GregTech 5/Mining and Processing

Ores
GregTech disables all Vanilla ores (except Emerald Ore, because Mojang did weird things with it) and replaces them with its own ore generation patterns. These patterns are compatible either by default or through configuration with almost all ores from almost all other mods, so unless explicitly noted, ore generation from other mods can and should be disabled, as GregTech will compensate.

There are two types of ore generation: Small Ores and Mix Veins. Small Ores generate as semi-common single blocks. They are intended as a way to get started and acquire initial tools, but are not intended to be used as primary sources of metal for machinery. When broken, they drop either a Crushed Ore, an Impure Pile of Ore Dust, or, if applicable, a Gem. Additionally, they may drop a Dust or a Dirty Dust of the Stone they were found in. (This can be Stone, Netherrack, Red/Black Granite, or End Stone.) Small Ores cannot be picked up with a Silktouch Pickaxe, however a Fortune Pickaxe will slightly increase their yields. Importantly, Small Ores can be mined at 1 mining level lower than the ores they contain, allowing a miner with a Stone-level pickaxe to obtain enough Iron to craft an Iron Pickaxe.

Mix Veins can generate only one vein per 3x3 chunk area, however Mix Veins can contain hundreds or even thousands of blocks of ore. Mix Veins can contain up to four different ores. Vein contents are dependent upon height and dimension, but are not dependent upon biome. Veins can range in size from 16x16x5 up to 80x80x8 blocks, with very few and small gaps between ore blocks. However, ore veins can only generate where they have Stone, Red/Black Granite, Netherrack, or End Stone that can be replaced by ore blocks.

Mix Veins come in four parts: Primary, Secondary, Inbetween, and Around. Each of them can be a different ore. Primary, Secondary, and Inbetween ores are generated as stack ranges. The upper 2-4 levels of a vein will be almost all 'Primary' ore, the lower 2-4 levels will be almost all 'Secondary' ore, and the middle 2-4 levels will be mostly 'Inbetween' ore. 'Around' ore appears randomly interspersed throughout the vein. When viewed from a distance either via an X-Ray mod or after having removed all Stone in the area, ore Mix Veins look like large, somewhat oval-shaped clouds.

Ore vein generation occurs as a three step process. First, a random point within the center chunk of the area is chosen as the starting point for generation. Then, a random Ore Mix is chosen. If that ore vein can be generated at that point (dimension is correct, altitude is in range, stone is available), size variables are generated, ore generation propagates out, and the vein is formed. If either of the first two checks fail, the algorithm tries again at a new point. Up to three attempts will be made per valid area. If all three checks fail, then no Mix Vein will be generated in that area. On average, this happens about 1/4th of the time, although it happens less commonly in Extreme Hills or similarly mountainous terrain.

Note: If Custom Ore Generation or Per Fabrica Ad Astra: Geologica are installed, GregTech will disable its own ore generation and use COG or PFAA generation. COG contains default configurations for GregTech ores, and PFAA contains its own forms and generation patterns for even more ores than GregTech generates by default.

Default Ore Mixes
The following is a list of all Ore Mix Veins that GregTech can generate by default. (Note: The Naquadah Ore Mix configuration is present but disabled by default.)

Name: The name given to the mix in configuration. This does not have an effect in-game.

Density: How tightly packed the ores are in a vein. Lower values can cause small gaps between ore blocks.

Max Height: The maximum height at which the vein can generate.

Min Height: The minimum height at which the vein can generate.

OrePrimaryLayer: Metadata value of the Primary ore in the vein

OreSecondaryLayer: Metadata value of the Secondray ore in the vein

OreSporadiclyInbeween: Metadata value of the Inbeween ore in the vein

OreSporadiclyAround: Metadata value of the Around ore in the vein

RandomWeight: How likely it is for this vein to spawn. The higher this value is, the better the chance. This value is relative to the total of the RandomWeight values of all the ore veins. The default configuration has a total weight of 1850, so for example,a vein with a RandomWeight of 160 has a 160/1850 (8,6%) chance to spawn per generation attempt.

Size: The maximum area an ore vein can occupy. A vein with a Size of 0 will always occupy a 16x16 block area, while a vein with a Size of 32 can occupy an area up to 80x80 blocks.

