000), also a battery, the energy generated by the reactor will be stored in this slot, and the energy can be exported by the reactor stabilizer.The shorter the energy slot, the larger the space of the reactor, and the yield can gradually rise.
Fuel slot: range X-10368 (lazy, no test for the minimum scale X), displaying the fuel consumption ratio.At present, about 1%of the fuel consumed for 2 hours, so this 10368 unit is preliminarily estimated to be MB. In other words, the largest reactor is working at a speed of 800NB/T. It will take about 180 hours (7.5 days) to exhaust.(To verify)
Then look at the four data parameters (top → below)
Core volume: The amount of fuel inserted before starting the reactor determines this volume, and only knows that it affects the total fuel volume of the core.The impact on other data is temporarily unclear.
Rate: Core currently power generation.
Control field input power: Remember the battery in the control field?This power is the energy consumed from the battery of the control field per second.
Fuel consumption rate: literal meaning
Finally, look at the redstone mode button to click on the content you can choose. There are only examples here, and no longer explain them one by one.
Example: Under the energy storage mode, the redstone signal of 0-15 can be output with the energy ratio stored by the comparator based on the energy ratio of the energy slot.Combined with the potential in the module, the automatic control of the reactor can be simply achieved.
Chapter II: Safety Starting and Stable of the Reactor
A explosion occurs when the reactor is out of control. Similar to the explosion effect of a TNT, it will destroy some of the accessories near the reactor, resulting in the reactor cannot be quickly maintained. After that, the reactor will be nuclear due to the surge in the out of control temperature.(No other direct reasons for the reactor nuclear explosion are not found)
Conditions for reactor out of control:
1. The temperature groove exceeds 10,000. At this time, even if the full load is full, the reactor cannot be suppressed to continue heating up. Finally, it will enter the nuclear explosion.
2. The power stored in the control field is reduced to 0.At this time, the reactor is in the free reaction stage, and the power generation and temperature will soar.Perhaps entering huge amounts of electricity to the control field in time can re -control the reactor (guess, no complete test).
3. The energy slot is full or exhausted.The situation of the energy slot has not been processed for the time being. Similarly, the temperature will soar due to excessive energy accumulation, which will not be controlled in the end.(Guess the time exporting energy in time may be saved)
4. The fuel slot is exhausted, and the UP is found on other websites. After all, it took too long to wait for that time.(Guess that the reactor suddenly lost fuel and caused the response rate to fluctuate, and finally increased the nuclear explosion through the temperature).
The most important problem for the unstable reason why Dragon Back is unstable is the chain reactions formed by the above 4 grooves and 4 data, which makes people unable to deal with it in a timely manner that leads to an out of control nuclear explosion.
Example: Due to operational errors, in a few seconds, we pumped the power output of the reactor very much.Then we adjusted the output power in time.
At this time, due to the sudden emptiness of the energy slot, the yield of the reactor will increase significantly, and the temperature will rise at the same time. We need to increase the input power in the control field in time, suppress the reactor response, and reduce the power of the reactor output, and the energy slot will rise.Then the temperature stops and decreases slowly.Then we use fine -tuning input and output power to slowly reduce the energy injection of the control field, gradually improve the energy output, let the energy grooves open, and return to a relatively efficient power generation environment.Start of the reactor:
The first is the inscription. Be sure to check the input and output equipment and settings that you have set up in advance. Often, if you do not enter/output the power in time for the BUG or other reasons, you cannot control the reactor and watch the fried.
Many people provide the startup setting ratio.Input 120,000 to 150,000, output of 40,000 to 500,000.Here I will explain the specific principles.
First, during the charging phase, the control field and energy batteries cached 50%of the energy (50 million/500 million)
When starting, the input power and core yield of the control field will rise rapidly from 0.At this time, the core is in a stage of severe changes. From the perspective of security, we must maintain a high control of the power storage to cope with the situation. At the same time, we need to conduct the energy field to make the energy field stabilize as soon as possible.
Simply calculate, there is still 50 million space for control field energy. Press 120,000/t, and it takes 20 seconds to fill it.The ratio of energy battery output takes 50 seconds.And with the booting, these two time will be extended, and there is enough reaction time.
The normal startup situation is probably after booting. Due to the energy injection of the control field, the control field will rise to about 70%first, and the energy slot will fall to about 30%;
Then because the response gradually intensifies, the yield will slowly approach the output power, the energy slot decreases slowly, and finally stabilizes around 20%-15%.%Started to accelerate to about 50%. At this time, due to the gradual stability of the core yield, the power control field power began to decrease, and the rate of decline in the control field fell slowed down, and eventually stabilized around 20%.
Next demonstrate a non -normal turnover.Because I made a mistake in the last shutdown, 98%of the power storage capacity was left in the core. This boot was not booted at 50%of the power storage capacity. Therefore, the setting settings input 13.2, and the output 60 was large.
