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power_plant_energy [2018/01/06 22:18] – weby | power_plant_energy [2022/08/28 03:01] (current) – weby |
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The following values/power point for different sizes are calculated from the weapon damages with the base weapons being 25% efficient and one shot/20 seconds and the improved versions as 50% efficient to get the extra rof with same energy. | The following values/power point for different sizes are calculated from the weapon damages with the base weapons being 25% efficient and one shot/20 seconds and the improved versions as 50% efficient to get the extra rof with same energy. |
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^SM^MW/power point^ | ^SM^ship Tons^power plant tons^MW/power point^ |
|1 | 0.02| | |1 |0.3|0.015| 0.02| |
|2 | 0.06| | |2 |1|0.05| 0.06| |
| ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| | | ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| |
| ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| | | ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| |
| ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| | | ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| |
| ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| | | ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| |
| ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| | | ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| |
| ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| | | ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| |
| ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| | | ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| |
| ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| | | ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| |
| ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| | | ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| |
| ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| | | ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| |
| ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| | | ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| |
| ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| | | ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| |
| ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| | | ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| |
| ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| | | ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| |
| ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| | | ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| |
| ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| | | ~~=cell(col(),row()-1)+1~~ | ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| ~~=cell(col(),row()-2)*10~~| |
| |
| |
| ====== Power Cell energy ====== |
| calculatrion: |
| <code> |
| TL 11: REF 10, that is 10s time the energy of corresponding TNT |
| TNT is 4184kJ/kg. |
| Thus the energy is 4184kJ/kg*10=41840kJ/kg (42mj) |
| That is 41840kJ/3600 seconds=11.6 kwh. |
| Each TL seems to be a 4x step according to the REF numbers and the blaster/laser design in pyramid 37 so: |
| a TL 10 one is 2.9kwh/kg and TL 9 is 0.73 kwh/kg |
| A C-cell at 227 grams is thus about 165 watt hours. |
| |
| Rechargeable are assumed to be half that. |
| </code> |
| |
| So rechargeable kwh: |
| |TL|1kg|c-cell| |
| |9| 0.3625|~~=cell(col()-1,row())*0.227~~| |
| |10|~~=cell(col(),row()-1)*4~~|~~=cell(col()-1,row())*0.227~~| |
| |11|~~=cell(col(),row()-1)*4~~|~~=cell(col()-1,row())*0.227~~| |
| |12|~~=cell(col(),row()-1)*4~~|~~=cell(col()-1,row())*0.227~~| |
| |
| note: |
| *Tesla power packs: |
| * 2019: .259kwh/kg |
| * 2022: .276kwh/kg |
| * 2024(plan): .333kwh/kg |
| |