langs

kubejs/assets/gtceu/lang/en_us.json

@@ -128,20 +128,12 @@
   "material.gtceu.radioactive_steam": "Radioactive Steam",
   "material.gtceu.radioactive_waste": "Thorium Waste",
   "material.gtceu.irradiated_steam": "Irradiated Steam",
-  "material.gtceu.heavy_water": "Heavy Water",
   "material.gtceu.uranium_waste": "Uranium Waste",
   "material.gtceu.nuclear_waste": "Nuclear Waste",
   "material.gtceu.dirty_hexafluorosilicic_acid": "Dirty Hexafluorosilicic Acid",
   "material.gtceu.martian_sludge": "Martian Sludge",
   "material.gtceu.dioxygen_difluoride": "Dioxygen Difluoride",
   "material.gtceu.tritiated_water": "Tritiated Water",
-  "material.gtceu.raw_rich_brine": "Raw Rich Brine",
-  "material.gtceu.hot_iodine_brine": "Hot Iodine Brine",
-  "material.gtceu.brominated_iodine_vapor": "Brominated Iodine Vapor",
-  "material.gtceu.basic_bromine_exhaust": "Basic Bromine Exhaust",
-  "material.gtceu.dirty_flibe": "Dirty FLiBe",
-  "material.gtceu.flibe": "FLiBe",
-  "material.gtceu.hot_flibe": "Hot FLiBe",
   "material.gtceu.raw_brine": "Raw Brine",
   "material.gtceu.hot_brine": "Hot Brine",
   "material.gtceu.hot_chlorinated_brominated_brine": "Hot Chlorinated Brominated Brine",

kubejs/assets/tfg/lang/en_us.json

@@ -1143,9 +1143,19 @@
   "item.tfg.empty_rod_t2": "Empty Beryllium Fissile Fuel Rod",
   "item.tfg.empty_rod_t3": "Empty Zirconium Fissile Fuel Rod",
   "item.tfg.thorium_rod": "Thorium Fuel Rod",
+  "item.tfg.depleted_thorium_rod": "Depleted Thorium Fuel Rod",
   "item.tfg.uranium_rod": "Uranium Fuel Rod",
+  "item.tfg.depleted_uranium_rod": "Depleted Uranium Fuel Rod",
   "item.tfg.plutonium_rod": "Plutonium Fuel Rod",
-  "item.tfg.tbu_232_rod": "T-Rod Fuel",
+  "item.tfg.depleted_plutonium_rod": "Depleted Plutonium Fuel Rod",
+  "item.tfg.tbu_232_rod": "Thorium-Uranium Breeder Fuel Rod",
+  "item.tfg.depleted_tbu_232_rod": "Depleted Thorium-Uranium Breeder Fuel Rod",
+  "item.tfg.americium_241_rod": "Americium Fuel Rod",
+  "item.tfg.depleted_americium_241_rod": "Depleted Americium Fuel Rod",
+  "item.tfg.neptunium_237_rod": "Neptunium Fuel Rod",
+  "item.tfg.depleted_neptunium_237_rod": "Depleted Neptunium Fuel Rod",
+  "item.tfg.californium_252_rod": "Californium Fuel Rod",
+  "item.tfg.depleted_californium_252_rod": "Depleted Californium Fuel Rod",
   "item.tfg.refrigerant_pellet": "Refrigerant Pellet",
   "item.tfg.graphite_compound": "Graphite Compound",
   "item.tfg.raw_graphite_briquette": "Raw Graphite Briquette",
@@ -1291,6 +1301,10 @@
   "material.tfg.refined_nuclear_residue": "Refined Nuclear Residue",
   "material.tfg.mars_air": "Mars Air",
   "material.tfg.liquid_mars_air": "Liquid Mars Air",
+  "material.tfg.raw_rich_brine": "Raw Rich Brine",
+  "material.tfg.basic_bromine_exhaust": "Basic Bromine Exhaust",
+  "material.tfg.brominated_iodine_vapor": "Brominated Iodine Vapor",
+  "material.tfg.hot_iodine_brine": "Hot Iodine Brine",
   "material.tfg.certus_regolith": "Certus Regolith",
   "material.tfg.goethe_regolith": "Goethe Regolith",
   "material.tfg.bright_regolith": "Bright Regolith",
@@ -1345,16 +1359,16 @@
   "material.tfg.americium_241": "Americium 241",
   "material.tfg.californium_252": "Californium 252",
   "material.tfg.neptunium_237": "Neptunium 237",
-  "material.tfg.tbu_waste": "T Waste",
+  "material.tfg.tbu_waste": "Thorium Breeder Waste",
   "material.tfg.mixed_radioactive_fluid": "Mixed Radioactive Fluid",
   "material.tfg.degraded_solvent_stream": "Degraded Solvent Stream",
   "material.tfg.boron_enriched_coolant": "Boron Enriched Coolant",
   "material.tfg.hot_boron_enriched_coolant": "Hot Boron Enriched Coolant",
   "material.tfg.polyalkylene_lubricant": "Polyalkylene Lubricant",
   "material.tfg.organic_degradation_slurry": "Organic Degradation Slurry",
-  "material.tfg.gas_fraction": "Gas Fraction",
+  "material.tfg.gas_fraction": "Solvent Gas Fraction",
   "material.tfg.isotopic_solvent": "Isotopic Solvent",
-  "material.tfg.residual_sludge": "Residual Sludge",
