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package gtPlusPlus.xmod.gregtech.loaders.recipe;
import static gregtech.api.util.GTRecipeBuilder.MINUTES;
import static gregtech.api.util.GTRecipeBuilder.SECONDS;
import static gregtech.api.util.GTRecipeConstants.LFTR_OUTPUT_POWER;
import static gtPlusPlus.api.recipe.GTPPRecipeMaps.liquidFluorineThoriumReactorRecipes;
import java.util.ArrayList;
import net.minecraftforge.fluids.Fluid;
import net.minecraftforge.fluids.FluidStack;
import gregtech.api.enums.GTValues;
import gregtech.api.enums.Materials;
import gregtech.api.util.GasSpargingRecipeMap;
import gtPlusPlus.core.material.MaterialsElements;
import gtPlusPlus.core.material.nuclear.MaterialsFluorides;
import gtPlusPlus.core.material.nuclear.MaterialsNuclides;
public class RecipeLoaderLFTR {
private static ArrayList<Fluid> mNobleGases;
private static ArrayList<Fluid> mFluorideGases;
private static ArrayList<Fluid> mSpargeGases;
private static void configureSparging() {
if (mSpargeGases == null) {
mSpargeGases = new ArrayList<>();
mSpargeGases.add(
Materials.Helium.getGas(1)
.getFluid());
mSpargeGases.add(
Materials.Fluorine.getGas(1)
.getFluid());
}
if (mNobleGases == null) {
mNobleGases = new ArrayList<>();
mNobleGases.add(mSpargeGases.get(0));
mNobleGases.add(MaterialsElements.getInstance().XENON.getFluid());
mNobleGases.add(MaterialsElements.getInstance().NEON.getFluid());
mNobleGases.add(MaterialsElements.getInstance().ARGON.getFluid());
mNobleGases.add(MaterialsElements.getInstance().KRYPTON.getFluid());
mNobleGases.add(MaterialsElements.getInstance().RADON.getFluid());
}
if (mFluorideGases == null) {
mFluorideGases = new ArrayList<>();
mFluorideGases.add(mSpargeGases.get(1));
mFluorideGases.add(MaterialsFluorides.LITHIUM_FLUORIDE.getFluid());
mFluorideGases.add(MaterialsFluorides.NEPTUNIUM_HEXAFLUORIDE.getFluid());
mFluorideGases.add(MaterialsFluorides.TECHNETIUM_HEXAFLUORIDE.getFluid());
mFluorideGases.add(MaterialsFluorides.SELENIUM_HEXAFLUORIDE.getFluid());
mFluorideGases.add(MaterialsFluorides.THORIUM_TETRAFLUORIDE.getFluid());
}
}
public static void generate() {
// Fli2BeF4 + Thorium TetraFluoride = Uranium233
// 72k Ticks/hr
// 1l/4t = 1000l/hr
// 1l/40t = 1000l/10hr (Probably better) LiFBeF2ThF4UF4
// 1l/20t= 1000l/2.5hr LiFBeF2ZrF4UF4
// 1l/10t= 1000l/2.5hr LiFBeF2ZrF4U235
configureSparging();
FluidStack Li2BeF4 = MaterialsNuclides.Li2BeF4.getFluidStack(200);
// LiFBeF2ThF4UF4 - T3
GTValues.RA.stdBuilder()
.fluidInputs(MaterialsNuclides.LiFBeF2ThF4UF4.getFluidStack(100), Li2BeF4)
.fluidOutputs(
MaterialsNuclides.LiFBeF2UF4FP.getFluidStack(100),
MaterialsNuclides.LiFBeF2ThF4.getFluidStack(200),
MaterialsFluorides.URANIUM_HEXAFLUORIDE.getFluidStack(20),
MaterialsFluorides.URANIUM_HEXAFLUORIDE.getFluidStack(10))
.duration(1 * MINUTES + 40 * SECONDS)
.eut(0)
.metadata(LFTR_OUTPUT_POWER, 32768 * 4)
.addTo(liquidFluorineThoriumReactorRecipes);
// LiFBeF2ZrF4UF4 - T2
GTValues.RA.stdBuilder()
.fluidInputs(MaterialsNuclides.LiFBeF2ZrF4UF4.getFluidStack(100), Li2BeF4)
.fluidOutputs(
MaterialsNuclides.LiFBeF2UF4FP.getFluidStack(50),
MaterialsNuclides.LiFBeF2ThF4.getFluidStack(100),
MaterialsFluorides.URANIUM_HEXAFLUORIDE.getFluidStack(10),
MaterialsFluorides.URANIUM_HEXAFLUORIDE.getFluidStack(5))
.duration(1 * MINUTES + 40 * SECONDS)
.eut(0)
.metadata(LFTR_OUTPUT_POWER, 8192 * 4)
.addTo(liquidFluorineThoriumReactorRecipes);
// LiFBeF2ZrF4U235 - T1
GTValues.RA.stdBuilder()
.fluidInputs(MaterialsNuclides.LiFBeF2ZrF4U235.getFluidStack(100), Li2BeF4)
.fluidOutputs(
MaterialsNuclides.LiFBeF2UF4FP.getFluidStack(25),
MaterialsNuclides.LiFThF4.getFluidStack(50),
MaterialsFluorides.URANIUM_HEXAFLUORIDE.getFluidStack(4),
MaterialsFluorides.URANIUM_HEXAFLUORIDE.getFluidStack(2))
.duration(1 * MINUTES + 40 * SECONDS)
.eut(0)
.metadata(LFTR_OUTPUT_POWER, 8192)
.addTo(liquidFluorineThoriumReactorRecipes);
// Sparging NEI Recipes
GasSpargingRecipeMap.addRecipe(
new FluidStack(mSpargeGases.get(0), 1000),
MaterialsNuclides.LiFBeF2UF4FP.getFluidStack(50),
MaterialsNuclides.Sparged_LiFBeF2UF4FP.getFluidStack(50),
new FluidStack[] { new FluidStack(mNobleGases.get(1), 10), new FluidStack(mNobleGases.get(2), 10),
new FluidStack(mNobleGases.get(3), 10), new FluidStack(mNobleGases.get(4), 10),
new FluidStack(mNobleGases.get(5), 10) },
new int[] { 20000, 20000, 20000, 20000, 20000 });
GasSpargingRecipeMap.addRecipe(
new FluidStack(mSpargeGases.get(1), 100),
MaterialsNuclides.LiFThF4.getFluidStack(50),
MaterialsNuclides.Sparged_LiFThF4.getFluidStack(50),
new FluidStack[] { new FluidStack(mFluorideGases.get(1), 5), new FluidStack(mFluorideGases.get(2), 5),
new FluidStack(mFluorideGases.get(3), 5), new FluidStack(mFluorideGases.get(4), 5),
new FluidStack(mFluorideGases.get(5), 5) },
new int[] { 1000, 1000, 1000, 1000, 1000 });
GasSpargingRecipeMap.addRecipe(
new FluidStack(mSpargeGases.get(1), 100),
MaterialsNuclides.LiFBeF2ThF4.getFluidStack(50),
MaterialsNuclides.Sparged_LiFBeF2ThF4.getFluidStack(50),
new FluidStack[] { new FluidStack(mFluorideGases.get(1), 10), new FluidStack(mFluorideGases.get(2), 10),
new FluidStack(mFluorideGases.get(3), 10), new FluidStack(mFluorideGases.get(4), 10),
new FluidStack(mFluorideGases.get(5), 10) },
new int[] { 2000, 2000, 2000, 2000, 2000 });
}
}
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