Perfect Tungsten Line Looping

kubejs/assets/tfg/lang/en_us.json

@@ -2066,7 +2066,7 @@
   "quests.extreme_voltage.tunsgten_line_step.title": "Looping Soda Ash",
   "quests.extreme_voltage.tunsgten_line_step.subtitle": "You may not want to mine it forever",
   "quests.extreme_voltage.tunsgten_line_step.desc.1": "Looping the &5Tungsten Line&r perfectly isn’t the easiest task, so we’ll use this quest to guide you in the right direction.\n\nThe &bSalt&r you obtain should be combined with &aCarbon Dioxide&r and &6Ammonia&r to produce &3Ammonium Chloride&r, which you can then electrolyze to recycle your &6Ammonia&r and obtain the &9Hydrochloric Acid&r needed for &eSodium Tungstate&r.\n\nThis process also produces &bSodium Bicarbonate&r, which you should electrolyze to recover your &dSoda Ash&r.",
-  "quests.extreme_voltage.tunsgten_line_step.desc.2": "Finally, to close the loop, you need to manage your &aCarbon Dioxide&r. You can either split a portion of your &dSoda Ash&r and electrolyze it to recover &aCarbon&r and &9Oxygen&r, allowing you to get back some &aCarbon Dioxide&r, or brute force it by using &bLiquid Air&r distillation to produce an infinite supply of &aCarbon Dioxide&r.",
+  "quests.extreme_voltage.tunsgten_line_step.desc.2": "Finally, to close the loop, you need to manage your &aCarbon Dioxide&r. You get half back when you electrolyze your &aSodium Bicarbonate&r, the rest can be obtained from the &aCarbon&r and &9Oxygen&r byproducts from your &6Tungstate&r or from the &dCalcite&r byproduct if you input &6Scheelite&r. Alternatively, you could brute force it by using &bLiquid Air&r distillation to produce an infinite supply of &aCarbon Dioxide&r.",
   "quests.extreme_voltage.tunsgten_line_step_1.title": "The new Tungsten Line",
   "quests.extreme_voltage.tunsgten_line_step_1.subtitle": "Why? Just why?",
   "quests.extreme_voltage.tunsgten_line_step_1.desc": "The &eTungsten Line&r in TerraFirmaGreg has been completely reworked and you’ll be happy (or not) to know that it’s now &cmuch harder&r.\n\nIt’s possible to &afully loop&r every material in the Tungsten Line, but doing so requires a lot of engineering. Alternatively, you can brute-force your way through by &cmass-producing&r the resources you need.\n\nA little tip: &4Mars&r has several &agood ore veins&r for &eSoda Ash&r and &eTungsten&r.\n\nTake your time, optimize, and the Tungsten Line will become the foundation of your mid-to-late game progress.",

kubejs/assets/tfg/lang/ja_jp.json

@@ -1963,7 +1963,7 @@
   "quests.extreme_voltage.tunsgten_line_step.title": "Looping Soda Ash",
   "quests.extreme_voltage.tunsgten_line_step.subtitle": "You may not want to mine it forever",
   "quests.extreme_voltage.tunsgten_line_step.desc.1": "Looping the &5Tungsten Line&r perfectly isn’t the easiest task, so we’ll use this quest to guide you in the right direction.\n\nThe &bSalt&r you obtain should be combined with &aCarbon Dioxide&r and &6Ammonia&r to produce &3Ammonium Chloride&r, which you can then electrolyze to recycle your &6Ammonia&r and obtain the &9Hydrochloric Acid&r needed for &eSodium Tungstate&r.\n\nThis process also produces &bSodium Bicarbonate&r, which you should electrolyze to recover your &dSoda Ash&r.",
-  "quests.extreme_voltage.tunsgten_line_step.desc.2": "Finally, to close the loop, you need to manage your &aCarbon Dioxide&r. You can either split a portion of your &dSoda Ash&r and electrolyze it to recover &aCarbon&r and &9Oxygen&r, allowing you to get back some &aCarbon Dioxide&r, or brute force it by using &bLiquid Air&r distillation to produce an infinite supply of &aCarbon Dioxide&r.",
+  "quests.extreme_voltage.tunsgten_line_step.desc.2": "Finally, to close the loop, you need to manage your &aCarbon Dioxide&r. You get half back when you electrolyze your &aSodium Bicarbonate&r, the rest can be obtained from the &aCarbon&r and &9Oxygen&r byproducts from your &6Tungstate&r or from the &dCalcite&r byproduct if you input &6Scheelite&r. Alternatively, you could brute force it by using &bLiquid Air&r distillation to produce an infinite supply of &aCarbon Dioxide&r.",
   "quests.extreme_voltage.tunsgten_line_step_1.title": "The new Tungsten Line",
   "quests.extreme_voltage.tunsgten_line_step_1.subtitle": "Why? Just why?",
   "quests.extreme_voltage.tunsgten_line_step_1.desc": "The &eTungsten Line&r in TerraFirmaGreg has been completely reworked and you’ll be happy (or not) to know that it’s now &cmuch harder&r.\n\nIt’s possible to &afully loop&r every material in the Tungsten Line, but doing so requires a lot of engineering. Alternatively, you can brute-force your way through by &cmass-producing&r the resources you need.\n\nA little tip: &4Mars&r has several &agood ore veins&r for &eSoda Ash&r and &eTungsten&r.\n\nTake your time, optimize, and the Tungsten Line will become the foundation of your mid-to-late game progress.",

