2.8.0-beta-4
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@@ -8,7 +8,7 @@
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"properties:10": {
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"betterquesting:10": {
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"desc:8": "Alongside the Oil Drilling Rig, there are other sources you can explore. For Heavy Oil, a good source might be Oilsands Ore, which is found in rare veins at high altitudes. If you find one, you will have a large amount of Heavy Fuel to make Diesel with after processing.\n\nThere are also renewable sources of Oil, namely from IC2 crops and bees. The Oilberry crop can produce it indefinitely, but at a very slow rate, whereas bees can do it much faster, particularly Refined Bees, but they are much harder to obtain.\n\nYou can also get more out of the Oil by cracking it in specific ways. Lightly Hydrocracked Heavy Fuel, for example, gives 60% of the input amount as Light Fuel, which can be helpful if you have an excess of Heavy, and not enough Light to make Diesel.",
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"desc:8": "Alongside the Oil Drilling Rig, there are other sources you can explore. For Heavy Oil, a good source might be Oilsands Ore, which is found in rare veins at high altitudes. If you find one, you will have a large amount of Heavy Fuel to make Diesel with after processing.\n\nThere are also renewable sources of Oil, namely from IC2 crops and bees. The Oilberry crop can produce it indefinitely, but at a very slow rate, whereas bees can do it much faster, particularly Refined Bees, but they are much harder to obtain.\n\nYou can also get more out of the Oil by cracking it in specific ways. Lightly Hydro-Cracked Heavy Fuel, for example, gives 60% of the input amount as Light Fuel, which can be helpful if you have an excess of Heavy, and not enough Light to make Diesel.",
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"globalShare:1": 0,
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"icon:10": {
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"Count:3": 1,
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@@ -8,7 +8,7 @@
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"properties:10": {
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"betterquesting:10": {
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"autoClaim:1": 0,
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"desc:8": "One of the components of High-Octane Gasoline, as the name implies, is Octane. It is so important to improve the fuel because of something called \"octane rating\", which measures how much the fuel resists compression without detonating. The energy that vehicles get to move around comes from this detonation, but being able to apply more compression allows for engine designs that are more efficient, but need the fuel to resist that increased force without detonating. That said, any of these fuels can be run in the engines you use, so the way to represent this efficiency bonus is in the fuel value.\n\n(There is a multi in the next tier that only runs on HOG, though. Don\u0027t forget it.)\n\nHow is Octane obtained, then? In the last tier, it was explained as coming from Light Fuel, and this is still how you should, and can obtain it: lightly hydrocracked Light Fuel gives some Octane, so put a DT for it and leave your Diesel needs behind. It\u0027s time to move on.",
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"desc:8": "One of the components of High-Octane Gasoline, as the name implies, is Octane. It is so important to improve the fuel because of something called \"octane rating\", which measures how much the fuel resists compression without detonating. The energy that vehicles get to move around comes from this detonation, but being able to apply more compression allows for engine designs that are more efficient, but need the fuel to resist that increased force without detonating. That said, any of these fuels can be run in the engines you use, so the way to represent this efficiency bonus is in the fuel value.\n\n(There is a multi in the next tier that only runs on HOG, though. Don\u0027t forget it.)\n\nHow is Octane obtained, then? In the last tier, it was explained as coming from Light Fuel, and this is still how you should, and can obtain it: lightly hydro-cracked Light Fuel gives some Octane, so put a DT for it and leave your Diesel needs behind. It\u0027s time to move on.",
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"globalShare:1": 0,
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"icon:10": {
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"Count:3": 1,
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@@ -8,7 +8,7 @@
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"properties:10": {
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"betterquesting:10": {
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"autoClaim:1": 0,
