package gtPlusPlus.xmod.gregtech.loaders.recipe; import static gregtech.api.recipe.RecipeMaps.blastFurnaceRecipes; import static gregtech.api.recipe.RecipeMaps.distillationTowerRecipes; import static gregtech.api.util.GTRecipeBuilder.HOURS; import static gregtech.api.util.GTRecipeBuilder.MINUTES; import static gregtech.api.util.GTRecipeBuilder.SECONDS; import static gregtech.api.util.GTRecipeConstants.CHEMPLANT_CASING_TIER; import static gregtech.api.util.GTRecipeConstants.COIL_HEAT; import static gtPlusPlus.api.recipe.GTPPRecipeMaps.chemicalPlantRecipes; import static gtPlusPlus.api.recipe.GTPPRecipeMaps.coldTrapRecipes; import static gtPlusPlus.api.recipe.GTPPRecipeMaps.fissionFuelProcessingRecipes; import static gtPlusPlus.api.recipe.GTPPRecipeMaps.reactorProcessingUnitRecipes; import net.minecraftforge.fluids.FluidStack; import gregtech.api.enums.GTValues; import gregtech.api.enums.Materials; import gregtech.api.enums.TierEU; import gtPlusPlus.core.item.chemistry.NuclearChem; import gtPlusPlus.core.material.MaterialsElements; import gtPlusPlus.core.material.nuclear.MaterialsFluorides; import gtPlusPlus.core.material.nuclear.MaterialsNuclides; import gtPlusPlus.core.recipe.common.CI; import gtPlusPlus.core.util.minecraft.FluidUtils; import gtPlusPlus.core.util.minecraft.ItemUtils; public class RecipeLoaderNuclearFuelProcessing { public static void generate() { // Create Fuels final FluidStack aLithiumFluoride = MaterialsFluorides.LITHIUM_FLUORIDE.getFluidStack(100); final FluidStack aBerylliumFluoride = MaterialsFluorides.BERYLLIUM_FLUORIDE.getFluidStack(100); final FluidStack aThoriumFluoride = MaterialsFluorides.THORIUM_TETRAFLUORIDE.getFluidStack(100); final FluidStack aZirconiumFluoride = MaterialsFluorides.ZIRCONIUM_TETRAFLUORIDE.getFluidStack(100); final FluidStack aUraniumTetraFluoride = MaterialsFluorides.URANIUM_TETRAFLUORIDE.getFluidStack(100); final FluidStack aUranium235 = MaterialsElements.getInstance().URANIUM235.getFluidStack(1000); final FluidStack aLiFBeF2ZrF4U235 = MaterialsNuclides.LiFBeF2ZrF4U235.getFluidStack(100); final FluidStack aLiFBeF2ZrF4UF4 = MaterialsNuclides.LiFBeF2ZrF4UF4.getFluidStack(100); final FluidStack aLiFBeF2ThF4UF4 = MaterialsNuclides.LiFBeF2ThF4UF4.getFluidStack(100); // 7LiF - BeF2 - ZrF4 - U235 - 590C GTValues.RA.stdBuilder() .fluidInputs( FluidUtils.getFluidStack(aLithiumFluoride, 550), FluidUtils.getFluidStack(aBerylliumFluoride, 150), FluidUtils.getFluidStack(aZirconiumFluoride, 60), FluidUtils.getFluidStack(aUranium235, 240)) .fluidOutputs(FluidUtils.getFluidStack(aLiFBeF2ZrF4U235, 1000)) .duration(30 * MINUTES) .eut(TierEU.RECIPE_EV) .addTo(fissionFuelProcessingRecipes); // 7LiF - BeF2 - ZrF4 - UF4 - 650C GTValues.RA.stdBuilder() .fluidInputs( FluidUtils.getFluidStack(aLithiumFluoride, 600), FluidUtils.getFluidStack(aBerylliumFluoride, 250), FluidUtils.getFluidStack(aZirconiumFluoride, 