kubejs/assets/tfg/lang/ru_ru.json

@@ -1980,7 +1980,7 @@
   "quests.extreme_voltage.tunsgten_line_step.title": "Looping Soda Ash",
   "quests.extreme_voltage.tunsgten_line_step.subtitle": "You may not want to mine it forever",
   "quests.extreme_voltage.tunsgten_line_step.desc.1": "Looping the &5Tungsten Line&r perfectly isn’t the easiest task, so we’ll use this quest to guide you in the right direction.\n\nThe &bSalt&r you obtain should be combined with &aCarbon Dioxide&r and &6Ammonia&r to produce &3Ammonium Chloride&r, which you can then electrolyze to recycle your &6Ammonia&r and obtain the &9Hydrochloric Acid&r needed for &eSodium Tungstate&r.\n\nThis process also produces &bSodium Bicarbonate&r, which you should electrolyze to recover your &dSoda Ash&r.",
-  "quests.extreme_voltage.tunsgten_line_step.desc.2": "Finally, to close the loop, you need to manage your &aCarbon Dioxide&r. You can either split a portion of your &dSoda Ash&r and electrolyze it to recover &aCarbon&r and &9Oxygen&r, allowing you to get back some &aCarbon Dioxide&r, or brute force it by using &bLiquid Air&r distillation to produce an infinite supply of &aCarbon Dioxide&r.",
+  "quests.extreme_voltage.tunsgten_line_step.desc.2": "Finally, to close the loop, you need to manage your &aCarbon Dioxide&r. You get half back when you electrolyze your &aSodium Bicarbonate&r, the rest can be obtained from the &aCarbon&r and &9Oxygen&r byproducts from your &6Tungstate&r or from the &dCalcite&r byproduct if you input &6Scheelite&r. Alternatively, you could brute force it by using &bLiquid Air&r distillation to produce an infinite supply of &aCarbon Dioxide&r.",
   "quests.extreme_voltage.tunsgten_line_step_1.title": "The new Tungsten Line",
   "quests.extreme_voltage.tunsgten_line_step_1.subtitle": "Why? Just why?",
   "quests.extreme_voltage.tunsgten_line_step_1.desc": "The &eTungsten Line&r in TerraFirmaGreg has been completely reworked and you’ll be happy (or not) to know that it’s now &cmuch harder&r.\n\nIt’s possible to &afully loop&r every material in the Tungsten Line, but doing so requires a lot of engineering. Alternatively, you can brute-force your way through by &cmass-producing&r the resources you need.\n\nA little tip: &4Mars&r has several &agood ore veins&r for &eSoda Ash&r and &eTungsten&r.\n\nTake your time, optimize, and the Tungsten Line will become the foundation of your mid-to-late game progress.",

kubejs/server_scripts/gregtech/recipes.js

@@ -1694,64 +1694,67 @@ const registerGTCEURecipes = (event) => {
 	event.remove({ id: 'gtceu:chemical_bath/tungstic_acid_from_scheelite' })
 	event.remove({ id: 'gtceu:chemical_bath/tungstic_acid_from_tungstate' })
 	event.remove({ id: 'gtceu:electrolyzer/tungstic_acid_electrolysis' })
+	event.remove({ id: 'gtceu:chemical_reactor/sodium_bicarbonate_from_salt' })
+	event.remove({ id: 'gtceu:large_chemical_reactor/sodium_bicarbonate_from_salt' })
+	event.remove({ id: 'gtceu:electrolyzer/soda_ash_from_bicarbonate' })
 
