Difference between revisions of "High-Pressure Turbine II"

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m (Phoenixx moved page High-Pressure Turbine II to High-Pressure Turbine II over redirect: all caps titles)
(Added description of efficiency and auto-balance.)
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==Efficiency==
Efficiency is a ratio of produced {{infoicon|Mechanical Power}} over used {{infoicon|Steam Hi}}.
The efficiency will go down in the following cases:
* The charge of the connected shaft is more than 80% of its capacity.
*: Efficiency(%) = 100 - 500 × {(Charge of shaft / Capacity of shaft) - 0.8}
* The turbine is in starting up, that is, 28.4 [[File:Clock.png|16x16px]] from starting supplying {{infoicon|Steam Hi}} or restarting from idling.
*: Efficiency(%) = 3.78 × Time from start ([[File:Clock.png|16x16px]])
Decreasing the efficiency in starting up means the production of {{infoicon|Mechanical Power}} will go down drastically when provided {{infoicon|Steam Hi}} is less than required. For example, if the turbine gets {{Time|7.5|10|per60=yes}} of {{infoicon|Steam Hi}}, it produces only 0.33 MW of {{infoicon|Mechanical Power}} on average.
<!-- The values of the efficiency are tested at version 0.4.9c. -->
===Auto-balance===
When auto-balance is enabled, the turbine will be automatically idle once the charge of the connected shaft reaches 80% of its capacity. The turbine restart once the shaft's charge gets to 35%. This option is valid to save steam. However, it takes time to get to full power on the turbine restarting. So enough [[flywheel|flywheels]] should be connected for a stable electric supply when auto-balance is enabled.
<!-- The values of the charges that the turbine is idle or restarts are tested at version 0.4.9c. -->


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{{Navbox/Machines}}

Revision as of 14:56, 13 August 2022

Power Production.png
High-pressure Turbine II
T2
High-pressure Turbine II.png
Uses high pressure steam to create mechanical power.
Construction
Construction Parts III.png
80
WorkersWorker.png 4
ElectricityNone
MaintenanceMaintenance I.png 3.0 / 60 Clock.png
Footprint7x5
Required ResearchPower Generation IV
DesignationPower Production Power Production.png
VariantsHigh-Pressure Turbine
Low-Pressure Turbine
Low-Pressure Turbine II

The High-pressure Turbine II is a direct upgrade of the High-Pressure Turbine. Compared to the High-pressure Turbine, it can accept twice as much Steam (High), generates twice as much Mechanical Power, has twice the Maintenance cost and requires twice the Workers. It has the same footprint, has the same inputs/outputs, and the input/output locations line up exactly the same.

Recipes

8
Steam (High).png
48
10 Clock.png
Transform.png
60 Clock 60s.png
 
Mechanical Power.png
12 MW
Plus.png
8
Steam (Low).png
48

Efficiency

Efficiency is a ratio of produced Mechanical Power over used Steam (High).

The efficiency will go down in the following cases:

  • The charge of the connected shaft is more than 80% of its capacity.
    Efficiency(%) = 100 - 500 × {(Charge of shaft / Capacity of shaft) - 0.8}
  • The turbine is in starting up, that is, 28.4 Clock.png from starting supplying Steam (High) or restarting from idling.
    Efficiency(%) = 3.78 × Time from start (Clock.png)

Decreasing the efficiency in starting up means the production of Mechanical Power will go down drastically when provided Steam (High) is less than required. For example, if the turbine gets 7.5 / 10 Clock.png (45 / 60 Clock 60s.png) of Steam (High), it produces only 0.33 MW of Mechanical Power on average.


Auto-balance

When auto-balance is enabled, the turbine will be automatically idle once the charge of the connected shaft reaches 80% of its capacity. The turbine restart once the shaft's charge gets to 35%. This option is valid to save steam. However, it takes time to get to full power on the turbine restarting. So enough flywheels should be connected for a stable electric supply when auto-balance is enabled.