80), FluidUtils.getFluidStack(aUraniumTetraFluoride, 70)) .fluidOutputs(FluidUtils.getFluidStack(aLiFBeF2ZrF4UF4, 1000)) .duration(40 * MINUTES) .eut(TierEU.RECIPE_IV) .addTo(fissionFuelProcessingRecipes); // 7liF - BeF2 - ThF4 - UF4 - 566C GTValues.RA.stdBuilder() .fluidInputs( FluidUtils.getFluidStack(aLithiumFluoride, 580), FluidUtils.getFluidStack(aBerylliumFluoride, 270), FluidUtils.getFluidStack(aThoriumFluoride, 80), FluidUtils.getFluidStack(aUraniumTetraFluoride, 70)) .fluidOutputs(FluidUtils.getFluidStack(aLiFBeF2ThF4UF4, 1000)) .duration(50 * MINUTES) .eut(TierEU.RECIPE_IV) .addTo(fissionFuelProcessingRecipes); // Reprocess Fuels // Reactor Blanket step 1 - Fluorination GTValues.RA.stdBuilder() .itemInputs(CI.getNumberedAdvancedCircuit(17), MaterialsElements.getInstance().FLUORINE.getCell(6)) .itemOutputs( CI.emptyCells(5), MaterialsFluorides.LITHIUM_FLUORIDE.getCell(1), MaterialsElements.getInstance().PROTACTINIUM.getDust(1), MaterialsElements.getInstance().PROTACTINIUM.getDust(1), MaterialsElements.getInstance().PROTACTINIUM.getDust(1), MaterialsElements.getInstance().PROTACTINIUM.getDust(1), MaterialsElements.getInstance().PROTACTINIUM.getDust(1), MaterialsElements.getInstance().PROTACTINIUM.getDust(1)) .outputChances(10000, 10000, 500, 500, 500, 250, 250, 250) .fluidInputs(MaterialsNuclides.LiFThF4.getFluidStack(10000)) .fluidOutputs(MaterialsNuclides.UF6F2.getFluidStack(1500)) .duration(10 * MINUTES) .eut(TierEU.RECIPE_IV) .addTo(reactorProcessingUnitRecipes); GTValues.RA.stdBuilder() .itemInputs(CI.getNumberedAdvancedCircuit(18), MaterialsElements.getInstance().FLUORINE.getCell(6)) .itemOutputs( CI.emptyCells(4), MaterialsFluorides.LITHIUM_FLUORIDE.getCell(1), MaterialsFluorides.BERYLLIUM_FLUORIDE.getCell(1), MaterialsElements.getInstance().PROTACTINIUM.getDust(1), MaterialsElements.getInstance().PROTACTINIUM.getDust(1), MaterialsElements.getInstance().PROTACTINIUM.getDust(1), MaterialsElements.getInstance().PROTACTINIUM.getDust(1), MaterialsElements.getInstance().PROTACTINIUM.getDust(1), MaterialsElements.getInstance().PROTACTINIUM.getDust(1)) .outputChances(10000, 10000, 10000, 1000, 1000, 1000, 500, 500, 500) .fluidInputs(MaterialsNuclides.LiFBeF2ThF4.getFluidStack(10000)) .fluidOutputs(MaterialsNuclides.UF6F2.getFluidStack(3000)) .duration(10 * MINUTES) .eut(TierEU.RECIPE_IV) .addTo(reactorProcessingUnitRecipes); // Reactor Blanket step 1 - Fluorination GTValues.RA.stdBuilder() .itemInputs(CI.getNumberedAdvancedCircuit(7), MaterialsElements.getInstance().FLUORINE.getCell(6)) .itemOutputs( CI.emptyCells(4), MaterialsFluorides.LITHIUM_FLUORIDE.getCell(2), MaterialsElements.getInstance().PROTACTINIUM.getDust(1), MaterialsElements.getInstance().PROTACTINIUM.getDust(1), MaterialsElements.getInstance().PROTACTINIUM.getDust(1), MaterialsElements.getInstance().PROTACTINIUM.getDust(1), MaterialsElements.getInstance().PROTACTINIUM.getDust(1), MaterialsElements.getInstance().PROTACTINIUM.getDust(1)) .outputChances(10000, 