Program is designed to automate the water line from T3 to T8 water. Program is modular, you can choose which water types you want to automate. It is also possible to send messages to Discord about out of service situations. And there is also the possibility of auto update at startup.
Q - Closing the program
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Caution
If you are using 8 java, the installer will not work for you. The only way to install the program is to manually transfer it to your computer. The problem is on the java side.
To install program, you need a server with:
- Graphics Card (Tier 3): 1
- Central Processing Unit (CPU) (Tier 3): 1
- Memory (Tier 3.5): 2
- Component Bus (Tier 3): 1
- Hard Disk Drive (Tier 3) (4MB): 1
- EEPROM (Lua BIOS): 1
- Internet Card: 1
Install the basic Open OS on your computer. Then run the command to start the installer.
pastebin run ESUAMAGxThen select the Water Line Control program in the installer. If you wish you can add the program to auto download, for manual start write a command.
mainNote
For convenient configuration you can use the web configurator. GTNH-OC-Web-Configurator
The program interface is configured for a 3x2 monitor.
Note
For easy copying of addresses, use "Analyzer" from the OpenComputers mod. Right-click on the component, its address will be written in the chat. If you click on it, it will be copied.
Note
There's a save of the world with a setup of water lane. Game version 2.7.2 Save
To build a setup, you will need:
- Adapter: 1
- MFU: 1
The main multiblock of the line. The cycle of the entire line is read from it.
Caution
Water Purification Plant must be connected.
The controller is connected via MFU to keep it accessible.
To build a setup, you will need:
- Adapter: 1
- Transposer: 1
- MFU: 1
To use the module for t3 water in the config.lua
file you need to enable the module by changing enable = false to enable = true.
You must also specify the address of the transposer in the transposerAddress field, which is located under the ZPM input hatch and to which the tank with the
Polyaluminium chloride connected.
The controller is connected via MFU to keep it accessible.
t3 = { -- Controller for T3 Flocculated Water (Grade 3)
enable = false, -- Enable module for T3 water
controller = t3controllerLib:newFormConfig({
transposerAddress = "aaaaaaaa-aaaa-aaaa-aaaa-aaaaaaaaaaaa", -- Address of transposer which provide Polyaluminium Chloride
}),
},
To build a setup, you will need:
- Adapter: 1
- Transposer: 2
To use the module for t4 water in the config.lua
file you need to enable the module by changing enable = false to enable = true.
It is also necessary to specify transposer addresses in
the fields hydrochloricAcidTransposerAddress and sodiumHydroxideTransposerAddress,
they are respectively located above the input hatch for Hydrochloric Acid next to the
tank and above the input bus for Sodium Hydroxide next to the interface.
t4 = { -- Controller for T4 pH Neutralized Water (Grade 4)
enable = false, -- Enable module for T4 water
controller = t4controllerLib:newFormConfig({
hydrochloricAcidTransposerAddress = "aaaaaaaa-aaaa-aaaa-aaaa-aaaaaaaaaaaa", -- Address of transposer which provide Hydrochloric Acid
sodiumHydroxideTransposerAddress = "aaaaaaaa-aaaa-aaaa-aaaa-aaaaaaaaaaaa" -- Address of transposer which provide Sodium Hydroxide Dust
}),
},
To build a setup, you will need:
- Adapter: 1
- Transposer: 2
To use the module for t5 water in the config.lua
file you need to enable the module by changing enable = false to enable = true.
It is also necessary to specify transposer addresses in
the fields plasmaTransposerAddress and coolantTransposerAddress,
they are respectively located below the input hatch for Helium Plasma next to the
tank and below the input hatch for Super Coolant next to the tank.
t5 = { -- Controller for T5 Extreme-Temperature Treated Water (Grade 5)
enable = false, -- Enable module for T5 water
controller = t5controllerLib:newFormConfig({
plasmaTransposerAddress = "aaaaaaaa-aaaa-aaaa-aaaa-aaaaaaaaaaaa", -- Address of transposer which provide Helium Plasma
coolantTransposerAddress = "aaaaaaaa-aaaa-aaaa-aaaa-aaaaaaaaaaaa" -- Address of transposer which provide Super Coolant
}),
},
To build a setup, you will need:
- Adapter: 1
- Transposer: 1
To use the module for t7 water in the config.lua
file you need to enable the module by changing enable = false to enable = true.
You must also specify the address of the transposer in the transposerAddress field, which is located above the Lens Housing and to which the chest with lenses connected.
The chest should contain all 9 lenses: Orundum Lens, Amber Lens, Aer Lens, Emerald Lens, Mana Diamond Lens, Blue Topaz Lens, Amethyst Lens, Fluor-Buergerite Lens, Dilithium Lens.
