Mekanism

Алан-э-Дейл       03.09.2022 г.

Understanding Slots and Sides

Notice in the GUI above that several of the objects have a colored border. These «slots» in the user interface are places where items can be inserted or ejected from the machine. For example, the input (4) is red and the output (6) is dark blue. These are standard input/output colors for Mekanism. You cannot change these colors, but what you can change is which side(s) each slot connects to. Yes, you can connect a single slot to multiple sides! For example, you could set the top of the machine to be the input (red), the right side to be an output (blue) and the back to be a second output (blue). In this configuration, if one output slot was blocked, the machine would try to send an item out the second output.

So how do you configure the slots? Read on…

Уровень 4 [x5][]

Самый сложный уровень из всех. Задумайтесь, а нужно ли вам это? Конечно же его можно было построить более компактно… но это уже другая история. Для него нам потребуется добавить к 3 уровню это:

   Дробитель
   Измельчитель  (Потребуется модификация Thermal Expansion)
   Энергетическая плавильня
   Химическая инъекционная камера
   Химический окислитель
   Химический наполнитель 
   Роторный сгуститель
   Химическая камера растворения
   Химический мойщик
   Химический кристаллизатор

И так.. добавляем Камеру растворения > Химический мойщик > Химический кристаллизатор > и всё это к 3 уровню в данном порядке.

Химический мойщик требует воду, которую нужно подавать сверху. А вот для работы Камеры растворения нам нужна серная кислота, которая делается в Химическом наполнителе из триоксида серы и водяного пара. Пар можно заполучить, если залить воды в Роторный сгуститель, дать ему энергию (как в прочем и всем механизмам в этой системе) и переключить его в режим деконденсации.
Ставим Роторный сгуститель так, чтобы меньшее отверстие смотрело в левый бок нашего Химического наполнителя.
Триоксид серы делается из диоксида серы и кислорода. Кислород мы уже знаем где брать, (а если вы уже забыли, то в Электролитическом сепараторе из воды) подаём его с правой стороны ещё одного Химического наполнителя.

Диоксид серы делается в Химическом окислителе из серной пыли… где нам её брать? Ставим Химическую инъекционную камеру и даём ей хлороводород (лучше построить ещё 1 системку производства этого вещества, поскольку его будет жёстко не хватать, но я запитал от уже готовой системы) и порох. Порох в большом количестве будем производить уже не только при помощи Mekanism’а, а ещё возьмём Thermal Expansion. Ставим энергетическую плавильню, в которую подаётся булыжник, и которая отдаёт камень в измельчитель. Измельчитель делает из камня гравий и с 15 % песок (если хотите, можете его оставить, но я его уничтожаю). Первый измельчитель отдаёт гравий во второй, который уже делает кремень и с 15 % песок (та же история). Кремень подаём в дробитель из Mekanism’a, там он дробится в нужный нам порох (его вы можете подавать в Хим. Инъекционную камеру по трубам, или же поставить систему производства пороха впритык).

Руду суём в Камеру растворения.

Обрабатывающие машины

Изображение Название Описание
Камера обогащения Простая машина, используемая для обогащения руд путём преобразования одного блока руды в две единицы пыли, а также для выполнения множества других операций.
Осмиевый компрессор Довольно улучшенная машина, используемая для сжатия осмия в различные виды пыли для последующего создания из них слитков.
Объединитель Машина, используемая для объединения пыли и булыжника для формирования соответствующей руды.
Дробитель Машина, используемая для дробления слитков в соответствующую пыль, а также для выполнения множества других операций.
Металлургический наполнитель Машина, используемая для «наполнения» металлов (как правило) различными материалами, для создания металлических сплавов и других соединений.
Камера очистки Улучшенная машина, способная перерабатывать руды в три глыбы, выступающая в качестве начальной стадии переработки руды с трёхкратным выходом.
Энергетическая плавильня Простая машина, служащая в качестве базовой Mekanism-печи, работающей от энергии.
Точная лесопилка Эта машина используется для обработки древесины и других деревянных предметов, а также для получения опилок.
Химическая инъекционная камера Сложная машина, способная перерабатывать руды в четыре осколка, выступающая в качестве начальной переработки руды с четырёхкратным выходом.
Герметичная реакционная камера Улучшенная машина, которая обрабатывает твёрдые, жидкие и газообразные смеси, и создаёт как газообразный, так и твёрдый продукт.
Химический мойщик Очень сложная машина, которая очищает необработанные расплавленные руды и подготавливает их для кристаллизации.
Формульный сборщик Машина, использующая энергию для быстрого крафта предметов и блоков с помощью формул.

