Difference between revisions of "User talk:Starwave"
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== Coolant physics in 1.106+ == | == Coolant physics in 1.106+ == | ||
There are 2 types of coolant capacitors: | |||
*The coolant cell. There are 3 types of it which can store up to 10K, 30K or 60K heat and you can get that heat out again. Be careful tough, as it will break when being heated beyond the max heat value. | |||
*The condensator. There are 2 types of the condensator, the RSH (20K) and the LZH (100K). They are pretty much coolant cells but can store more heat, will not break when reaching their heat cap but you can still get the heat out again. | |||
Additionally you can "repair" them using redstone (and lapis for the LZH). Redstone fills up a RSH by 10K a LZH by 5K and lapis fills a LZH by 40K. | |||
== Heat switch physics in 1.106+ == | == Heat switch physics in 1.106+ == | ||
Revision as of 18:02, 21 September 2012
Uranium physics in 1.106+[edit]
Used variables:
- n: Nearby uranium cells
- p: Amount of pulses this reactor tick
- h: Heat produced this reactor tick
- e: Energy produced this reactor tick
- c: Amount of cells in this item
A uranium cell will always pulse once plus the amount of cells that are directly adjacent (and contain uranium):
- p = 1 + n
Addition: To compensate dual and quad cells you should use:
- p = 1 + floor(c / 2) + n
A uranium cell will always create heat and energy based on how often it ticks per reactor tick:
- h = 2 * p * (p + 1)
- e = 5 * p
Addition: To compensate dual and quad cells you should use:
- h = 2 * c * p * (p + 1)
- e = 5 * c * p
Coolant physics in 1.106+[edit]
There are 2 types of coolant capacitors:
- The coolant cell. There are 3 types of it which can store up to 10K, 30K or 60K heat and you can get that heat out again. Be careful tough, as it will break when being heated beyond the max heat value.
- The condensator. There are 2 types of the condensator, the RSH (20K) and the LZH (100K). They are pretty much coolant cells but can store more heat, will not break when reaching their heat cap but you can still get the heat out again.
Additionally you can "repair" them using redstone (and lapis for the LZH). Redstone fills up a RSH by 10K a LZH by 5K and lapis fills a LZH by 40K.
Heat switch physics in 1.106+[edit]
Coming soon...
Heat vent physics in 1.106+[edit]
Coming soon...
Conclusion[edit]
- Uranium cells:
- Basic Formulas:
- h = 2 * c * (1 + floor(c / 2) + n) * (2 + floor(c / 2) + n)
- e = 5 * c * (1 + floor(c / 2) + n)
- Basic Formulas:
- Single uranium cell: (n / h / e)
- 0 / 4 / 5
- 1 / 12 / 10
- 2 / 24 / 15
- 3 / 40 / 20
- 4 / 60 / 25
- Single uranium cell: (n / h / e)
- Dual uranium cell: (n / h / e)
- 0 / 24 / 20
- 1 / 48 / 30
- 2 / 80 / 40
- 3 / 120 / 50
- 4 / 168 / 60
- Dual uranium cell: (n / h / e)
- Quad uranium cell: (n / h / e)
- 0 / 96 / 60
- 1 / 160 / 80
- 2 / 240 / 100
- 3 / 336 / 120
- 4 / 448 / 140
- Quad uranium cell: (n / h / e)
If you need help with reactor calculation, don't understand parts of this formula or find a mistake, please contact me.