factorio offshore pump heat exchanger rationys ymca swimming championships 2022

A steam turbine consumes 60 units of steam per second, which is 5.82 MW. You'll produce 18 plastic/second (less than 1 red belt) Pro tip! coal Electric Poles Place the Offshore Pump into the water. Connect the boilers to the offshore pump. As each heat exchanger produces 10 MW, the optimal ratio is 500 steam turbines for every 291 heat exchangers. Hence, one offshore pump supports $1200/103.09$ heat exchangers, or about 11.64 of them. An offshore pump produces 1200 units of water per second, which is enough for 116.4 MW. Feed 9 coal/second (less than 1 yellow belt) to the 7 Plastic-making Chemical Plants. As each heat exchanger produces 10 MW, the optimal ratio is 500 steam turbines for every 291 heat exchangers. Each offshore pump outputs 1200 units of water per second. Run 3 Chemical Plants on Heavy Oil Cracking and 9 on Light Oil Cracking. Therefore, you can find how many offshore pumps a group of heat exchangers needs by dividing their count by 11.64. Or heat exchangers and steam turbines. Share Improve this answer answered Jul 24, 2019 at 7:40 Gedas 1,386 8 9 A specialized heat-exchanger to further heat 165C Steam to 500C steam. For a 2x2 block of reactors, multiply by 3*4=12: 48 heat exchangers, 83 turbines, 5 pumps. Search the tags for mining, smelting, and advanced production blueprints. 1 offshore pump: 20 Steam Turbines. You can check the usage on the turbines as well as the production stat on the offshore pump. Following items represent the amount of machines needed making them. Compared to optimal setups, this wastes 4 turbines (for the 2 reactor setup) but it saves a lot of heat pipes, normal pipes, space, and especially design headache compared to most 'optimal' designs. A pump every two blocks will only give 3000, and every three blocks gives only 2250. Any type of burnable fuel can be used. An offshore pump produces 1200 units of water per second, which is enough for 116.4 MW. A steam turbine consumes 60 units of steam per second, which is 5.82 MW. Everything you need (1.0 Mall, crafts over 120 different items from ores to endproducts) According to this Factorio forum page, the following speeds occur at: 0 pipes - 240 fluid/sec 4 pipes - 150 fluid/sec 14 pipes - 120 fluid/sec 224 pipes - 90 fluid/sec 357 pipes - 60 fluid/sec 759 pipes - 30 fluid/sec To counter this, you can use underground pipes, as they count as only one pipe but stretch up to 9 spaces between each end. This ratio is exponential, meaning you will cut the total number of entities even further with very high tier machines. IOW, for every 40 MW, you need 4 heat exchangers, 6.873 steam turbines, and 0.344 pumps. 5y Each turbine consume 60 water/s so 1200/60=20 turbines. The exchangers have to be supplied with water from offshore pumps, which produce at most 1200 water per second. Perfect ratio for setting up the steam engines, boilers, and offshore pumps that will last you into mid-game. Move all the fluid logic into a separate system. Place an Electric Pole within range of the steam engine. Tweak the fluid flow logic, which will not be an optimisation, but a gameplay mechanics improvement ( FFF-260 ). Note that the ones that show "Working" status, all show between 100 L and 114 L of water (a heat exchanger consumes up to 103.1 L of water/s Note also that the pipe shows from offshore pump to first two heat exchangers : 65 - 60 - 35 - 50 - 25 - 20 - 15 - 30 - 25 - So the 50,000C are enough to heat up 103 units of steam per second, since . Offshore pump/heat exchanger ratio? Share your designs. Water: is a liquid which can be infinitely extracted from water tiles using an offshore pump; Steam: is a gas you can create by heating water in a boiler or heat exchanger; Other Factorio Guides: Boiler to Steam Ratio; Solar Panel Ratio; Console Commands & Cheats We need POWER! Offshore Pump Each offshore pump outputs 1200 units of water per second. you can easily obtain 1.9 TW (yes, TERAWATT!) I wasn't sure if Heat exchanger converts 1 water into 1 steam and there is nothing written in its tooltip. e.g. Optimal ratio is 1 offshore pump for every 20 steam turbines; or, 25 offshore pumps for every 291 heat exchangers. You