Уровень 3 [x4][]

Это ещё не самое сложное… нам понадобятся добавить ко 2 уровню:

   Химическая инъекционная камера
   Электролитический сепаратор 
   Химический наполнитель
   Тепловой испаритель

Для начала поставим ко 2 уровню Химическую инъекционную камеру и настроим входы/выходы. А вот дальше начинается веселье. Для работы этой камеры нужен хлороводород, который получается путём смешивания хлора и водорода в Химическом наполнителе. Где брать водород мы знаем — в Электрическом сепараторе из воды. А вот где же нам взять хлор? Для него нам понадобится залить в ещё один Электролитический сепаратор Рассол.

Для получения Рассола нужен тепловой испаритель — мультиблок, использующий воду и солнечное тепло.

Для теплового испарителя понадобится:
1. Контроллер теплового испарителя
2. Вентиль теплового испарителя
3. Блок теплового испарителя
4. Продвинутый солнечный генератор

Строим его вот так:

Контроллер теплового испарителя и Вентиль теплового испарителя могут находиться в любой точке каркаса мультиблока.

Через один вентиль мы заливаем воду, через второй забираем результат. Чтобы настроить механические трубы на вытягивание жидкости, возьмём конфигуратор и переключим его в режим Жидкости, зажав шифт+ь (shift+m). Нажимаем правой клавишей мыши по краю трубы конфигуратором с шифтом, и режим трубы будет изменяться. (Если труба стала меньше (PUSH — напишет в чате), это значит приём жидкости, а если увеличилась (PULL — напишет в чате) — вытягивание.)
Энергия от солнечных генераторов никуда не идёт, по этому её можно спокойно забирать в Энерго-куб.

Уровень 2 [x3][]

Уже посложнее, для этого случая нам потребуются добавить к 1 уровню:

   Электролитический сепаратор
   Камера очистки
   Дробитель

Все что нужно, так это добавить к 1 уровню два механизма (камера очистки > дробилка > 1 уровень), перенастроить входы и выходы и пропустить руду слева на право, с одним небольшим «но». Для работы камеры очистки нам потребуется сжатый кислород. Вместо кислорода можно использовать ванильный кремень, но его требуется очень много. Проще всего доставать кислород из воды в электролитическом сепараторе. Для производства кислорода, помимо воды ему потребуется электричество. Вода подается сзади, сверху или снизу. Слева отводится водород, справа — кислород. Для отвода газа (в нашем случае кислорода) используются герметичные трубы. Для того, чтобы у нас был небольшой запас кислорода на будущее, я поставил газовый баллон, настроенный на приём газа слева и отдачу сверху. Если вам не нужен водород, можно переключить режим внутреннего резервуара на сбросить лишнее или сброс.

Usage

To begin, the Digital Miner needs a source of power. It can be powered through its energy slot (see GUI below) or by one of its three energy ports (indicated by a green square), which are situated on the sides and bottom.

In the main interface, click on the gray Config button to specify the area and filters for him to use. If you do not wish to leave empty spaces where ore blocks used to be, fill the block replacement slot with any block, turn on the requirement in the filters, and supply the necessary blocks in the machine’s inventory.

