[Gregtechintergalactical-6] Fluid pipeline foundation [GT6] Gregtech 6 (Gregtech 6) Minecraft Game

2024-12-10 17:56:57|Myriagame |source：minecraft skins

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

If you match the pictures, dozens of pictures seem to be troublesome, and the full text is good.I do n’t moding, so these conclusions are basically obtained by experiments, not involving counter -compilation to view the specific operation method.If you have any mistakes, please be right.

The experiment that verifies the following conclusions is easy to do. It uses its own pipelines, tanks, and fluid volume sensors (adjust to average mode) or Omniocular directly to view pipeline flow.Generally speaking, a circular pipeline is built to determine its stable traffic.

Let's start with the text.

————————————————————————————————————————————————————————————————————— 1 ——————

Basics of fluid pipeline

Produced by Pan Yinhe Gray Technology Co., Ltd.

Magic Taxation

Chapter 1 Theoretical Basic Part

What is fluid pipeline?

Fluid pipeline is a science that studies the law of flowing in the pipeline.

Its research objects are pipelines and pipelines.Its core content is traffic.

The research content of fluid pipelines is the law of flowing in the pipeline.Its task is to solve the problem of fluid pipe science that Gray employees will encounter in daily work.

The basic part of the fluid pipeline is discussed only: the pipeline is large enough, the liquid is sufficient, and the pipeline flow is stable.

If you have higher problems to solve your needs, see [Gregtechintergalactical] high -level pipelines.

If you have the problem of logistics transportation, please refer to the pipeline basics of [GregtechIntergalactical].

Basic rules 0: The fluid pipeline (hereinafter referred to as a pipeline), like the storage tank, has space to store the fluid; the fluid pipe has its own flow limit, most of which are half of the storage volume.The bottom output at the bottom, the upper limit of the flow depends only on the pipeline capacity at the exit.

Basic rules 0 is a simple and basic fact.In fact, there are no essential differences between storage and pipelines in any pipeline system.This will naturally understand this when you see it.

Basic Rules 1: There is a flow resistance in only fluid pipelines, and there is no flow resistance in the storage tank.

How do you understand this?In simple terms, a simple pipeline system (only fluid inlet, pipelines, and fluid exports). With the pipelines that are not too short, the traffic in the pipeline is distributed from the liquid exit to the fluid entrance.The length of its ladder is actually measured by 2.In other words, the closer to the fluid entrance, the smaller the flow resistance and the higher the pipeline flow; the closer to the fluid exit, the greater the flow resistance, and the lower the pipeline flow.At the exit of the fluid, the pipeline flow is the lowest.In addition, in a simple pipe system, the fluid flow in the pipeline is not completely linearly decreasing, but a gradient difference will be generated once per interval between 2 pipelines.In other words, in the simple pipeline system, in addition to the entrance and exit, there must be a traffic that is the same pipeline of a pipeline.This is the characteristic of the MOD encoding of GT6, which can be considered as one of the objective laws.

There is no flow resistance in the storage tank. This will be explained in inference 2.

Inference 1: In a circular pipeline, the fluid in the pipeline will only flow from high flow to low flow.

This is a conclusion based on the above rule.People who have learned physics may think of this characteristic and calories of fluid pipelines (but in fact, heat can still flow from low temperature to high temperature).The fundamental reason is that there is a variance of flow gradients in the fluid pipeline, and the flow difference of the flow of flow has become the driving force for fluid flow. The driving force for fluid flow determines the direction of the fluid flow.In the actual process, at the two pipelines where the flow resistance is basically equal, the situation of high resistance is often higher than the low resistance. This is caused by the large flow of flow, and the traffic is not caused by floating -point numbers.

Inference 2: If there is a fork with a flow of 0 in the pipeline, the fluid will only flow in this direction.

What is the fork?It can be the side branch that you open on the pipeline, or you can use a storage tank, a machine, and the exit of the pipeline.Because the pipes connected to the exit of tanks and machines, there is no flow resistance except the direction of the export, and the rest of the other direction has flow resistance, so the fluid will only flow to the direction of the exit.

The result of this is that all pipelines have the characteristics of similar to the BC clay pipe next door.It will always give priority to filling out export containers instead of continuing to flow to other pipelines, which coincides with the characteristics of the pipelines in the "Basis of Pipeline".Based on this characteristic, people have developed many pipeline design, which saves a large number of fluid filter coverage versions, which brings vigorous vitality to the company's development.

Basic Rules 2: If a pipeline has a fork that is not exported, the fluid resistance in each direction except the entrance is equal.