Start 10 seconds:
98%of the electricity has fallen to about 80%, the yield has risen to 150,000, and the strength of the control field has slowed down. It seems that it is less than 70%.The temperature rise is not obvious, after all, the yield has not increased too much.
After two minutes
Energy storage fell 25%, the yield has reached 490,000, and the temperature has exceeded 6K. In order to prevent too much temperature and increase the increase in yield, we must keep the energy slot too low, all manual adjustment output power 60 → 55;
At this time, the control field input power had exceeded 180,000 before. Because the injection power was only 130,000, the control slot fell rapidly.It is currently around 30%.Control is relatively good, you can ignore it.
After three minutes
The consumption power of the control field is matched with the input power, and the rate of production is approaching the energy export speed of 550,000.
Obviously, the control slot has been low, and the input power is manually increased to 13.2W, and the control slot is in a slow rising state.At this time, the temperature is about 7200.
At this point, the dragon pile is successfully activated and is in a relatively active and stable state.
Chapter II
First of all, this is the work of the stable half an hour
In a stable environment, the core cools at a rate of 0.1C per second, while the fuel consumption rate slows down.
Although the parameters are slightly higher than the input power, the control slot and the energy slot are actually rising at a very slow speed.
After 20 minutes
It can be seen that the stability has dropped by about 130C, the fuel consumption rate is also declining, and the control field grooves and energy grooves have risen by 1%.
Redstone control design
Through comparators and potentials, redstone signals can be output according to the status of 4 grooves.
For example
Potential setting 3, the energy storage mode of the reactor stabilizer. When the reactor power tank exceeds 26.6%, the comparator will obtain the energy of the strength 4
Circuit will be turned on to the energy valve strong energy energy
At this time, we set the rate of directors under its redstone signal to 60, because the yield at this time is stable at 55, and the reactor power tank will decrease
When it was reduced to less than 26.6, the comparator failed, and the export speed was 55.
After the improvement of the reactor energy, the energy of the reactor will be repeated over 26.6. Due to the continuous excretion of energy tanks, the yield will continue to increase in fluctuations.
(The regulation of injection power is similar to no longer repeatedly)
Efficiency improvement
In order to test for everyone, the risk of nuclear explosion has improved a wave of efficiency.
First of all, in order to increase the yield, we will activate the reactor small, so we need to increase the power storage of the control slot for backup.13.2 → 14
Then increase the output power 55 → 60.
At this time, the production rate of the reactor began to increase, the temperature increased, and the fuel consumption rate and the power control field power increased accordingly.
The original power storage volume fell nearly 10%in a few minutes; the strength of the control field also fell by nearly 10%.The temperature exceeded 6900 to 8100.UP thought it was going to explode.After a few minutes, the control field and yield gradually stabilized at the set value, entering the second round of stable recovery phase, and the temperature was also from 8100 → 7950 during the time of my code word.
Since the time has been waited for too long, UP has no conditions to make deeper debugging.
The current calculation situation is about 3 hours, both of which will rise by 10%.The temperature drops more than 1,000 degrees.
Based on this estimation, under security, the control field and energy slot should be controlled within the range of 25-20, and the temperature should be below 6.5K.
The next round of production can be performed. Increased production is recommended to increase the input/output volume at a ratio of 1: 4.Then enter the cycle cooling here.
It is speculated by the maximum reactor for 180 hours.It can be improved by 50+ times of cooling, and the net output at the end of the period should exceed 2 million.(300*3/4 = 225)
Turn off
The final chapter.Because the duration of the reactor is too long.It is estimated that many people have not paid attention to how to shut down.Say the system here
When doing this test for the first time, the reactor was closed and the reactor was initially stable (temperature of 6K. Two energy tanks about 20%) was turned off.Because the temperature must be less than 2500, the reactor is at a high level of activity at this time.Key: Energy export cannot be performed during shutdown.After a long cooling, the energy slot stays at 98%.(Specifically look at the startup link above)
In the final environment, when the possible yields reach 200 or even 3 million, the direct heat shutdown will cause the cooling to reduce the cooling and the energy cache is full.
By the way, test the operation of cooling first after cooling
First of all, the control field is still charged.
The higher the degree of energy, the higher the cooling.(It's a bit wasteful. But I'm ready to shut down, don’t be afraid of this)
Or control to more than 50%, and then cool down at 50,000 gear (the speed of the test of 100,000 gears is a bit fast. To allow the reactor to be in an environment with a decrease in yield and rising reserves for a long time, it is the fastest way to cool down)
The 500,000 charging control slot is directly full, and those who are more diligent can slowly reduce the exit rate of the guide
The effect of about 10 minutes
The control is not very good, shut down
The control is not very good, the shutdown energy is a bit high, more than 80%.
The hand was cheaply ordered the shutdown key.Essence
Energy can no longer be exported.EssenceSeeing that it was about to explode.Essence
Survive.Energy daily limit.Essence
It feels too much trouble.EssenceEssenceStill blown directly.EssenceEssenceIsn't it good to make another set at 180 hours?EssenceEssence
end
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