Note
Dilithium Lens is optional.
t6 = { -- Controller for T6 Ultraviolet Treated Electrically Neutral Water (Grade 6)
enable = false, -- Enable module for T6 water
controller = t6controllerLib:newFormConfig({
transposerAddress = "aaaaaaaa-aaaa-aaaa-aaaa-aaaaaaaaaaaa" -- Address of transposer which provide Lenses
}),
},
To build a setup, you will need:
- Adapter: 1
- Transposer: 4
- MFU: 1
Note
If you play on version 2.7 do not forget to install Degasser Control Hatch in the structure,
although it is not necessary for the program, but without it the structure will not work
To use the module for t7 water in the config.lua
You must also specify the addresses of the transposers:
inertGasTransposerAddress here is the address of the transposer that will supply Helium, Neon, Krypton, Xenon.
superConductorTransposerAddress here is the address of the transposer that will supply Superconductor Base.
netroniumTransposerAddress here is the address of the transposer that will supply Molten Neutronium.
coolantTransposerAddress here is the address of the transposer that will supply Super Coolant.
The controller is connected via MFU to keep it accessible.
t7 = { -- Controller for T7 Degassed Decontaminant-Free Water (Grade 7)
enable = false, -- Enable module for T7 water
controller = t7controllerLib:newFormConfig({
inertGasTransposerAddress = "aaaaaaaa-aaaa-aaaa-aaaa-aaaaaaaaaaaa", -- Address of transposer which provide Inert Gas
superConductorTransposerAddress = "aaaaaaaa-aaaa-aaaa-aaaa-aaaaaaaaaaaa", -- Address of transposer which provide Super Conductor
netroniumTransposerAddress = "aaaaaaaa-aaaa-aaaa-aaaa-aaaaaaaaaaaa", -- Address of transposer which provide Molten Neutronium
coolantTransposerAddress = "aaaaaaaa-aaaa-aaaa-aaaa-aaaaaaaaaaaa" -- Address of transposer which provide Super Coolant
}),
},
To build a setup, you will need:
- Adapter: 2
- Transposer: 1
- MFU: 1
To use the module for t8 water in the config.lua
You must also specify the address of the transposer in the transposerAddress
field, which is located under the hv input bus and to which the interface with the Quarks connected.
Also the address of the adapter connected to me interface in the subMeInterfaceAddress field.
Also in the configs you can change the number of quarks the computer must support in this field maxQuarkCount.
There you need to specify the number of quarks that are in the subnet. So if you put 7 quarks of each type in the subnet.
3 will go into the interface, then you need to specify 4. Because that's how many are left in the subnet.
The controller is connected via MFU to keep it accessible.
The idea is that a separate subnet is made for quarks. The Absolute Baryonic Perfection Purification Unit returns unused quarks and 2
Unaligned Quark Releasing Catalysts after crafting is complete. The computer looks to see which quarks are less than the specified
number (maxQuarkCount in the default configs is 4) and orders them. That is, the subnet must have at least 2 CPUs and a
Hyper-Intensity Laser Engraver connected to order quarks. It is possible without a subnet, but the condition is that the computer can order quarks.
Stabilized Baryonic Matter can be fed into the subsystem or directly into the Laser Engraver.
Note
Maximum 42 infinity ingots used per cycle. But usually less. Consumption can be 6, 18, 42 ingots per cycle. Depends on luck.
t8 = { -- Controller for T8 Subatomically Perfect Water (Grade 8)
enable = false, -- Enable module for T8 water
controller = t8controllerLib:newFormConfig({
maxQuarkCount = 4, -- Maximum number of each quark in the sub AE
transposerAddress = "aaaaaaaa-aaaa-aaaa-aaaa-aaaaaaaaaaaa", -- Address of transposer which provide Quarks
subMeInterfaceAddress = "aaaaaaaa-aaaa-aaaa-aaaa-aaaaaaaaaaaa" -- Address of me interface which connected to sub AE
})
}
General configuration in file config.lua
The configuration of water line modules is described in paragraph Water Line Setup.
Enable auto update when starting the program.
enableAutoUpdate = true, -- Enable auto update on startIn the timeZone field you can specify your time zone.
In the discordWebhookUrl field, you can specify the Discord Webhook link so that the program sends messages to the discord about emergency situations.
How to Create a Discord Webhook?
logger = loggerLib:newFormConfig({
name = "Water Line Control",
timeZone = 3, -- Your time zone
handlers = {
discordLoggerHandler:newFormConfig({
logLevel = "warning",
messageFormat = "{Time:%d.%m.%Y %H:%M:%S} [{LogLevel}]: {Message}",
discordWebhookUrl = "" -- Discord Webhook URL
}),
fileLoggerHandler:newFormConfig({
logLevel = "debug",
messageFormat = "{Time:%d.%m.%Y %H:%M:%S} [{LogLevel}]: {Message}",
filePath = "logs.log"
}),
scrollListLoggerHandler:newFormConfig({
logLevel = "debug",
logsListSize = 32
}),
}
}),