Once powered and your filters made, hit the Start button back in the main interface to start mining.

The Digital Miner has two IO-Slots (indicated by a yellowish-tan square), the one on the back, where the items can be picked up, i.e. by Logistical Transporter (mod equivalent of an item pipe) and the one on the top front to insert replacement blocks, i.e. from a bin (mod equivalent of a container).

To speed up the miner, use speed upgrades. To increase the energy capacity and efficiency of the miner, install energy upgrades. Up to 8 can be used for a 10x effect for both upgrades.

It is not recommended to use the digital miner to break items of high importance (machinery/altars) without first testing what effects it can cause (worst case being the item breaks without it dropping and not appearing in the Digital Miner’s inventory). If you are unsure of anything, try testing the desired item/block first (ores should always be safe to mine).

Even though it can bypass obstacles (e.g. warded zones from Thaumcraft, shielded areas from RFTools etc.) by directly accessing the block, it cannot break unharvestable blocks or redstone.

For more detailed information, read the sections below.

Usage

  • The MekaSuit like most rechargable Mekanism items has infinite durability, requiring Forge Energy to function instead.
    • Every time the player takes damage it uses up some of the electricity in the armor, evenly distributing the charge loss throughout all pieces at once.
    • The total charge remaining is shown both when hovering over the suit pieces in the inventory and as a green bar where armor points are usually displayed.
  • When worn, the MekaSuit Helmet brings up an Augmented Reality inspired UI within the player’s field of view. It displays the following information to the player:
    • Top Left: The remaining charge (as a percentage) of each currently worn armor piece.
    • Bottom Left: The current location coordinates (X,Y,Z) of the player, within a simple compass which shows orientation.
    • Bottom Right: The current status of modules installed. For example, it will display remaining jetpack hydrogen if the player has the Jetpack Unit installed, or how much food is remaining in the helmet if the Nutritional Injection Unit is installed.

Config Interface

Number Label Description
1 Back Arrow This arrow brings you back to the main interface.
2 Scroll Bar If you have more than four filters, drag the slider to view the other filters. Alternatively you can just use your mousewheel.
3 Filter List Edit/Delete your filters by clicking them. You can adjust the priority of what is mined first or last by clicking the triangular arrows near the bottom right corner of each filter (top is highest, bottom is lowest). Sadly you CANNOT turn a filter on/off.
4 Create New Filter Button Click this to add a new filter for the digital miner to use. You can choose between ‘ItemStack’, ‘OreDict’, ‘Material’, and ‘Mod ID’. Once you’ve chosen one, you’ll have to configure it (see Filters below for more info).
5 Inverse Button Toggles inverse mode, in which it will mine everything but the blocks/items listed in the filter list. A practical use for this is to add filters for common blocks like stone, gravel, dirt, grass, sand, etc., using inverse mode this way will make it mine everything, even blocks that might not be included in the ore dictionary.
6 Config Screen Displays the current amount of filters made/used (after the T colon), the radius (in blocks), the minimum y-value, the maximum y-value, the last three contributing to what area the digital miner will cover, and lastly whether inverse mode is on or off (after the I colon).
7 Radius Setting Type in the radius you want the digital miner to cover in the black text box left to the check box. Acceptable values are 0-32, where 0 is one block directly at the center of the digital miner, 1-32 will add the corresponding sized square around this block (# of blocks from the center to the edge/corner). Area: (2x+1)2, x = radius.
8 Minimum Y-value Setting Type in the minimum y-value the digital miner will cover. This value cannot be higher than the maximum y-value, if set to a higher value, it will be set to the current maximum y-value. Setting the max/min y-values to the same number allows the miner to mine one layer of blocks.
9 Maximum Y-value Setting Type in the maximum y-value the digital miner will cover. This value cannot be lower than the minimum y-value, if set to a lower value, the value will not change from its current one.