can even do both, offshore pumps on both sides of the heat exchangers. The current design is 'dumb', assuming nuclear fuel is cheap; you can add smarts if you want by adding a measurement tank and insertion logic. Steam power is a type of electricity requiring both water and fuel. A heat exchanger produces 10 MJ a second, therefore it produces 10MJ / 0.097MJ = 103.0927835 steam per second. An offshore pump produces 1200 units of water per second, which is enough for 116.4 MW. Function otherwise like regular Heat-Exchangers. The ratio is 1 pump to 20 boilers. Each turbine consume 60 water/s so 1200/60=20 turbines. To heat up 1 unit of water 1 degree, 200 joules are needed, so the heat exchanger is heating up water by 50,000C in total. Fluid optimisations. You only need one offshore pump. If recommend having a pump for the steam at the end of the heat exchangers. One Offshore pump can fully supply 12 (11.64) Heat Exchangers driving 20 Steam Turbines producing 116.4 MW. 1 offshore pump: 20 Steam Turbines. And get rid of those pipe junctions. Optimal ratio is 1 offshore pump for every 20 steam turbines; Offshore Pump Edit Description An Offshore Pump will draw fluids from a pool of fluid, it will always face towards shore, you cannot rotate it, for it has to face towards shore. If there is no machine mixing (assemblers/chemical plants/furnaces) then ratios stay the same between assembly tiers. Merge straight sections of pipes into segments. 4 level 2 HolyGarbage Machine speeds 0.5/s 0.75/s 1.25/s 1/s 1/s For example: To make rails, the right ratio is 1 iron stick assembler feeding 2 rail assemblers. Use a less valuable resource to first heat water to 165C seperately, ie. A steam turbine consumes 60 units of steam per second, which is 5.82 MW. For a 2x2 block of reactors, multiply by 3*4=12: 48 heat exchangers, 83 turbines, 5 pumps. You can check the usage on the turbines as well as the production stat on the offshore pump. For example, a "offshore pump +4" is effectively 256 vanilla offshore pump in terms of flow rate. So we know that one offshore pump can supply 20 boilers but is that the same for heat exchangers? And probably how many Offshore Pumps you need for them? And probably how many Offshore Pumps you need for them? I wasn't sure if Heat exchanger converts 1 water into 1 steam and there is nothing written in its tooltip. If your megabase is currently having about 2000 vanilla offshore pump (along with pipes supplying water to the heat exchangers), with this mod you can replace these offshore pumps with just 8 "offshore pump +4"! IOW, for every 40 MW, you need 4 heat exchangers, 6.873 steam turbines, and 0.344 pumps. Factorio is a game in which you build and maintain factories. This is a compendium of the most common Factorio facts (v0.17). A huge thanks to to all the contributors on github, as well as the community who made the previous cheat sheets and other resources; such as the Wiki, Reddit, and Factorio Discord from which this is all based on. Why not put the water pipes between the reactor and heat exchangers. The steam production rate can also be calculated using the energy consumption: 1 Heat exchanger consumes 10MW, so it's putting 10,000,000 joule of energy into heating water/steam per second. Offshore Pump Boiler Steam Engine Any burnable fuel will work. No underground pipes for water used at all, athough the later needs some for steam. You will need 1 centrifuge to produce U-235 to make fuel for 1 Reactor continuously. Since heat exchangers consume 103.1 water each, a few dozen seems reasonable if you build the pipe with a pump every other grid square, which will give you a throughput of 6000 units. Find blueprints for the video game Factorio. Feed 50 coal/second (2 red belts) to the 25 refineries. But the water only gets heated up from 15C to 500C, so by 485C. The fluids drawn from the Offshore Pump can be transferred to Boilers by either connecting it directly to the Boiler or with Pipes leading to the Boiler. Attach the Steam Engine to the boilers. waste wood in regular burner-boilers, or solar-panel powered Electric-Boilers, thus saving the energy so used to heat 15C water to 165C steam.

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