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[[Accumulator]]s can be charged up during the day to power the base at night. [https://youtu.be/FXzKoKGtaVU This video] shows a way one can lay out Accumulators and Solar Panels with space efficiency.
[[Accumulator]]s can be charged up during the day to power the base at night. [https://youtu.be/FXzKoKGtaVU This video] shows a way one can lay out Accumulators and Solar Panels with space efficiency.


[[Accumulator]]s are not the only way to work with solar energy. Sometimes it is more economical to just avoid consuming energy at night. For example, if you power a bunch of [[Electric mining drill]]s and [[Electric furnace]]s to produce [[Iron plate|iron]] and [[copper plate]]s, you could build more drills and furnaces than you actually need, and store the excess production during the day. At night you can shut down extractors and furnaces, and let your factory run with the stored plates. Instead of storing energy, you are storing what the energy is used for. The easiest way to achieve this is by connecting all your extractors and furnaces to a separate electric network with exactly enough solar panels to make them work during the day. The rest of your factory would be connected to a separate electric network, with other solar panels, and possibly accumulators and/or steam engines. Another way is to put your whole factory on the same electric network, but use a [[circuit network]] to monitor the charge level of your [[Basic accumulator|accumulators]] and shut down a sub-network with a [[power switch]] as soon as the accumulators charge goes below 90%. The same technique can be applied to your steam engines to enable them only when your accumulators are almost discharged. In both cases, a hysteresis can be used to avoid toggling on/off a whole part of the electric network at every tick (for example: when accumulator charge goes below 80% you shut down furnaces, but you enable them again only when accumulator charge is above 95%).
[[Accumulator]]s are not the only way to work with solar energy. Sometimes it is more economical to just avoid consuming energy at night. For example, if you power a bunch of [[Electric mining drill]]s and [[Electric furnace]]s to produce [[Iron plate|iron]] and [[copper plate]]s, you could build more drills and furnaces than you actually need, and store the excess production during the day. At night you can shut down extractors and furnaces, and let your factory run with the stored plates. Instead of storing energy, you are storing what the energy is used for. The easiest way to achieve this is by connecting all your extractors and furnaces to a separate electric network with exactly enough solar panels to make them work during the day. The rest of your factory would be connected to a separate electric network, with other solar panels, and possibly accumulators and/or steam engines. Another way is to put your whole factory on the same electric network, but use a [[circuit network]] to monitor the charge level of your [[Basic accumulator|accumulators]] and shut down a sub-network with a [[power switch]] as soon as the accumulators charge goes below 90%. The same technique can be applied to your steam engines to enable them only when your accumulators are almost discharged. In both cases, [[Wikipedia:hysteresis|hysteresis]] can be used to avoid toggling on/off a whole part of the electric network at every tick (for example: when accumulator charge goes below 80% you shut down furnaces, but you enable them again only when accumulator charge is above 95%).


== Notes ==
== Notes ==

Revision as of 18:01, 10 August 2017

Solar panel.png
Solar panel

Solar panel entity.png

Recipe

Time.png
10
+
Copper plate.png
5
+
Electronic circuit.png
15
+
Steel plate.png
5
Solar panel.png
1

Total raw

Time.png
28.75
+
Copper plate.png
27.5
+
Iron plate.png
15
+
Steel plate.png
5

Recipe

Time.png
10
+
Copper plate.png
5
+
Electronic circuit.png
15
+
Steel plate.png
5
Solar panel.png
1

Total raw

Time.png
47.5
+
Copper plate.png
65
+
Iron plate.png
30
+
Steel plate.png
5

Map color

Health

200

Stack size

50

Dimensions

3×3

Power output

60 kW (full daylight)
42 kW (average)

Mining time

0.1

Prototype type

solar-panel

Internal name

solar-panel

Required technologies

Solar energy (research).png

Produced by

Assembling machine 1.png
Assembling machine 2.png
Assembling machine 3.png
Player.png

Consumed by

Satellite.png
Portable solar panel.png

Solar panels are an infinite source of free energy while producing no pollution. During daylight hours every panel provides the maximum power level, 60kW. Generated power will increase/decrease linearly during dusk and dawn, and no power is produced at night. This means one solar panel produces 42 kW over one day and night cycle.

File:SolarPanelSetUp.png
An efficient solar panel set up.

Energy management

As already stated, solar panels produce energy only during the day, but you are likely to want your factory running at night as well.

Accumulators can be charged up during the day to power the base at night. This video shows a way one can lay out Accumulators and Solar Panels with space efficiency.

Accumulators are not the only way to work with solar energy. Sometimes it is more economical to just avoid consuming energy at night. For example, if you power a bunch of Electric mining drills and Electric furnaces to produce iron and copper plates, you could build more drills and furnaces than you actually need, and store the excess production during the day. At night you can shut down extractors and furnaces, and let your factory run with the stored plates. Instead of storing energy, you are storing what the energy is used for. The easiest way to achieve this is by connecting all your extractors and furnaces to a separate electric network with exactly enough solar panels to make them work during the day. The rest of your factory would be connected to a separate electric network, with other solar panels, and possibly accumulators and/or steam engines. Another way is to put your whole factory on the same electric network, but use a circuit network to monitor the charge level of your accumulators and shut down a sub-network with a power switch as soon as the accumulators charge goes below 90%. The same technique can be applied to your steam engines to enable them only when your accumulators are almost discharged. In both cases, hysteresis can be used to avoid toggling on/off a whole part of the electric network at every tick (for example: when accumulator charge goes below 80% you shut down furnaces, but you enable them again only when accumulator charge is above 95%).

Notes

  • It takes 23.8 solar panels to operate 1MW of factory and charge enough accumulators to sustain that 1MW through the night

Achievements

Solaris-achievement.png Solaris

Produce more than 10 GJ per hour using only solar panels.

Steam-all-the-way-achievement.png Steam all the way

Win the game without building any solar panels.

History

  • 0.13.2:
    • Changed tech requirement from Adv. Electronics to Electronics.
  • 0.12.11:
    • Energy of the solar panel is now fractioned between all the networks it's connected to.
  • 0.12.0:
    • Massive optimisations to solar panel logic.
  • 0.11.0:
    • Significantly slowed crafting speed to 10 secs from 0.5 sec.
  • 0.7.1:
    • Made solar panels pre-science pack 3.
  • 0.5.0:
    • Unplugged icon shown when not connected to any power transfer device.
  • 0.3.0:
    • New solar panel graphics.
  • 0.2.1:
    • Priority of power consumption changed to consume from solar panel first.

See also