Miscellaneous Notes

  • Compatible with oredict steam from other mods such as TE/TF/RC/MFR/Big Reactors.
  • The marking of «Limiting» on the vents stat simply means that it is not «optimal ratio». You can have fewer down to your desired steam flow rate.
  • Turbine shuts down if internal battery fills with energy. It will restart automatically though you may also vent excess steam to prevent it from shutting down.
  • A 5x5x8 turbine design will produce the exact same RF/t as the highest tiered turbine from Big Reactors with the same amount of steam.
  • Exact formula to calculate the flowrate of your turbine — understanding is not necessary. Just fill the values and perform the commands:

//Btw — NOTICE AND REMEMBER THIS:
//Math.min => Takes whatever is lower
//structure.lowerVolume is the INSIDE volume with the rotor -> (-> TurbineUpdateProtocol.java:172) and so on…»]

flowrate =
(

   Math.min(
       Math.min(
           TURBINE_STORED_AMOUNT ,
           ↑Math.min(
               structure.lowerVolume 
               *
               (
                   TURBINE_DISPENSER_COUNT*GENERAL_DISPENSER_GAS_FLOW
               ),
               TURBINE_VENT_COUNT*GENERAL_VENT_GAS_FLOW
           )↑
       ),
       (
           (
               getMaxEnergy()-getEnergy() 
           )
           /
           (
               (GENERAL_MAX_ENERGY_PER_STEAM/TURBINE_MAX_BLADES )
               *
               Math.min(
                   TURBINE_BLADE_COUNT,
                   TURBINE_COIL_COUNT*2 
               )
           )
       )
   )
   *
   (
       TURBINE_STORED_AMOUNT /TURBINE_MAX_STORED_AMOUNT 
   )

)
/
(

   Math.min(
       structure.lowerVolume 
       *
       (
           TURBINE_DISPENSER_COUNT*GENERAL_DISPENSER_GAS_FLOW
       ),
       TURBINE_VENT_COUNT*GENERAL_VENT_GAS_FLOW
   )

Features

Compatability

Compatibility comes first. While Mekanism will run just fine alone, I have spent so very long adding in integration to make Mekanism seem like it blends in perfectly when you have other mods installed. Whether you are powering my machinery with EU, RF, MJ or whatever it is, they will work. IC2 and TE recipes are implemented in my respective machines, and just about everything else will work as well. I like to think of this as one of Mekanism’s best features.

Ore Processing


Ore processor capable of producing 4 ingots per ore

Mekanism features an extremely advanced, extensive ore processing system. From simple machines used to process ores into ingots electronically, to complex chemical-based ore injection used to gain four ingots for every ore mined, Mekanism covers basic smelting, as well as 2x, 3x, and 4x duplication. All machines have configurable input and eject sides, allowing you to have complete control over how you want to manage your machinery. Mekanism also features the Combiner, which allows you to recreate the ores you’ve already processed.

Factories


Elite Factory Interface

Mekanism introduces the concept of «factories,» which are multi-operation machines that can process multiple stacks of ores simultaneously. In a single machine, you can be smelting several stacks of ore into ingots, enriching several stacks of ores into dusts, or crushing several stacks of cobblestone into gravel. The Factories follow base Mekanism tiers, with the Basic Factories processing three stacks at once, the Advanced Factories processing five stacks at once, and the Elite Factories processing seven stacks at once. In other words, the Factory can be seen as seven machines in one in it’s elite tier.

Ores

All Mekanism ores have configurable spawn rates and disable options in the config (Mekanism.config). It’s pretty self-explanatory.

Mekanism is founded off the resource «Osmium» which generates pretty commonly at any Y level below 60. Osmium can be used to create tools and armor, but it is primarily used in the makings of machinery. If you have NEI, you’ll see that you really can’t do much without Osmium.

Mekanism also generates Tin and Copper, both of which can be easily disabled (and I’m assuming many people will since 99% of mods have their own form of tin and copper).