Overworld: Can this vein generate in the Overworld? (True/False)

Nether: Can this vein spawn in the Nether? (True/False)

End: Can this vein spawn in the End? (True/False)

Note: GregTech will not generates ores normally in dimensions other than the Overworld, Nether, and End. However, the mod GalacticGreg was created to allow GregTech ores to generate in Galacticraft's Moon and Mars dimensions.

All of these values are present in and were extracted from config/GregTech/WorldGeneration.cfg. WorldGeneration.cfg also includes empty slots for user-defined ore mixes. The ores listed here appear in the configuration file as their metadata values, which range from 1 to 1000, and can be found in two ways: If you do look, you will notice that GregTech contains many, many more ores than it generates by default. If you want the ores, you need only add custom Mixes for them.
 * Load into a world, then leave it, then go to [game directory]/logs/GregTech.log. That file will contain a list of every single material registered in GregTech. Any occupied number between 1 and 1000 can be an Ore.
 * Load into a world and look up 'Ore' in NEI, with Block IDs and Damage Values/Metadata displayed. The Stone variant of every GregTech ore will bear that ore's metadata value. (The other variants will bear that value, offset by several thousand.)

Elements Contained in Ores
''Many, many ores contain traces of Oxygen and Hydrogen. For simplicity, they have not been included in this list.''

If an Ore contains more than one element or material as a primary output, that ore represents a compound which must separated at some point in its processing, usually with an Electrolyzer.

Second Level Processing
These are compounds that need further processing.

Tools
In addition to inventing a new ore generation system, GregTech creates its own tool system, commonly called the Meta-Tool system. While other mods add individual tools for each of their materials, each tool an individual item, GregTech creates a set of tool templates, and fills in their material, properties, and durability as NBT data. The result is that if you look up a GregTech tool in NEI, you will find a tool that has 0/0 durability, no coloration, and extremely low mining speed and attack damage statistics. However, if you look up recipes for them, you will find pages upon pages of recipes, all resulting in tools with differently colored heads, made of different materials. Most Meta-Tools can be crafted out of almost any metal and many crystals, and will have mining speed, attack damage, mining level, and durability values corresponding to that metal. The most basic Meta-Tools are made of Flint, and are usually the main tools in the early game, as GregTech significantly reduces the durability of Vanilla tools.

The most noticeable aspect of the Meta-Tools is that they all appear to have absurdly high durability. The weakest tools have 3,200 durability, most of the good ones have durabilities in the hundreds of thousands. However, this absurdly high durability is somewhat misleading, as GregTech Meta-Tools take damage significantly more quickly than conventional tools. More importantly though, when Meta-Tools are used to break blocks, they take durability damage proportional to the hardness of the broken block. Using a Shovel on a block of Sand causes it to take 25 damage; on a block of Gravel, 30 damage. Breaking a block of Stone deals 75 damage to a Pickaxe. Most Ores deal either 150 or 200 damage.

Meta-Tools cannot be enchanted in an Enchanting Table, but most materials give certain enchantment effects to tools they are made of. For example, Bronze, Iron, and Steel Swords gain levels of Sharpness.

Common tools are crafted out of a Tool Head and a Stick. This gives the convenience that, when leaving for a mining run, a miner can take a stack of Sticks and several Tool Heads, allowing them to carry extra tools without having to give each extra tool its own inventory slot.

The Pickaxe (GregTech) page contains a list of all usable materials for most tools, including their Durability, Mining Speed, and innate Enchantment properties.

Meta-Tools also come in electric versions. Electric Meta-Tools are more durable than conventional meta-tools, but must be charged and consume EU while in use. Electric Meta-Tools are not unbreakable the way other mods' powered tools are; every time they are used they have a 4% chance to take durability damage. Electric tools are multiplicatively faster than basic tools, and the HV Drill can break blocks at one level above its head's material's normal mining level. The Jackhammer is the fastest tool in GregTech, operating at 8x the speed of a standard Pickaxe of a given material, but it can only be used to break Stone or Stone variants. While electric Meta-Tools can break, they can also be disassembled via the Disassembler. This allows you to re-use the parts from damaged Drills and Chainsaws, which can significantly reduce your mining tool material expenses.

Manual Processing
The most basic form of ore processing is the old classic "just throw it into a Furnace" method we all learned back in Vanilla. However, even just at this level, more can be done. Ore blocks can be broken with a Hammer rather than a Pickaxe to drop Crushed Ore, and Crushed Ores of basic metals like Copper, Tin, and Iron can be smelted into 10 metal Nuggets, slightly more than one full Ingot. Should you need Dusts, such as Redstone Dust, Crushed Ore can be crafted with a Hammer to produce Dirty Dusts, and Dirty Dusts can be thrown into a Cauldron full of Water to produce Dusts. This is the basic source of Redstone Dust.