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"desc:8": "After getting large amounts of all the oil fractions, what can you do with them? They\u0027ll pile up in the tanks or output hatches, and the Distillation Tower stops when it fills up, unless you enable fluid voiding in the controller - in which case everything that cannot be output will just be voided instead, and it\u0027s in your best interest to avoid this waste. What do, then?\n\nFirst off, it\u0027s important to note that almost everything you get from Oil can be processed into even more things. Whether or not the step is worthwhile is a different story altogether. That said, you\u0027re free to look through NEI or the spreadsheet to decide what you want to do, and how you want to do it. The charm of a processing chain like this is that it lets you choose your own path and gives you the information to know how to best utilize it.\n\nSecond off, Oil is a major source of byproducts, many of which are needed to create various important materials. However, this isn\u0027t the only way to obtain most of them, and you might already found other sources, especially if you\u0027ve dabbled in the Benzene or the Biomass chains. Which path you take is up to you.\n\nNow, for the four fractions that you get from regular Oil. Up until now, the power generation needed both Light Fuel and Heavy Fuel processing, and Refinery Gas already proved to be a good source of Ethylene. What can these be used for, in case you can build more DTs to process the cracked fluids? Roughly speaking, these are the possibilities:\n\nLight Fuel: You will most likely be using most, or all of this to make Diesel. If you do have leftovers, moderately hydrocracking it is a good source of Propene, and lightly hydrocracking is the best source for Octane. These two are important, but only in EV, for epoxy and powergen, specifically.\n\nHeavy Fuel: If only working with regular Oil, a lot of this will also be consumed to make Diesel. However, it\u0027s important to get more of it automated, since it can be distilled directly to make three fantastic byproducts: Toluene, Phenol and Benzene. All of them are important for progression, so make sure you pay attention to this recipe. Toluene is especially useful in HV, as you will need many buckets of it when making your first rocket to be able to get into EV.\n\nNaphtha: You could distill it in a Distillation Tower, but keep in mind that you need to build a max-height one to cover the entire recipe. However, if you do it, you will have most of the Oil byproducts automated meaning that it\u0027s worth it to tackle this challenge when you get comfortable with making lots of Stainless Steel; it also has a good burn value, so if you don\u0027t need these byproducts, it\u0027s best to just use it for power.\n\nRefinery Gas: You\u0027re probably already distilling this for Ethylene. You could switch this recipe to a Distillation Tower and an Oil Cracking Unit (see next quest) to gain more output and some useful byproducts.",
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"desc:8": "After getting large amounts of all the oil fractions, what can you do with them? They\u0027ll pile up in the tanks or output hatches, and the Distillation Tower stops when it fills up, unless you enable fluid voiding in the controller - in which case everything that cannot be output will just be voided instead, and it\u0027s in your best interest to avoid this waste. What do, then?\n\nFirst off, it\u0027s important to note that almost everything you get from Oil can be processed into even more things. Whether or not the step is worthwhile is a different story altogether. That said, you\u0027re free to look through NEI or the spreadsheet to decide what you want to do, and how you want to do it. The charm of a processing chain like this is that it lets you choose your own path and gives you the information to know how to best utilize it.\n\nSecond off, Oil is a major source of byproducts, many of which are needed to create various important materials. However, this isn\u0027t the only way to obtain most of them, and you might already found other sources, especially if you\u0027ve dabbled in the Benzene or the Biomass chains. Which path you take is up to you.\n\nNow, for the four fractions that you get from regular Oil. Up until now, the power generation needed both Light Fuel and Heavy Fuel processing, and Refinery Gas already proved to be a good source of Ethylene. What can these be used for, in case you can build more DTs to process the cracked fluids? Roughly speaking, these are the possibilities:\n\nLight Fuel: You will most likely be using most, or all of this to make Diesel. If you do have leftovers, moderately hydro-cracking it is a good source of Propene, and lightly hydro-cracking is the best source for Octane. These two are important, but only in EV, for epoxy and powergen, specifically.\n\nHeavy Fuel: If only working with regular Oil, a lot of this will also be consumed to make Diesel. However, it\u0027s important to get more of it automated, since it can be distilled directly to make three fantastic byproducts: Toluene, Phenol and Benzene. All of them are important for progression, so make sure you pay attention to this recipe. Toluene is especially useful in HV, as you will need many buckets of it when making your first rocket to be able to get into EV.\n\nNaphtha: You could distill it in a Distillation Tower, but keep in mind that you need to build a max-height one to cover the entire recipe. However, if you do it, you will have most of the Oil byproducts automated meaning that it\u0027s worth it to tackle this challenge when you get comfortable with making lots of Stainless Steel; it also has a good burn value, so if you don\u0027t need these byproducts, it\u0027s best to just use it for power.\n\nRefinery Gas: You\u0027re probably already distilling this for Ethylene. You could switch this recipe to a Distillation Tower and an Oil Cracking Unit (see next quest) to gain more output and some useful byproducts.",
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"globalShare:1": 0,
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"icon:10": {
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"Count:3": 1,
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