Armor and Tools

Mekanism brings five new sets of armor and tools to the table, as well as the ever-famed Paxel (an all-in-one tool).

However, as Mekanism is a «tech mod,» it has to have some cool techy gadgets. The Atomic Disassembler is an expensive, electronic multi-tool that can be set to mine at different speeds. The Walkie Talkie is a super fancy device that allows for SMP-based voice chat. Can’t forget the Jetpack and Scuba Mask/Tank combination.

Robit

The Robit is a cute little electronic robot that will follow you around and collect item drops for you. He also serves as a portable furnace, workbench, anvil, chest, and spirit lifter.

Mining

Mekanism introduces the «Digital Miner» — an automated mining machine that can sort through terrain and pick out the resources you specify. It uses a filter-based system, and will then go through the range you specify and mine the blocks it needs to.

Dynamic Tanks


Dynamic Tank setup

Dynamic Tanks are the best of both worlds: whatever is in between Multi-Tanks and Iron Tanks. These are multiblock tanks that can be shaped as any rectangular prism (capping at 18x18x18). Use Dynamic Glass, Dynamic Valve, and Dynamic Tank blocks to create a tank fit for you!

Transmitters

Mekanism features ways of transmitting items, fluids, gasses and energy from once place to another, devices we call «transmitters.» Transmitters all have some similar characteristics, and these are as follows:

  • Transmitters (excluding the Logistical Transporter) will not function when powered by a redstone signal.
  • All transmitters seamless work with Forge Multipart.
  • Excluding the Logistical Transporter which obviously behaves differently, transmitters hold buffers that are dependent upon how many transmitters are in the network. For example, if you have two Universal Cables connected together, your network will have a capacity of 20 KJ.
  • All transmitters look really cool.


All four Mekanism transmitters

Universal Cable

Capable of transferring, well, universal energy from one place to another. These guys are super fancy and can be configured on their sides to behave differently.

Logistical Transporters

Capable of transferring items and blocks from one place to another. These function identically to RedPower tubes, and have a fully-implemented color-coded sorting system.

Starting the Reaction

The Fusion Reactor will not start on its own. It requires an outside burst of energy from a charged Laser Amplifier and a small amount of D-T Fuel to begin the fusion process. Once the reaction is jump started, it will begin consuming supplied Deuterium and Tritium, creating plasma and generating power.

Initial Fuel

The Hohlraum stores 10 units of D-T Fuel required for the initial reaction. To fill it up, place it into a Chemical Infuser which is combining Deuterium and Tritium. Place the Hohlraum into the Reactor Controller when it contains the required D-T Fuel.

Ignition

The statistics tab details the required ignition temperature for the reaction to begin. To reach this temperature, a Laser Amplifier must be charged with energy from several Lasers feeding into it, and fired into the Laser Focus Matrix. The energy required to start the reaction can range from 600M RF — 800M RF. It must be injected in one big burst to prevent temperature from dissipating, so adding Redstone sensitivity or increasing the minimum energy required by the Amplifier will prevent it from firing prematurely.

With the Hohlraum in the Reactor Controller and enough energy stored in the Amplifier, fire the laser to begin the fusion reaction. If a high enough temperature was achieved, you should immediately see and hear the reactor running. To sustain the reaction, the temperature must not drop below the ignition temperature. Make sure the injection rate is high enough and fuel is constantly being supplied.

Speed Upgrade

Speed Upgrade

Mod
Type

Upgrade

Durability

N/A

Stackable

Yes (8)

A Mekanism machine upgrade to make them process items faster, you can install 8 of these in each Mekanism machine. If you were to apply speed upgrades to a factory, the power consumption is accumulative. For example, if each operation were to cost 50J/t, a basic factory with 3 ongoing operations will cost 150J/t. HINT: Upgrade your power setup before upgrading your machines, as the power usage per tick begins to escalate with every speed upgrade applied, requiring more power to complete a single machine process.HINT: If you plan to use Speed Upgrades for a machine, it is advised to also install Energy Upgrades and Gas Upgrades if applicable.