10000, 1000, 1000, 1000, 1000, 1000, 1000) .fluidInputs(MaterialsNuclides.Sparged_LiFThF4.getFluidStack(10000)) .fluidOutputs(MaterialsNuclides.UF6F2.getFluidStack(3000)) .duration(5 * MINUTES) .eut(TierEU.RECIPE_IV) .addTo(reactorProcessingUnitRecipes); GTValues.RA.stdBuilder() .itemInputs(CI.getNumberedAdvancedCircuit(8), MaterialsElements.getInstance().FLUORINE.getCell(6)) .itemOutputs( CI.emptyCells(2), MaterialsFluorides.LITHIUM_FLUORIDE.getCell(2), MaterialsFluorides.BERYLLIUM_FLUORIDE.getCell(2), MaterialsElements.getInstance().PROTACTINIUM.getDust(1), MaterialsElements.getInstance().PROTACTINIUM.getDust(1), MaterialsElements.getInstance().PROTACTINIUM.getDust(1), MaterialsElements.getInstance().PROTACTINIUM.getDust(1), MaterialsElements.getInstance().PROTACTINIUM.getDust(1), MaterialsElements.getInstance().PROTACTINIUM.getDust(1)) .outputChances(10000, 10000, 10000, 2000, 2000, 2000, 2000, 2000, 2000) .fluidInputs(MaterialsNuclides.Sparged_LiFBeF2ThF4.getFluidStack(10000)) .fluidOutputs(MaterialsNuclides.UF6F2.getFluidStack(6000)) .duration(5 * MINUTES) .eut(TierEU.RECIPE_IV) .addTo(reactorProcessingUnitRecipes); // Reactor Blanket step 2 - Sorption + Cold Trap GTValues.RA.stdBuilder() .itemInputs(CI.getNumberedAdvancedCircuit(8), MaterialsFluorides.SODIUM_FLUORIDE.getCell(4)) .itemOutputs( MaterialsElements.getInstance().FLUORINE.getCell(2), MaterialsFluorides.URANIUM_HEXAFLUORIDE.getCell(2), MaterialsElements.getInstance().URANIUM233.getDust(1), MaterialsElements.getInstance().URANIUM233.getDust(1), MaterialsElements.getInstance().URANIUM233.getDust(1)) .outputChances(10000, 10000, 3000, 2000, 1000) .fluidInputs(MaterialsNuclides.UF6F2.getFluidStack(3000)) .fluidOutputs(MaterialsFluorides.SODIUM_FLUORIDE.getFluidStack(2000)) .duration(10 * MINUTES) .eut(TierEU.RECIPE_HV) .addTo(coldTrapRecipes); // LiBeF2UF4FP + F2 = LiFBeF2 & UF6F2FP // Reactor Core step 1 - Process Burnt Salt GTValues.RA.stdBuilder() .itemInputs(CI.getNumberedAdvancedCircuit(1), MaterialsElements.getInstance().FLUORINE.getCell(1)) .itemOutputs(MaterialsNuclides.UF6F2FP.getCell(1)) .outputChances(10000) .fluidInputs(MaterialsNuclides.LiFBeF2UF4FP.getFluidStack(1000)) .fluidOutputs(FluidUtils.getFluidStack(NuclearChem.Impure_LiFBeF2, 1000)) .duration(2 * HOURS) .eut(TierEU.RECIPE_HV) .addTo(reactorProcessingUnitRecipes); // LiBeF2UF4FP + F2 = LiFBeF2 & UF6F2FP // Reactor Core step 1 - Process Burnt Salt GTValues.RA.stdBuilder() .itemInputs(CI.getNumberedAdvancedCircuit(1), MaterialsElements.getInstance().FLUORINE.getCell(3)) .itemOutputs(CI.emptyCells(1), MaterialsNuclides.UF6F2FP.getCell(2)) .fluidInputs(MaterialsNuclides.Sparged_LiFBeF2UF4FP.getFluidStack(1000)) .fluidOutputs(FluidUtils.getFluidStack(NuclearChem.Impure_LiFBeF2, 2000)) .duration(60 * MINUTES) .eut(TierEU.RECIPE_HV) .addTo(reactorProcessingUnitRecipes); // Reactor Core step 2A - Sorption + Cold Trap GTValues.RA.stdBuilder() .itemInputs(CI.getNumberedAdvancedCircuit(8), MaterialsFluorides.SODIUM_FLUORIDE.getCell(3)) .itemOutputs( MaterialsElements.getInstance().FLUORINE.getCell(1), MaterialsFluorides.URANIUM_HEXAFLUORIDE.getCell(2), MaterialsElements.getInstance().PHOSPHORUS.getDust(1), MaterialsElements.getInstance().PHOSPHORUS.getDust(1), MaterialsElements.getInstance().PHOSPHORUS.getDust(1), MaterialsElements.getInstance().PHOSPHORUS.getDust(1), MaterialsElements.getInstance().PHOSPHORUS.getDust(1), MaterialsElements.getInstance().PHOSPHORUS.getDust(1)) .outputChances(10000, 10000, 5000, 5000, 5000, 5000, 5000, 5000) .fluidInputs(MaterialsNuclides.UF6F2FP.getFluidStack(2000)) .fluidOutputs(MaterialsFluorides.SODIUM_FLUORIDE.getFluidStack(2000)) .duration(10 * MINUTES) .eut(TierEU.RECIPE_EV) .addTo(coldTrapRecipes); // Reactor Core step 2B - Distillation GTValues.RA.stdBuilder() .fluidInputs(FluidUtils.getFluidStack(NuclearChem.Impure_LiFBeF2, 1000)) .fluidOutputs(MaterialsNuclides.LiFBeF2.getFluidStack(250)) .duration(7 * MINUTES + 30 * SECONDS) .eut(TierEU.RECIPE_IV) .addTo(distillationTowerRecipes); // UF6 -> UF4 reduction // UF6 + LiFBeF2 + H2 -> LiFBeF2UF4 + HF GTValues.RA.stdBuilder() .itemInputs(MaterialsFluorides.URANIUM_HEXAFLUORIDE.getCell(1), MaterialsNuclides.LiFBeF2.getCell(1)) .fluidInputs(Materials.Hydrogen.getGas(2000L)) .itemOutputs(ItemUtils.getItemStackOfAmountFromOreDict("cellHydrofluoricAcid", 2)) .fluidOutputs(MaterialsNuclides.LiFBeF2UF4.getFluidStack(3000)) .duration(2 * MINUTES + 30 * SECONDS) .eut(TierEU.RECIPE_IV) .metadata(COIL_HEAT, 5400) .addTo(blastFurnaceRecipes); // Alternative recipe to the above, for chemplant, to not use cells GTValues.RA.stdBuilder() .fluidInputs( MaterialsFluorides.URANIUM_HEXAFLUORIDE.getFluidStack(1000), MaterialsNuclides.LiFBeF2.getFluidStack(1000), MaterialsElements.getInstance().HYDROGEN.getFluidStack(2000)) .fluidOutputs( MaterialsNuclides.LiFBeF2UF4.getFluidStack(3000), FluidUtils.getFluidStack("hydrofluoricacid", 2000)) .duration(2 * MINUTES + 30 * SECONDS) .eut(TierEU.RECIPE_IV) .metadata(CHEMPLANT_CASING_TIER, 4) .addTo(chemicalPlantRecipes); GTValues.RA.stdBuilder() .fluidInputs( MaterialsFluorides.ZIRCONIUM_TETRAFLUORIDE.getFluidStack(100), MaterialsNuclides.LiFBeF2UF4.getFluidStack(900)) .fluidOutputs(MaterialsNuclides.LiFBeF2ZrF4UF4.getFluidStack(1000)) .duration(12 * MINUTES) .eut(TierEU.RECIPE_IV) .addTo(fissionFuelProcessingRecipes); GTValues.RA.stdBuilder() .fluidInputs( MaterialsFluorides.THORIUM_TETRAFLUORIDE.getFluidStack(100), MaterialsNuclides.LiFBeF2UF4.getFluidStack(900)) .fluidOutputs(MaterialsNuclides.LiFBeF2ThF4UF4.getFluidStack(1000)) .duration(15 * MINUTES) .eut(TierEU.RECIPE_IV) .addTo(fissionFuelProcessingRecipes); } }