Factorio Solar Panel Design

2628 accumulators 3118 solar panels 0 8428.

Factorio solar panel design.

This means one solar panel produces an average of 42 kw over one day and night cycle. During daylight hours every panel provides the maximum power level 60kw. To calculate the number of panels to get 10 gw hours are is follows. Accumulators can store output energy 5 times faster than solar panels can supply so if you ve got about three times more solar panels than you need energy.

Haven t seen this design posted anywhere so here is yet another 0 15 solar panel layout this solar panel layout has a roboport only uses 4 substations has the exact 0 84 ratio 84 accumulators 100 solar panels and is symettrical. Space is generally not the rarest resource in factorio. Moreover it allow your solar panel farm to be a safe way for drones. The second arithmetic combinator takes the output of the first combinator and divides it by 20.

Note your roboports will be closer together here which isn t necessarily a bad thing depending on your base. However i was not happy with the solar panel accumulator ratio in this design. Balanced solar panel accumulator production. Used to have a 50x50 design that had 166 of each and just recently switched to this 48x48 design.

You should never run into issues. As for which to actually pick i d say it s up to your preference cilya s design with accumulators instead of a roboport is the only one with perfect 0 86 ratio among popular designs used by factorio players. Mk1 a mark one is just a bunch of poles with y know solar panels mixed in madzuri nov 2016 mk2 focuses on ratios mk3 uses roboports to construct the tile mk4 uses a diagonal spacing to reduce roboports and ups mk5 makes use of most if not all of the radar range. I like to go for a 1 1 ratio of accumulators to solar panels.

Generated power will increase decrease linearly during dusk and dawn and no power is produced at night. Though in all honesty you probably aren t ready for solar panels yet if the cost bothers you. The optimal ratio is 0 84 21 25 accumulators per solar panel and 23 8 solar panels per megawatt required by your factory this ratio accounts for solar panels needed to charge the accumulators this means that you need 1 428 mw of production of solar panels and 100mj of storage to provide 1 mw of power over one day night cycle. Otherwise it s a lot more time invested in the building of those and you spend much more time placing solar panels than doing anything else.

The first arithmetic combinator takes the number of accumulators in the chest and multiplies it by 24. Solar panels are an unlimited source of free energy that produce no pollution. This circuit balances production of solar panels and accumulators to a desired ratio in my case 24 20.