2.8.0

.minecraft/config/betterquesting/DefaultQuests/Quests/HowtoGeneratePow-AAAAAAAAAAAAAAAAAAAACQ==/LargeHeatExchang-AAAAAAAAAAAAAAAAAAAHcQ==.json

@@ -12,7 +12,7 @@
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-      "desc:8": "The Large Heat Exchanger is a powergen multi that accepts a non-direct fuel, and doesn\u0027t output EU. What is it for, then? §7To heat up water with hot liquids, that\u0027s what!§r\n\nEffectively, it\u0027s a Steam Boiler that uses fluids instead of solids, but it\u0027s more complicated. The three sources of energy are Lava, Hot Coolant, and Hot Solar Salt. The salt is the most powerful, but hardest to get. Lava can be automated from Everburn Urns or a myriad of other options, Hot Coolant usually comes from Fluid Nukes, and Hot Solar Salt is produced in the Solar Tower.\n\nFor Lava, the LHE outputs §d160 L of Steam for every 1 L of Lava, up to 1000 L/s of Lava input§r (§a4000 EU/t§r at 100% turbine efficiency). For Hot Coolant, the LHE outputs §d400 L of Steam for every 1 L of Hot Coolant, up to 800 L/s of input§r (§a8000 EU/t§r at 100% turbine efficiency). For Hot Solar Salt, the LHE outputs §d2000 L of Steam for every 1 L of Hot Solar Salt, up to 160 L/s of input§r (§a8000 EU/t§r at 100% turbine efficiency).\n\n§cIf you go above these input rates, the output becomes Superheated Steam, which needs to pass through a Large HP Steam Turbine before the regular Large Steam Turbine.§r The maximum input rate here is twice of what was before and the conversion rates are now §d1:80 for Lava§r, §d1:200 for Hot Coolant§r, and §d1:1000 for Hot Solar Salt§r. The energy output at 100% turbine efficiency is §a12000 EU/t§r for Lava, §a24000 EU/t§r for Hot Coolant, and §a24000 EU/t§r for Hot Solar Salt.\n\n§6§lVery powerful, but complicated, and needs turbines!§r\n\nFor more information, visit [url]wiki.gtnewhorizons.com/wiki/Large_Heat_Exchanger[/url] or [url]https://wiki.gtnewhorizons.com/wiki/Fluid_Reactor[/url].",
+      "desc:8": "The Large Heat Exchanger is a powergen multi that accepts a non-direct fuel, and doesn\u0027t output EU. What is it for, then? §7To heat up water with hot liquids, that\u0027s what!§r\n\nEffectively, it\u0027s a Steam Boiler that uses fluids instead of solids, but it\u0027s more complicated. The three sources of energy are Lava, Hot Coolant, and Hot Solar Salt. The salt is the most powerful, but hardest to get. Lava can be automated from Everburn Urns or a myriad of other options, Hot Coolant usually comes from Fluid Nukes, and Hot Solar Salt is produced in the Solar Tower.\n\nFor Lava, the LHE outputs §d160 L of Steam for every 1 L of Lava, up to 1000 L/s of Lava input§r (§a4000 EU/t§r at 100% turbine efficiency). For Hot Coolant, the LHE outputs §d400 L of Steam for every 1 L of Hot Coolant, up to 800 L/s of input§r (§a8000 EU/t§r at 100% turbine efficiency). For Hot Solar Salt, the LHE outputs §d2000 L of Steam for every 1 L of Hot Solar Salt, up to 160 L/s of input§r (§a8000 EU/t§r at 100% turbine efficiency).\n\n§cIf you go above these input rates, the output becomes Superheated Steam, which needs to pass through a Large HP Steam Turbine before the regular Large Steam Turbine.§r The maximum input rate here is twice of what was before and the conversion rates are now §d1:80 for Lava§r, §d1:200 for Hot Coolant§r, and §d1:1000 for Hot Solar Salt§r. The energy output at 100% turbine efficiency is §a12000 EU/t§r for Lava, §a24000 EU/t§r for Hot Coolant, and §a24000 EU/t§r for Hot Solar Salt.\n\n§6§lVery powerful, but complicated, and needs turbines!§r\n\nFor more information, visit [url]https://wiki.gtnewhorizons.com/wiki/Large_Heat_Exchanger[/url] or [url]https://wiki.gtnewhorizons.com/wiki/Fluid_Reactor[/url].",
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.minecraft/config/betterquesting/DefaultQuests/Quests/HowtoGeneratePow-AAAAAAAAAAAAAAAAAAAACQ==/PoweroftheSunatL-AAAAAAAAAAAAAAAAAAADqA==.json