When the fluid flows to the fork, the gas with an arbitrary density will not cause additional resistance due to the geographical direction, such as the southeast, northwest, and the northwest.A good application is that in the average distribution of the pipeline, it only needs to simply give the n branches other than the entrance, and the fluid will automatically divide into N parts.Using this feature can be made into an arbitrary proportion flow distribution system.In the merger of the pipeline, due to the different resistance of the resistance generated by multiple entrances and the different calculation order, the specific problems will be very complicated: even if the two pipelines that are completely symmetrical are merged, the flow on both sides of the pipeline is merged.Often different.For specific rules and calculations, see [Gregtechintergalactical] the resistance calculation part of the high fluid pipeline science.(The handwriting below this chapter is hidden by the fog. Over time, the seal will be lifted slowly)

—————————————————————————— the foundation of fluid pipes ——————————————————————————————————————————————————————————————————

—————————————————————————————————————————————————————————————————————— 2 ——————————

Chapter 2 Calculation Basic Part

How to determine each of the fluid flow in a pipeline is the closest research content of the fluid pipeline learning, and the bridge from theory to practice from theory to practice.Fluid pipelines that only talk about soldiers on paper and do not conduct practical applications are like storms.On the contrary, it is not good for fluid pipelines to design pipeline design, just like building an air tower.In accordance with the principles of this book, this chapter still discusses only the calculation of pipelines, enough liquid, and stable pipeline flow.

For simple pipelines that only exit and exit, the pipeline is only a simple flow conveying process, and its flow depends only on the traffic at the entrance and the maximum tolerance of the pipeline.Of course, special circumstances will still exist:

【Quotation】 Magic reference

If this kind of pipeline with any traffic limit after the entrance is less than the entry flow, then the fluid will reach the upper limit of its flow in the pipeline, and the pipeline accumulates from the pipeline from the direction of the entrance until it reaches (this pipe entrance entranceThe upper limit of the pipeline in the direction-The upper limit of the flow of this pipeline/2).This is due to the result of a high -traffic pipeline, which mediates the result of the return phenomenon.

———— [Gregtechintergalactical] High fluid pipelineology

Because the pipelines of simple pipelines are relatively simple, the amount of computing is usually small in practical applications.The circular pipeline has a large demand for calculation.Like the cooling solution backflow of the nuclear reactor, the problem of distilled water backflow of the boiler, and the chlorine return problem like the tungsten process, you need to calculate the best way to determine the optimal path.

Basic Rules 1: There is no number of blocks with a circular pipeline with odd numbers.

This is a rule determined by the basic characteristics of the world.At present, there can be a variety of different -dimensional transmission and non -unilateral pipe cubes that can break this rule.The application problem involved in breaking this rule will be explained in detail in the high -level pipeline design part of the "High fluid pipeline learning".

Inference 1: In a circular pipeline, there must be a pipeline, and the flow value of all pipelines must be an integer or semi -integer multiple.

The interpretation of this problem is extremely complicated, but it can be launched through the basic rules and inferences in the first chapter and the basic rules of this chapter.In order to facilitate the use of the company's employees, the explanation of this issue will be placed in the book "High fluid pipeline learning".Combined with the situation in the [Quota] above, you can conclude a few times.

Basic Rules 2: In a circular pipeline, the default exit is connected directly through a block with a flow resistance of 0.If there is a pipe with flow resistance between exports and entrances, it must be considered when calculating.

Inference 2: This integer multiple of pipelines must be positioned at one or two squares at the exit.

Assuming that the exit is an exit that is generally connected to the tank/machine in the entrance, and its flow resistance is 0, then the fluid at the exit will directly enter it, and the flow of this grid must be 0.It is adjacent to it, and the traffic at the exit of the exit will be the minimum value in the full pipeline.Assuming that there are pipes with flow resistance at the exit and entrances, the flow resistance of the export cannot be considered 0, but there will be no actual flow resistance. Instead, the overall calculation is required.In this special case, a minimum traffic will be generated at a small flow at the exit; even, in the unidirectional valve pipeline using multiple storage tanks, there will be liquid in the storage tank.Objective flow resistance can be calculated in case of specific values.Inference 3: The flow of all pipelines of the pipeline, the amount of traffic is allocated in accordance with the double number of the resistance.

Based on the content mentioned in these two chapters, it is relatively simple to draw this conclusion. Please launch it by yourself.

Experimental conclusions 1: Pipeline flow resistance is affected by various factors, including pipeline flow, pipelines, and some unknown factors.

In the process of conducting experiments, the editor encountered many strange things, including the same system to change the direction, such as sitting east to west to west and west, which will change the traffic data of the entire pipeline.Change the material or size of the gradient of the entire pipeline.At present, related conclusions are asking the company's top leader.

Experimental conclusion 2: The flow resistance of the pipeline has two modes.

After experiments on the simple pipeline system, the two models of traffic ratio have been measured, and the flow ratio of traffic and flow resistance in the same pipeline can be concluded.The common point of the two models is that they contain the parts of the equal number column.

For a simple pipeline with a number of blocks 2n, that is, at least N gradient simple pipe systems, the two modes of the ratio of the flow of each gradient to other gradients are:

Mode 1 is 0: 1: 1: 3: 3: 3: ....: 2N-3: 2N-3: 2N-1, where 0 is the storage tank as the inlet and exit of the pipeline.The exit is a piece.According to basic rules 1, the numbers in this column except 0 are all strange numbers.Seeking peace:

sigma (s n ) = 2N^2-6n+5