 	// Transform Tungstate and Scheelite
 
 	event.recipes.gtceu.large_chemical_reactor('tfg:scheelite_to_sodium_tungstate')
 		.itemInputs(Item.of('gtceu:scheelite_dust', 6))
 		.itemInputs(Item.of('gtceu:soda_ash_dust', 6))
-		.itemOutputs(Item.of('tfg:sodium_tungstate_dust', 6))
-		.itemOutputs(Item.of('gtceu:calcite_dust', 6))
+		.itemOutputs(Item.of('tfg:sodium_tungstate_dust', 7))
+		.itemOutputs(Item.of('gtceu:calcite_dust', 5))
 		.duration(20*12)
 		.EUt(GTValues.VA[GTValues.EV])
 
 	event.recipes.gtceu.large_chemical_reactor('tfg:tungstate_to_sodium_tungstate')
-		.itemInputs(Item.of('gtceu:tungstate_dust', 6))
+		.itemInputs(Item.of('gtceu:tungstate_dust', 7))
 		.itemInputs(Item.of('gtceu:soda_ash_dust', 6))
-		.itemOutputs(Item.of('tfg:sodium_tungstate_dust', 6))
+		.itemOutputs(Item.of('tfg:sodium_tungstate_dust', 7))
 		.itemOutputs(Item.of('gtceu:lithium_dust', 2))
 		.itemOutputs(Item.of('gtceu:carbon_dust', 1))
 		.outputFluids(Fluid.of('gtceu:oxygen', 3000))
 		.duration(20*12)
 		.EUt(GTValues.VA[GTValues.EV])
 
 	event.recipes.gtceu.chemical_bath('tfg:tungstate_to_tungsten_acid')
-		.inputFluids(Fluid.of('gtceu:hydrochloric_acid', 12000))
-		.itemInputs(Item.of('tfg:sodium_tungstate_dust', 6))
-		.itemOutputs(Item.of('gtceu:salt_dust', 48))
-		.itemOutputs(Item.of('gtceu:tungstic_acid_dust', 6))
+		.inputFluids(Fluid.of('gtceu:hydrochloric_acid', 2000))
+		.itemInputs(Item.of('tfg:sodium_tungstate_dust', 7))
+		.itemOutputs(Item.of('gtceu:salt_dust', 4))
+		.itemOutputs(Item.of('gtceu:tungstic_acid_dust', 7))
 		.duration(20*24)
 		.EUt(GTValues.VA[GTValues.EV])
 
 	event.recipes.gtceu.chemical_bath('tfg:tungsten_acid_to_ammonium_tungstate')
 		.inputFluids(Fluid.of('gtceu:ammonia', 10000))
-		.itemInputs(Item.of('gtceu:tungstic_acid_dust', 12))
+		.itemInputs(Item.of('gtceu:tungstic_acid_dust', 7))
 		.itemOutputs(Item.of('tfg:ammonium_tungstate_dust', 1))
 		.duration(20*16)
 		.EUt(GTValues.VA[GTValues.EV])
 
 	event.recipes.gtceu.evaporation_tower('tfg:ammonium_tungstate_to_apt_h')
 		.itemInputs(Item.of('tfg:ammonium_tungstate_dust', 1))
 		.itemOutputs(Item.of('tfg:apt_gem', 1))
-		.outputFluids(Fluid.of('gtceu:hydrogen', 500))
-		.outputFluids(Fluid.of('gtceu:hydrogen', 500))
-		.outputFluids(Fluid.of('gtceu:hydrogen', 500))
-		.outputFluids(Fluid.of('gtceu:hydrogen', 500))
-		.outputFluids(Fluid.of('gtceu:hydrogen', 500))
-		.outputFluids(Fluid.of('gtceu:hydrogen', 500))
-		.duration(20*90)
+		.outputFluids(Fluid.of('gtceu:hydrogen', 2000))
+		.outputFluids(Fluid.of('gtceu:hydrogen', 200))
+		.outputFluids(Fluid.of('gtceu:hydrogen', 200))
+		.outputFluids(Fluid.of('gtceu:hydrogen', 200))
+		.outputFluids(Fluid.of('gtceu:hydrogen', 200))
+		.outputFluids(Fluid.of('gtceu:hydrogen', 200))
+		.duration(20*48)
 		.EUt(GTValues.VHA[GTValues.HV])
 