+  "material.tfg.residual_sludge": "Residual Solvent Sludge",
   "material.tfg.sodium_fluoride": "Sodium Fluoride",
   "material.tfg.trace_catalyst_salt_e": "Trace Catalyst Salt E",
   "material.tfg.copper_trace_catalyst": "Copper Trace Catalyst",
@@ -1369,8 +1383,11 @@
   "material.tfg.radioactive_effluent": "Radioactive Effluent",
   "material.tfg.high_grade_isotopic_solvent": "High Grade Isotopic Solvent",
   "material.tfg.degraded_high_grade_isotopic_solvent": "Degraded High Grade Isotopic Solvent",
-  "material.tfg.spent_ticl4_doped_supercritical_co2": "Hot TiCl₄ Doped Supercritical CO₂",
-  "material.tfg.ticl4_doped_supercritical_co2": "TiCl₄ Doped Supercritical CO₂",
+  "material.tfg.spent_ticl4_doped_supercritical_co2": "Hot TiCl₄-Doped Supercritical CO₂",
+  "material.tfg.ticl4_doped_supercritical_co2": "TiCl₄-Doped Supercritical CO₂",
+  "material.tfg.flibe": "FLiBe",
+  "material.tfg.dirty_flibe": "Dirty FLiBe",
+  "material.tfg.hot_flibe": "Hot FLiBe",
   "material.tfg.glucose": "Glucose",
   "material.tfg.galactose": "Galactose",
   "material.tfg.fructose": "Fructose",
@@ -2549,7 +2566,7 @@
   "quests.extreme_voltage.heat_battery.desc": "The &6Heat Battery&r is a multiblock capable of storing &cHeat&r from hot coolants coming directly from your &cFission Reactor&r, which can then be used either to heat other fluids or to be consumed in the &5Ostrum Linear Accelerator&r.\n\nThe mechanic is fairly simple: depending on the fluid being input, the &6Heat Battery&r can reach higher temperatures, and you can check how much temperature a fluid can provide by browsing &bEMI&r under the Heat Battery Import recipes tab; conversely, you can spend your &cHeat Units&r by warming fluids, and like the EBF, some recipes require a minimum temperature, for example, producing &bHigh Pressure Steam&r from &9Distilled Water&r requires the Heat Battery to be at least at &c1000°&r.\n\nFinally, just like the &cFission Reactor&r, you can add specific blocks (tag &7#components_hb&r) to increase both the maximum reachable temperature of your &6Heat Battery&r and how many &cHeat Units&r it can store.",
   "quests.extreme_voltage.dense_ostrum_vapor.title": "Dense Ostrum Vapor",
   "quests.extreme_voltage.dense_ostrum_vapor.subtitle": "Fission on Earth?",
-  "quests.extreme_voltage.dense_ostrum_vapor.desc": "The &6Dense Ostrum Vapor&r is required to craft &cT-Rod Fuel&r, which you will need to start &eFission&r for power generation; more uses will be added with each new update, so stay tuned.\n\nNote that you can also use it to get more Light Ostrum Vapor if you ever feel the need.",
+  "quests.extreme_voltage.dense_ostrum_vapor.desc": "The &6Dense Ostrum Vapor&r is required to craft a &cThorium-Uranium Breeder Fuel Rod&r, which you will need to start &eFission&r for power generation; more uses will be added with each new update, so stay tuned.\n\nNote that you can also use it to get more Light Ostrum Vapor if you ever feel the need.",
   "quests.extreme_voltage.ostrum_vapor.title": "Ostrum Vapor",
   "quests.extreme_voltage.ostrum_vapor.subtitle": "We really need to chill",
   "quests.extreme_voltage.ostrum_vapor.desc": "The first use of &6Ostrum Vapor&r is allowing you to craft &bTerrafirmaguard PA6&r, which you will need to run your &cPlutonium Reactor&r without losing all your &3Tritiated Water&r.\n\nLater, when you unlock &eFission Energy&r and the &aSmall Modular Turbine&r, &dPolyalkylene Lubricant&r becomes an extremely strong asset for producing more power in your isolated outposts.",
@@ -2644,9 +2661,9 @@