Here’s a tables:

# of Speed Upgrades Speed Multiplier Time per Operation (20 ticks = 1 sec) Relative Speed Power Usage Total Power Usage for each Operation
1x 200 ticks 100% 50 J/t 10,000 J
1 1.33x 149 ticks 134.2% 88 J/t 13,112 J
2 1.78x 112 ticks 178.6% 158 J/t 17,696 J
3 2.37x 84 ticks 238.1% 281 J/t 23,604 J
4 3.16x 63 ticks 317.5% 500 J/t 31,500 J
5 4.22x 47 ticks 425.5% 889 J/t 41,783 J
6 5.62x 35 ticks 571.4% 1,580 J/t 55,300 J
7 7.5x 26 ticks 769.2% 2,810 J/t 73,060 J
8 10.0x 20 ticks 1000% 5,000 J/t 100,000 J

Note that every speed upgrade makes the machine 33% faster, and the Power Usage increases with ~77% (33²%), which makes for an increase in power usage for each operation with 33%

Creating basic components / Expanding your power network

You will need to create a few basic crafting components in the Metallurgic Infuser before creating the wires needed to expand your power network, which are made from Steel Ingots.

  1. Craft a Metallurgic Infuser, and connect it to the Heat Generator. ( Power output via front panel )
  2. Use the Metallurgic Infuser to create Steel Ingots.
    1. Insert a few Coal/Charcoal into the Secondary Material Slot (the purple slot on the far left). This will fill up the Secondary Material Slot with Carbon.
      1. The Secondary Material Buffer (bar on the far left) can’t store more than one type of material at a time, so if another type of material (other than Carbon) has already been added (check by hovering over the Secondary Material Buffer), click the DUMP button to expel it. Note that you will lose that material.
    2. Place an Iron Ingot inside of the Primary Material Slot (red slot, left of the arrow). If the Metallurgic Infuser is receiving adequate power, it will begin «infusing» the Iron with Carbon, which results in Enriched Iron.
    3. With Carbon still in the Secondary Material Buffer, place the Enriched Iron in the Primary Material Slot. This will create Steel Dust.
    4. Smelt the Steel Dusts into Steel Ingots.
  3. Now you can begin expanding your power network so that you can power multiple machines at once. Craft a few Basic Universal Cables (made from 2 Steel Ingots and a piece of Redstone) and create a line of them trailing from your Heat Generator.

Your power network is now ready to accommodate many early-tier machines. If you find that your power needs become more demanding, you can try connecting a few more Heat Generators, some Solar Generators (or its much more expensive and efficient version, the Advanced Solar Generator), Wind Turbines (make sure that they are placed at high altitudes for maximum power), or other various generators that Mekanism has to offer. Remember that Mekanism machines can accept most forms of power from other mods (such as RF or MJ) as well as its own (Joules), so feel free to add other sources of power to your Mekanism power network.

Sulfur Dust

Sulfur Dust

Mod
Type

Dust

Durability

N/A

Stackable

Yes (64)

Usage

Sulfur Dust by itself is not used in much recipes. It can be used as a substitution for Yellow Dye, and be used to create gunpowder using an Enrichment Chamber. However, what makes it such an important ingredient is its ability to produce Sulfur Dioxide in a Chemical Oxidizer.

Sulfur Dioxide can then be used to produce Sulfur Trioxide when used in a Chemical Infuser with Oxygen.

Sulfur Trioxide can then be used to produce Sulfuric Acid when used in a Chemical Infuser with Water Vapor. Sulfuric Acid is a key ingredient that is used in the Ore Processing system and in Fissile Fuel Production. A Chemical Dissolution Chamber requires Sulfuric Acid and ores to produce Dirty Slurries (an ingredient in the 5x ore processing process), and requires Sulfuric Acid and Fluorite to produce Hydrofluoric Acid (an ingredient in the production of Fissile Fuel).