 	event.recipes.gtceu.distillery('tfg:ammonium_tungstate_to_apt')
 		.itemInputs(Item.of('tfg:ammonium_tungstate_dust', 1))
 		.itemOutputs(Item.of('tfg:apt_gem', 1))
-		.outputFluids(Fluid.of('gtceu:hydrogen', 500))
-		.duration(20*90)
+		.outputFluids(Fluid.of('gtceu:hydrogen', 2000))
+		.duration(20*48)
 		.EUt(GTValues.VHA[GTValues.HV])
-
+	
 	event.recipes.gtceu.pyrolyse_oven('tfg:apt')
 		.itemInputs(Item.of('tfg:apt_gem', 1))
-		.itemOutputs(Item.of('tfg:tungsten_oxide_dust', 3))
+		.itemOutputs(Item.of('tfg:tungsten_oxide_dust', 1))
 		.outputFluids(Fluid.of('gtceu:ammonia', 10000))
 		.duration(20*36)
 		.EUt(GTValues.VA[GTValues.EV])
@@ -1760,7 +1763,7 @@ const registerGTCEURecipes = (event) => {
 	event.recipes.gtceu.pyrolyse_oven('tfg:apt_nitrogen')
 		.itemInputs(Item.of('tfg:apt_gem', 1))
 		.inputFluids(Fluid.of('gtceu:nitrogen', 1000))
-		.itemOutputs(Item.of('tfg:tungsten_oxide_dust', 3))
+		.itemOutputs(Item.of('tfg:tungsten_oxide_dust', 1))
 		.outputFluids(Fluid.of('gtceu:ammonia', 10000))
 		.duration(20*18)
 		.EUt(GTValues.VA[GTValues.EV])
@@ -1772,6 +1775,29 @@ const registerGTCEURecipes = (event) => {
 		.itemOutputs(Item.of('gtceu:tungsten_dust', 1))
 		.duration(20*2.8)
 		.EUt(GTValues.VA[GTValues.EV])
+
+	// Looping soda ash
+
+	event.recipes.gtceu.large_chemical_reactor('tfg:large_chemical_reactor/sodium_bicarbonate_from_salt')
+		.itemInputs(Item.of('gtceu:salt_dust', 2))
+		.inputFluids(Fluid.of('gtceu:carbon_dioxide', 1000))
+		.inputFluids(Fluid.of('gtceu:ammonia', 1000))
+		.inputFluids(Fluid.of('gtceu:hydrogen', 2000))
+		.inputFluids(Fluid.of('gtceu:oxygen', 1000))
+		.itemOutputs(Item.of('gtceu:ammonium_chloride_dust', 2))
+		.itemOutputs(Item.of('gtceu:sodium_bicarbonate_dust', 6))
+		.circuit(2)
+		.duration(20*20)
+		.EUt(GTValues.VA[GTValues.MV])
+
+	event.recipes.gtceu.electrolyzer('tfg:electrolyzer/soda_ash_from_bicarbonate')
+		.itemInputs(Item.of('gtceu:sodium_bicarbonate_dust', 12))
+		.itemOutputs(Item.of('gtceu:soda_ash_dust', 6))
+		.outputFluids(Fluid.of('gtceu:carbon_dioxide', 1000))
+		.outputFluids(Fluid.of('gtceu:hydrogen', 2000))
+		.outputFluids(Fluid.of('gtceu:oxygen', 1000))
+
+	//#endregion
 
 
 	// New Alloys

kubejs/startup_scripts/gtceu/constants.js

@@ -381,9 +381,6 @@ global.ADD_CIRCUIT = /** @type {const} */ ([
 
     { recipeId: "gtceu:chemical_reactor/formic_acid", circuitNumber: 1 },
     { recipeId: "gtceu:large_chemical_reactor/formic_acid", circuitNumber: 1 },
-
-    { recipeId: "gtceu:chemical_reactor/sodium_bicarbonate_from_salt", circuitNumber: 2 },
-    { recipeId: "gtceu:large_chemical_reactor/sodium_bicarbonate_from_salt", circuitNumber: 2 },
 
     { recipeId: "gtceu:chemical_reactor/acetic_acid_from_methanol", circuitNumber: 1 },
     { recipeId: "gtceu:large_chemical_reactor/acetic_acid_from_methanol", circuitNumber: 1 },