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6c6c817a68
Significantly updates the Engineering guidebook (more explicitly the Atmos section) to have a lot more relevant and useful information. Right now engineering has been getting update after update with no real change to the relevant guidebook entry. This has lead to a lot of out of date information and bad practices being prevalent in the guidebook, something that pains me to read. (cherry picked from commit 98c606d76007865e93ebd438d0cf9219d14a4631)
51 lines
2.8 KiB
XML
51 lines
2.8 KiB
XML
<Document>
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# Power Storage
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Because of [textlink="Power Ramping" link="Ramping"], it is important to have power storage devices to help flatten out spikes and dips in power usage, as well as to provide power in the event of a power deficit.
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Each transformer for its respective power level ([color=orange]HV[/color], [color=yellow]MV[/color], and [color=green]LV[/color]) has an attached small battery to handle minor spikes and dips; however, this is not viable in the case of a large grid deficit.
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## SMES
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The Superconducting Magnetic Energy Storage (SMES) unit is a device that can store a large amount of power and release it quickly.
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<Box>
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<GuideEntityEmbed Entity="SMESBasic"/>
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</Box>
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In order to charge the SMES unit, [color=orange]HV[/color] power must be provided to a cable terminal pointing at the SMES unit. The SMES will draw power from the terminal and send power out from underneath.
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The terminal will ensure that the [color=orange]HV input[/color] and [color=orange]HV output[/color] do not connect.
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<Box HorizontalAlignment="Stretch">
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<Box>
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<GuideEntityEmbed Entity="CableTerminal"/>
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</Box>
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<Box>
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<GuideEntityEmbed Entity="CableHV" Caption="Output"/>
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<GuideEntityEmbed Entity="SMESBasic" Caption="" Margin="0"/>
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<GuideEntityEmbed Entity="CableTerminal" Caption="" Margin="0" Rotation="270"/>
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<GuideEntityEmbed Entity="CableHV" Caption="Input"/>
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</Box>
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</Box>
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SMESes can store [color=orange][protodata="SMESBasic" comp="Battery" member="MaxCharge" format="N0"/] J[/color] of energy, and can output a maximum [color=orange][protodata="SMESBasic" comp="PowerNetworkBattery" member="MaxSupply" format="N0"/] W[/color] of power.
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If the battery is full, the SMES will pass through the power it receives from the input cable to the output cable. In the event of a power deficit, the SMES will ramp up to supplement the power draw.
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## Advanced SMES
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The Advanced SMES unit is a more advanced version of the SMES unit that can store even more power.
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<Box>
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<GuideEntityEmbed Entity="SMESAdvanced"/>
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</Box>
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They're primarily used in station SMES arrays to store large amounts of power for the station's power grid.
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They help to buy engineers time to setup power at roundstart, or to provide power in the event of a power deficit for extended periods of time.
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Advanced SMESes can store [color=orange][protodata="SMESAdvanced" comp="Battery" member="MaxCharge" format="N0"/] J[/color] of energy, and can output a maximum [color=orange][protodata="SMESAdvanced" comp="PowerNetworkBattery" member="MaxSupply" format="N0"/] W[/color] of power.
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Keep in mind that these aren't a magic solution to power deficits, and they can't store infinite energy.
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A station load will drain these battries quickly if there is no power source partially supporting them.
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</Document>
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