Pressurized Reaction Chamber Method

A method is to use the Pressurized Reaction Chamber (PRC) with the ingredients Water; Oxygen; Block of Coal/Charcoal or Coal/Charcoal.

Coal/Charcoal

Using Coal/Charcoal will require 100mb of Oxygen and Water, and the process will take approximately 5 seconds/100 ticks (with no Speed Upgrades). Doing so will yield 1 Sulfur Dust and 100mb of Hydrogen.

Block of Coal/Charcoal

Using Block of Coal/Charcoal will require 1,000mb of Oxygen and Water, and the process will take approximately 45 seconds /900 ticks, 9x slower than using Coal/Charcoal (with no Speed Upgrades). Doing so will yield 9 Sulfur Dusts and 1,000mb of Hydrogen.

Gunpowder Method

By using Hydrogen Chloride and Gunpowder in a Chemical Injection Chamber, you can produce Sulfur Dust. You can obtain gunpowder from flint or a vanilla creeper farm.

Flint Method

Putting Flint into a Crusher will produce gunpowder, which can then be used in the Gunpowder Method. You can obtain flint from gravel.

Gravel Method

Putting Gravel into an Enrichment Chamber will produce flint, which can then be used in the Flint method, then the Gunpowder method. You can obtain gravel from cobblestone or digging.

Putting Cobblestone into a Crusher will produce gravel, which can then be used to in the Gravel Method, then the Flint Method, then the Gunpowder Method. You can obtain cobble stone from a simple cobblestone generator or mining.

Construction Notes

  • Orientation can only be vertical (Unlike BR’s turbine)
  • Length and Width (x,z) must be equal.
  • Maximum shaft height = min(2xLENGTH-5,14)
  • Maximum total height = min(2xLENGTH-1,18)
  • Tank volume = LENGTH^2xROTOR_HEIGHTx64,000mB
  • Flow rate is determined by tank volume (exact formula inside notes) and vents — whichever is less. Each vent adds 16,000mB/t of flow rate.
  • Energy production = FLOWxROTOR_HEIGHTx50RF/7
  • Because a taller rotor leaves less room for vents, sometimes heightening the rotor could reduce flow and, therefore, energy.
  • 1 coil will support 4 blades. You’ll never need more than 7 coils.
  • Interior may ONLY be dispersers, coils, shaft, blades, rotational complex, or air.
  • Multiblock will sparkle red on final block placement, otherwise check your assembly.
  • Minimal turbine size is 5×5 base with 5 blocks high.
  • Maximum turbine size is 17×17 base with 18 blocks high.

Customizing Your Configuration

Everything you need is in the Configuration Panel, pictured above. It may look intimidating at first, but for most installations you will only use a couple controls.

Common Controls

Auto Eject (4). This will tell your machine to automatically eject its output item, if there is a suitable inventory to receive it. If there is nothing to receive an item, the machine will hold onto its products. Mekanism machines will not spill your items all over the floor! 🙂 Clicking the A button will toggle the Auto-Eject function on/off.


Mekanism machine output configuration

Slot/Side Assignment (6). This is where you assign a specific colored slot to the sides of your machine. The image of six squares corresponds to each of the six sides. The gray box in the middle is the front, above that (red) is the top. To the left is the left side (orange), to the right is the right side (dark blue). Below the gray square is the bottom side (green), and in the lower left is the back side (also gray). Note that all sides are configured as if you were facing the machine, not from the machines point of view. You can change which slot connects to which side by clicking on the appropriate side. As you click, you will cycle through all available colors. Not all colors will be a valid slot color. So if you wanted to configure your machine like in the example with the top as the input (red) and the right and back sides as outputs (blue), the top and right are already set up, you only need to click the gray box in the lower left a few times until the dark blue color is selected. Done! It really is that easy. Gray is the «no connection» color.