@@ -6,11 +6,11 @@
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+      "questIDLow:4": 838
     },
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-      "questIDLow:4": 141
+      "questIDHigh:4": 3843847984648504058,
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.minecraft/config/betterquesting/DefaultQuests/Quests/HowtoGeneratePow-AAAAAAAAAAAAAAAAAAAACQ==/WeNeedBigToys-AAAAAAAAAAAAAAAAAAADDw==.json

@@ -8,7 +8,7 @@
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     "betterquesting:10": {
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-      "desc:8": "All your little turbines take up too much space? Are you running out of water? It\u0027s time to solve these problems. This Large Steam Turbine can help you produce a tremendous amount of energy. It will also distill water for you, so you can use the same water again inside your Large Boiler. Don\u0027t forget to make a rotor for the turbine and put inside the controller, otherwise this multiblock won\u0027t do anything.\n\nEach turbine has a specific optimal flow, the Steam flow that gives the highest fuel efficiency, the value shown on the turbine\u0027s tooltip. This is the flow you want to match, and you can use a Fluid Regulator as a cover to make it exactly what you want, but you can go beyond this flow to get an even higher EU/t value, at a loss of fuel efficiency. You can make turbines in 4 different sizes, with larger turbines producing more EU/t, but with varying amounts of fuel efficiency. Generally, Large is the best due to having the highest fuel efficiency and a good optimal flow rate\n\nWhen using turbines, be careful of flow rates. To find the optimal flow rate, you divide the optimal energy flow rate listed on the turbine, by the energy value for the plasma. You can also use the Large Turbine Calculator (there\u0027s a link on the main spreadsheet, which is linked to in discord), or scan the multiblock\u0027s controller while feeding it a minimal amount of plasma to see what the optimal flow is. Make sure to use a Fluid Regulator set to this flow rate for highest fuel efficiency, or go beyond it to get more EU/t at a cost to efficiency, with Steam Turbines being the worst at retaining efficiency beyond the optimal flow.\n\nIf you go beyond the optimal flow, you will get a higher EU/t value, but less fuel efficiency, and the maximum EU/t value depends on the turbine type and its Overflow Efficiency tier. For this type of turbine, tier 1 reaches the max at 150% of optimal flow to produce 112% of the EU/t, tier 2 reaches the max at 200% of optimal flow to produce 133% of the EU/t and tier 3 reaches the max at 250% of optimal flow to produce 156% of the EU/t. The closer you get to this maximum, the more fuel efficiency you\u0027re throwing away. Don\u0027t exceed your dynamo hatch\u0027s maximum EU/t output, though, or you will have problems!\n\nTurbines with a small turbine durability below 75k have their recipes removed. Use NEI with the appropriate long rod to find assembler recipes that will work for you. Or the spreadsheet. Long magnalium for small turbines, long titanium for normal turbines, etc.\n\nPre-moon, the best rotors are Shadow Metal or Vibrant Alloy.\n\nPost-moon, the best HV rotors are Shadow Metal or Oriharukon (this is IV-tier). Luckily, turbines are now fully functional with multi-amp dynamos, so give those a try if you need extra amps!\n\nFor additional choices, see the spreadsheet and Large Turbine Calculator.",
+      "desc:8": "All your little turbines take up too much space? Are you running out of water? It\u0027s time to solve these problems. This Large Steam Turbine can help you produce a tremendous amount of energy. It will also distill water for you, so you can use the same water again inside your Large Boiler. Don\u0027t forget to make a rotor for the turbine and put inside the controller, otherwise this multiblock won\u0027t do anything.\n\nEach turbine has a specific optimal flow, the Steam flow that gives the highest fuel efficiency, the value shown on the turbine\u0027s tooltip. This is the flow you want to match, and you can use a Fluid Regulator as a cover to make it exactly what you want, but you can go beyond this flow to get an even higher EU/t value, at a loss of fuel efficiency. You can make turbines in 4 different sizes, with larger turbines producing more EU/t, but with varying amounts of fuel efficiency. Generally, Large is the best due to having the highest fuel efficiency and a good optimal flow rate\n\nWhen using turbines, be careful of flow rates. To find the optimal flow rate, you divide the optimal energy flow rate listed on the turbine, by the energy value for the plasma. You can also use the Large Turbine Calculator (there\u0027s a link on the main spreadsheet, which is linked to in discord), or scan the multiblock\u0027s controller while feeding it a minimal amount of plasma to see what the optimal flow is. Make sure to use a Fluid Regulator set to this flow rate for highest fuel efficiency, or go beyond it to get more EU/t at a cost to efficiency, with Steam Turbines being the worst at retaining efficiency beyond the optimal flow.\n\nIf you go beyond the optimal flow, you will get a higher EU/t value, but less fuel efficiency, and the maximum EU/t value depends on the turbine type and its Overflow Efficiency tier. For this type of turbine, tier 1 reaches the max at 150% of optimal flow to produce 112% of the EU/t, tier 2 reaches the max at 200% of optimal flow to produce 133% of the EU/t and tier 3 reaches the max at 250% of optimal flow to produce 156% of the EU/t. The closer you get to this maximum, the more fuel efficiency you\u0027re throwing away. Don\u0027t exceed your dynamo hatch\u0027s maximum EU/t output, though, or you will have problems!\n\nUse NEI with the appropriate long rod to find assembler recipes that will work for you. Or the spreadsheet. Long magnalium for small turbines, long titanium for normal turbines, etc.\n\nPre-moon, the best rotors are Shadow Metal or Vibrant Alloy.\n\nPost-moon, the best HV rotors are Shadow Metal or Oriharukon (this is IV-tier). Luckily, turbines are now fully functional with multi-amp dynamos, so give those a try if you need extra amps!\n\nFor additional choices, see the spreadsheet and Large Turbine Calculator.",
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.minecraft/config/betterquesting/DefaultQuests/Quests/HowtoGeneratePow-AAAAAAAAAAAAAAAAAAAACQ==/WelcometothePlas-bNiieqPgSFqwFpC2DZkj-g==.json

