Accumulator To Solar Panel Ratio

I had found that a ratio of 1 2 to 1 5 accumulators per solar panel worked out perfectly fine.

Accumulator to solar panel ratio. We could do that the other way around. Alternatively this works out to a ratio of 25 solar panels to 21 accumulators. For me it is 1 1 mainly because of the spatial design easily tile able and low supply for the slow conbots out of the mk1 personal roboport not because of any other reason. Your factory needs an average p power.

Now you have enough for a while. Then when both of those are met build some more. Solar panels are producing 100 nominal power 50 of the day. Every ratio from almost 0 to infinite is valid as long as you have enough panels acc.

Solar panels and accumulators optimal ratio 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. A single solar panel outputs an average of 42 kw over a day and requires 0 84 accumulators to sustain a constant power output through the night. We would need the fewest accumulators if we would just draw power from them if solar panels would produce no power at all. If your batteries can t fully charge during the day build more solar.

Reverse operation ratio from decimal needs multiplication and reduction by the largest common divisor. When accumulator and solar tech is first obtained i establish the ratio on a blueprint. We could do that the other way around. So for 2 1mw this works out to 50 solar panels and 42 accumulators exactly.

If they don t last the night build more batteries. The ratio 100 solar panels to 84 accumulators is optimized for solar panels first than for accumulators. The amount of solar panels and accumulators you need is more. The ratio doesn t matter nearly as much as people seem to think it does.

Just divide if you need a decimal. 500 21 p mw solar panels 20 p mw accumulators these are the numbers i use.