Steam Processing
Once you have enough Bronze to start making steam machines, you can make a Steam Macerator to produce 2 Crushed Ores per ore block. This is your basic source of ore doubling. The Steam Macerator does require 2 Diamonds to craft though, so you may want to bypass it and just make a Steam Alloy Smelter to at least get your Bronze supply rolling. Additionally, the Steam Forge Hammer functions as a Hammer for Ore and Crushed Ore smashing, and if used can reduce the number of Hammers you need to craft.

Late game processing
Once you have electric machines, and in particular once you have a Universal Macerator (HV-tier Macerator, maximum output ore processing becomes extremely complex. This flowchart shows all the possible routes. For byproducts, see the "Elements Contained in Ores" chart earlier in this page.



Macerator: The basis of all ore processing; doubles hammering or smelting output from Ores. The HV, EV, and IV Versions, the three with 'Universal' in their names, also produce Stone Dust and have a 10% chance to produce dusts of the ores' 1st Byproduct. Additionally, Macerators can be used on Purified Crushed Ores to produce Purified Ore Dusts, and on Centrifuged Ores to produce Ore Dusts. If a Universal Macerator is used, both of these processes have a 10% chance to produce 2nd (Purified Crushed) or 3rd (Centrifuged) Byproduct dusts.

Hammer, Forge Hammer: The simpler form of the Macerator, it smashes ores but does not double them. It's fast, but it's effectively useless after you have electric machines.

Ore Washing Plant: The second stage of processing for most ores, the Ore Washing Plant consumes Water and Crushed Ore to produce Purified Crushed Ores, Stone Dust, and tiny piles of 1st Byproducts.

Chemical Bath: A situational alternative to the Ore Washing Plant, the Chemical Bath uses Mercury or Sodium Persulfate in stead of water, and can produce certain specific metals from specific ores, in stead of the 1st Byproducts.

Centrifuge: Used to further clean Purified Dusts into Dusts and Byproducts. Also used to separate certain compounds into either simpler compounds or their base elements. Note that depending on what metals you want most, centrifuging is not always the best option. Most Purified Dusts can be smelted into 1 Ingot, but some Dusts cannot be smelted, and must be Electrolyzed down to their component elements. For example: Purified Tetrahedrite Dust when smelted produces 1 Copper ingot, but when centrifuged produces 6/9 copper and 1/9 zinc, and when electrolyzed in stead produces 3/8 Copper, 1/8 antimony, 3/8 sulfur, 1/8 iron and 1/9 zinc. (End game separations get complicated.)

Thermal Centrifuge: The Thermal Centrifuge is an extremely energy-intensive machine, and produces Centrifuged Ore from Purified Crushed Ore. However, Universal Maceration of Centrifuged Ore is the only way to obtain an ore's 3rd Byproduct. Additionally, certain basic Centrifuged Ores can be smelted into 10 metal Nuggets in stead of 1 metal Ingot.

Sifting Machine: The Sifting Machine is a special-purpose machine used to potentially obtain Gems in stead of gem dusts from crushed ores. Overall, the Sifting Machine produces about the same amount of gems+dusts as straight processing to dusts would, but if you need gems then this is the easy way to get some. Additionally, the Sifting Machine is GregTech's best way of obtaining Quartz, Lapis, and Coal.

Electromagnetic Separator: Another alternative to the Thermal/Centrifuge/Sifter, the Electromagnetic Separator can only be used on Purified Crushed Ores that have Iron, Gold, or Neodymium as byproducts. It is energy intensive, but it is a good way of getting those specific metals.

Electrolyzer: The Electrolyzer is the end of the line for most compounds, as it is used to separate compounds into their component elements. However, most Electrolyzer recipes require an Advanced Electrolyzer (MV); an LV one isn't powerful enough.

Electric Blast Furnace: A small set of compounds can be directly smelted in the Electric Blast Furnace in stead of being electrolyzed. This is the most energy-intensive process of all, requiring the EBF to be fed High Voltage, but yields more primary outputs than the Electrolyzer. This is most commonly used on Galena (Silver+Lead) and Ilmenite (Titanium+Iron) dusts.