Advanced Controls
Looking to really customize your system? Read on!

  • Output Color Frame(3). This will set a colored «frame» around items as they exit the machine. In the example above, all ejected items will have a green frame. Mekanism Logistics Pipes will use this frame color to route the items to a matching-colored destination. If no destination has a matching color, the first available destination inventory will receive the item.
  • Input Filter on/off(5). This turns on/off the input filter feature for the machine. If turned on, then machine will only accept items whose color frames match the input filters. If the colors don’t match the filter… they will not be accepted. You can set the input color filters by using…
  • Input Color Filters(2). Like the output configuration (6), each of these squares corresponds with a side of the machine. If a color is set for one of these squares, that side will only accept items if they have a matching color frame. So if you want to be sure that coal goes to the Enrichment Chamber and not the Crusher, set a color filter on the output of the machine that ejects the coal, then set a matching color input filter of your Enrichment Chamber. Magic!

Upgrades

  • Each MekaSuit armor piece supports a variety of different upgrades which give the user various benefits and abilities. Some of these are unique to armor pieces and cannot be installed on other armor pieces. Upgrades are installed using Modules at the Modification Station.
  • Once installed, upgrades can be removed and, if the upgrade is not unique, can be reinstalled on other armor pieces by uninstalling it at a Modification Station and putting it on another armor piece as normal.
  • Each armor piece can have several modules of the same type installed to it depending on the module type, in some cases up to 8. In this case each additional upgrade will improve the ability/effectiveness of the module upgrade.
  • Each module can be uninstalled individually just like machine Upgrades.
  • Modules can be toggled through their various modes if they have more than 1 using the appropriate corresponding armor mode switch key.

Modes

Inverse Mode

The «I» icon toggle Inverse mode. Inverse mode mines everything that is not in the in the list.
A practial use for this is to put Dirt, Grass, Sand, Sandstone, Gravel, Cobblestone and Stone into the ItemStack list and toggle the Inverse mode. The Digital Miner will mine everything but these common materials.

Silk Touch Mode

The Silk Touch button toggles the Silk Touch mode. When mining coal, the miner will instead receive Coal Ore blocks, rather than pieces of Coal. However, this mode requires 6x the amount of energy it needs.

Auto-Eject

The Auto-Eject button toggles the eject function. When a block is mined, the block will automatically be sent to a connected pipe, leading to a chest or to an ore processing machine. If the other end of the pipe is not attached to anything, the miner won’t eject them.

Auto-Pull

The Auto-Pull button toggles the pull function. When a block is mined, the miner will automatically collect one block from a container to replace the mined block. If the required replacement block is missing from the container, depending on the state of the block replacement requirement setting is (active for any filter or inactive for all filters), the miner will stop (active) or continue mining (inactive).

Block Replacement

Not really a mode, but a feature of the filters. When a block is mined, you can choose to leave another block in its it by specifying a block in the filter. Using Auto-Pull mode with this feature is highly recommended so as to keep the digital miner inventory clear and not having to frequently worry about keeping a constant flow/supply of replacement blocks.

Crafting Recipe

MekaSuit Helmet:

Ingredients Crafting recipe

Basic Induction Cell +HDPE Sheet +Polonium Pellet +Netherite Helmet +Ultimate Control Circuit

MekaSuit Bodyarmor:

Ingredients Crafting recipe

Basic Induction Cell +HDPE Sheet +Polonium Pellet +Netherite Chestplate +Ultimate Control Circuit

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MekaSuit Pants:

Ingredients Crafting recipe

Basic Induction Cell +HDPE Sheet +Polonium Pellet +Netherite Leggings +Ultimate Control Circuit

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MekaSuit Boots:

Ingredients Crafting recipe

Basic Induction Cell +HDPE Sheet +Polonium Pellet +Netherite Boots +Ultimate Control Circuit

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