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The passive stacking scheme mechanical power (Create) Minecraft Game

2024-12-10 17:54:14|Myriagame |source：minecraft skins

Active boilers usually need to build various fuel facilities, or build in a suitable environment (such as the construction of lava pumps requires a lava layer underground).Therefore, in the early stage of development, when a large amount of stress is not required, the source of passive stress is generally used.

This tutorial is used to record dense stacking methods of various passive stacking sources and the corresponding cost and efficiency.

Waterwheel

Basic unit

The most densely displayed way of waterwheels is to place one at a time, but it will cause no room for water flow.At this time, if one of the five waterwheels is replaced with water flow, it can just drive the remaining waterwheels:

In order to facilitate the display structure, part of the position in the picture uses the barrier to block the water. These positions may be replaced by other units when stacking.The glass indicates the water blocking block that must be placed.

Stacking method

The oblique staggence unit can reach the maximum density, and it can be directly stacked at the direction of the screen vertically.

Related data

Materials required for each unit:

Materials Anshan Alloy wooden board Water Number 1 32 1 barrels 1

Basic unit volume: 10 blocks (any four adjacent units will surround a vacant position)

Basic unit power density: 256 SU × 4 ÷ 10 blocks = 102.4 SU/Block

When the scale is large, the process of gathered power output may be more troublesome.

Large waterwheel array

Basic unit

Since the model of large waterwheels will cover the surrounding squares, the insurance library is used instead of the location of the large waterwheel:

The direction of the water can be the opposite

Stacking method

Like a waterwheel, it can be stacked directly on the axis, but the plane stacking method is not the same:

Use a safe instead of the sign of large waterwheels to replace the appearance of the large waterwheel, and the location of the water can hardly see the location of the water.

Related data

Materials required for each unit:

Materials Anshan Alloy wooden board water quantity ^{1 /₂}

32 1 barrel

Basic unit volume: 20 blocks

Basic unit power density: 512 SU × 2 ÷ 20 blocks = 51.2 su/block

Compared with waterwheels, the volume of the same power has doubled, but half of Anshan alloy is saved, and the output of power is relatively simple.

Passive boiler array

Basic unit

The unique outline of the boiler structure makes it a perfect stacking way:

The selected part of the blueprint frame is the basic unit

The two boilers can be seamlessly stitched together. The gap between the engine and the crankshaft can also be used to place the thermal source of the above layer of boiler.

Stacking method

Horizontal direction: When stacking horizontally, it can be placed directly. When stacking vertically, the fluid pipe and transmission rod can be shared.

Vertical direction: Two layers are one cycle, and the upper layer structure is the mirror of the next layer.(Don't forget to add the heating source to the bottom layer.)

horizontal stacking vertical stack water supply module

The transmission distance of the power pump limits the number of layers of vertical stacking of the device. To continue stacking, you need to use the power pump to press pressure or reconnect.

(If there is no pipeline that has no transmission distance restrictions in other modules, you can skip this paragraph.)

Note: The construction of a large -scale passive boiler array does not make sense except that it looks cool, it is far better to build active boilers to save materials.Here are only two feasible expansion methods to prove that it can stack infinitely.

1. Press the water supply again

From the water sources outside the array, supply the entire array along the pipeline, and the power pump is re -pressed in a lack of pressure:

Compression layer

advantage:

The structure is extremely simple. You do not need to provide motivation from the outside. After starting the bottom of the other side of the boiler on the other side, it will supply water to the top;

The power pump used in water pumping is outside the array. It can design its own transmission method by itself to save the stress required to start boiler and maintain operation.

shortcoming:

The water source outside the array also needs to occupy a certain space;

The pressurization process occupies the stress of some boiler output, so that the permission of each boiler unit can output the permission (the optimization of the water supply system can make up for this).

2. Layered water supply

Each number of layers leaves space and placed water sources and power pumps. Each layer of water sources are supplying water adjacent to the neighboring boiler, and no secondary pressure on the pipeline is performed.

When the water supply layer is designed, it should not be placed in a water -containing block, etc. in the transmission rod, gear, etc. into a square block that will be extracted by the power pump, which will affect the efficiency of the power pump pumping.

In the current scheme, the pipeline of the water supply layer will block the transmission shaft. If multiple water supply layers are required, the above water supply layer needs to be vacuum to the power output.

Basic unit (only water supply layer) Basic unit (water supply layer+power layer) Materials Copper ingots log Anshan alloy heat source Illustrated Water > 3 /₄ A 14 ¹/₄ A 2 and 2

Stagnation water supply module

(Including power layer)

6 5 ¹/₂

5 ^{3 <}/₄ One-2 ¹/₃

4 barrels

(least)

Basic unit volume: 15 blocks

Total volume of the water supply layer + power layer + 25 layer basic unit: 15 blocks × (25 + 2) = 405 blocks

Basic unit power density (excluding pumping consumption): 2048 SU × 2 ÷ 15 blocks ≈ 273.1 SU/Block

Power density using layered water supply method: (2048-80) SU × 50 ÷ 405 blocks ≈ 243.0 SU/Block

The maximum efficiency is more than twice the waterwheel array, but the cost is much higher than the waterwheel.In contrast, the only benefit may be that its array is Founder.

Windmill array

Basic unit

The stack of windmills has no technical content.Because the dynamic structure does not block the placement of the square, the windmill can be stacked quite compactly, and the power density is reached under the conditions of equipment performance allowed.Sailing is a single -layer structure, and the shape can be designed by itself

Stacking method

It is obviously stacked in the vertical direction, but pay attention to the connection method of the chain transmission box, or use the conveyor belt to prevent some transmission boxes from output power.

After each sides of the unit, the sails on both sides are activated, so that there is time to place the sail of the next unit.

You can also place the structure and activate it in the distance, and then use the power piston and other equipment to move the structure into the array to avoid seeing the dynamic structure of rotating more dynamic structure.

Do not move multiple adjacent windmills as the same dynamic structure, otherwise the part that overlap during block will be destroyed when it starts.

Related data

Materials required for each unit:

Materials Logwood Anshan alloy Stone Wool Basic structure 1 ¹/^{4 ¹/₂ 2 ¹/₃ Person128 basic units volume (excluding sails): 4 blocks}

Maximum power density of basic units: 8192 SU × 2 ÷ 4 blocks = 4096 SU/Block

The power density of the level 9 boiler will not be greater than 2350 SU/Block, and the windmill array has far exceeded this value.

Of course, the price is the pressure caused by the server and a large amount of wool, log and Anshan alloy.

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