   "quests.gregtech_energy.btx.desc": "Obtaining the &5EV Energy Hatches&r means you can finally get &eBTX Fuel&r (Benzene-Toluene-Xylene) production started. This fuel will last you for a very long time and remains competitive in a &6Large Turbine&r well into the late game. Even if it looks like a massive undertaking at first, rest assured that it will be well worth the effort.\n\nThis production line requires a large number of wood-based products. Sap becomes relevant again due to the need for &eGlue&r — you can either tap your trees passively or extract it directly from logs. You will also need to distill &eWood Tar&r in a &6Distillation Tower&r. Beyond that, make sure you can produce infinite amounts of &eEthanol&r, &eNether Quartz&r, &eSodium&r, &eAmmonia&r, &eLye&r, and &eReinforced Epoxy Resin Sheets&r.\n\nIf you want a more detailed breakdown of the BTX Fuel production chain, refer to the &5EV&r Chapter.",
   "quests.gregtech_energy.fission_rod.title": "Fission Fuels",
   "quests.gregtech_energy.fission_rod.subtitle": "Don't get me too hot",
-  "quests.gregtech_energy.fission_rod.desc.1": "To begin producing power on &2Earth&r, you will need to invest in an impressive setup on &4Mars&r to produce and process &cT-Rod Fuel&r; every time you craft a new &cT-Rod&r, you must use an &5OLA&r recipe, which is quite expensive, but the advantage is that the rods are fully recyclable after being depleted.\n\nAfter obtaining your first &cT-Rod&r, it is very important to decide which isotope you want to target.",
+  "quests.gregtech_energy.fission_rod.desc.1": "To begin producing power on &2Earth&r, you will need to invest in an impressive setup on &4Mars&r to produce and process &cThorium-Uranium Breeder Fuel&r; every time you craft a new &cBreeder Rod&r, you must use an &5OLA&r recipe, which is quite expensive, but the advantage is that the rods are fully recyclable after being depleted.\n\nAfter obtaining your first &cBreeder Rod&r, it is very important to decide which isotope you want to target.",
   "quests.gregtech_energy.fission_rod.desc.2": "The &aAmericium Rod&r has extremely high durability but very low &cHeat&r, and it is the only rod that can be used in a &eSmall Fission Reactor&r; this incredibly potent rod is very difficult to obtain, as you will need to run your &cFission Reactor&r at an extremely low temperature to maximize americium output—refer to EMI to determine the heat range you should target.\n\nThe &bNeptunium Rod&r is the standard option, offering good power output and good durability; it can produce up to &1360k EU/t&r at &1IV&r but requires a very extensive infrastructure, and with one &cFission Reactor&r, one &6Heat Battery&r, and one &9Cooling Tower&r, you should be able to generate a massive amount of steam in a perfectly looped system.",
-  "quests.gregtech_energy.fission_rod.desc.3": "Be very cautious, however: if your &cT-Rods&r are operated at too high a temperature, you will lose part of the &8TBU Waste&r and will not be able to fully recycle the rod; always be extremely careful when running a &cT-Rod&r, as losing them is something you absolutely want to avoid.\n\nWhen targeting specific temperatures to increase isotope yield, remember that you can mix multiple rods together, and as always, refer to EMI to see which rods use which coolants.",
+  "quests.gregtech_energy.fission_rod.desc.3": "Be very cautious, however: if your &cBreeder Rods&r are operated at too high a temperature, you will lose part of the &8TBU Waste&r and will not be able to fully recycle the rod; always be extremely careful when running a &cBreeder Rod&r, as losing them is something you absolutely want to avoid.\n\nWhen targeting specific temperatures to increase isotope yield, remember that you can mix multiple rods together, and as always, refer to EMI to see which rods use which coolants.",
   "quests.gregtech_energy.smr.title": "Small Modular Reactor",
   "quests.gregtech_energy.smr.subtitle": "Finally Power for these far outposts",
   "quests.gregtech_energy.smr.desc.1": "If you manage to obtain two &aAmericium-241 Rods&r, you can start looking into the &eSmall Fission Reactor&r and the &aSmall Modular Turbine&r; this generator setup is ideal for long-term, sustainable power generation with no required interaction, making it perfect for isolated outposts or as backup power for your base if everything goes wrong.",