@@ -8,7 +8,7 @@
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-      "desc:8": "Hello there! If you\u0027ve unlocked fusion, you can start this questline, but keep in mind that it\u0027s divided into three segments (the three fusion chains): one for each tier of Fusion Reactor, from Mk1 to Mk3.\n\nThere is a spreadsheet for all these chains, although it has some reactor count numbers that aren\u0027t right. To see it, check the Excel spreadsheet that set these numbers, in the following GitHub link:[url]https://github.com/GTNewHorizons/GTplusplus/pull/669[/url]\n\nThese quests follow the process of creating some truly powerful plasmas that are useful for power generation at the beginning of endgame, when you\u0027ve scaled up your setup to a Compact Fusion Reactor and XL Plasma Turbines. As you might have seen before, those huge turbines can go very fast with good materials, like Trinium or Infinity, but they will apply EU/t penalties according to the fuel value of the plasma used. This means that Helium and Tin Plasma are both much weaker there than they were in Large Plasma Turbines.\n\nThe end product of this whole process is Celestial Tungsten Plasma, which has no penalties even at Spacetime and can somewhat match what Helium Plasma would have produced, per compact reactor. The last step is the slowest, but, if there are no other bottlenecks, you can expect around §2§lover 8 billion EU/t§r assuming a single compact doing the last step with huge infinity turbines in a plasma XL.\n\nHowever, getting there won\u0027t be easy. This whole process uses 15 fusion recipes in total, and a lot more material automation than any of the simple fusion setups. This questline will help explain what is simple, not simple, or possibly a bottleneck. If you complete this, you will be sustained in powergen until the Dyson Swarm, or whatever other option appears later on, and it will continue being useful later on!",
+      "desc:8": "Hello there! If you\u0027ve unlocked fusion, you can start this questline, but keep in mind that it\u0027s divided into three segments (the three fusion chains): one for each tier of Fusion Reactor, from Mk1 to Mk3.\n\nThere are more fine details surrounding plasma power generation you can access by using the following Wiki link: [url]https://wiki.gtnewhorizons.com/wiki/Fusion_Reactor[/url]\n\nThese quests follow the process of creating some truly powerful plasmas that are useful for power generation at the beginning of endgame, when you\u0027ve scaled up your setup to a Compact Fusion Reactor and XL Plasma Turbines. As you might have seen before, those huge turbines can go very fast with good materials, like Trinium or Infinity, but they will apply EU/t penalties according to the fuel value of the plasma used. This means that Helium and Tin Plasma are both much weaker there than they were in Large Plasma Turbines.\n\nThe end product of this whole process is Celestial Tungsten Plasma, which has no penalties even at Spacetime and can somewhat match what Helium Plasma would have produced, per compact reactor. The last step is the slowest, but, if there are no other bottlenecks, you can expect around §2§lover 8 billion EU/t§r assuming a single compact doing the last step with huge infinity turbines in a plasma XL.\n\nHowever, getting there won\u0027t be easy. This whole process uses 15 fusion recipes in total, and a lot more material automation than any of the simple fusion setups. This questline will help explain what is simple, not simple, or possibly a bottleneck. If you complete this, you will be sustained in powergen until the Dyson Swarm, or whatever other option appears later on, and it will continue being useful later on!",
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