Difference between revisions of "Electricity/zh"
From Space Engineers Wiki
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:星体对电能绝缘。 | :星体对电能绝缘。 | ||
− | === | + | == 电器设备 == |
+ | 电器有:供电,蓄电, | ||
+ | === 供电设备 === | ||
+ | 供电: | ||
+ | [[Large Reactor]], [[Small Reactor]], [[Wind Turbine]], [[Hydrogen Engine]], or [[Solar Panel]]. | ||
+ | 小网格: | ||
+ | 太阳能板;小号核能站,大号核能站,氢电站 | ||
+ | |||
+ | 大网格: | ||
+ | 太阳能板;小号核能站,大号核能站,氢电站;风力发电站 | ||
+ | |||
+ | |||
发电装置中的,核发电站 反应堆 以 [[Uranium Ingot|铀锭]] 为原料发电,其 1公斤(kg)可产出 1兆瓦时(MWh)电能量 | 发电装置中的,核发电站 反应堆 以 [[Uranium Ingot|铀锭]] 为原料发电,其 1公斤(kg)可产出 1兆瓦时(MWh)电能量 | ||
:规模更大的核发电站,只是加速反应,缩短时间,料能效率不变。 | :规模更大的核发电站,只是加速反应,缩短时间,料能效率不变。 | ||
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:电池会试图为自己充电? | :电池会试图为自己充电? | ||
:电池为电池充电,放电方无损耗,蓄电方效率80%. | :电池为电池充电,放电方无损耗,蓄电方效率80%. | ||
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=== 用电 === | === 用电 === | ||
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磁铁头 | 磁铁头 | ||
+ | === 优先供电策略 === | ||
+ | :当负载集群有用电需求时,首先由可持续供电设备供电,其次由燃料供电设备供电,最后由后备供电设备补充。 | ||
+ | |||
+ | :# [[Solar Panel|太阳能板]] 和 [[Wind Turbine|风轮机]] :均为可持续供电设备,虽然供电能力不大,且可能受环境或方位影响,但方便直接,无需燃料。 | ||
+ | :# [[Hydrogen Engine|氢气引擎]] :采用低价值的氢气为发电燃料;需要提供氢气库存,氢气的能效并不高。 | ||
+ | :# [[Large Reactor|大号反应堆]] 和 [[Small Reactor|小号反应堆]] :采用高效但极端昂贵的铀锭为发电原料(铀矿非常稀有,铀锭的制取相当耗时,购买又昂贵) | ||
+ | :# [[Battery|电池]] :作为后备供电,应急用;并且蓄电效率浪费20%充电的电能 | ||
+ | |||
+ | === 优先用电策略 === | ||
+ | :用电设备按功能归类并划分了用电的次序,设备可适应电能供量而调整输出大小的(比如推进,电池)会排在后序,而那些不足电量就会自动停机的设备(比如输送,防御)会排在相对优先;电池的蓄电行为排在最后。 | ||
+ | |||
+ | :# (防御)Defense - [[Interior Turret]], [[Missile Turret]], etc | ||
+ | :# (输送)Conveyors - [[Conveyor]], [[Conveyor Tube]], blocks that make up the [[Conveyor Network]], etc | ||
+ | :# (生产)Factory - [[Refinery]], [[Assembler]], [[Oxygen Generator]], [[Air Vent]], [[Oxygen Tank]], etc | ||
+ | :# (门控)Doors - [[Door]], [[Airtight Hangar Door]], etc | ||
+ | :# (应用)Utility - Communications, Lights, [[Rotor]], [[Piston]], [[Medical Room]], [[Gravity Generator]], the vast majority of electronics, etc | ||
+ | :# (充能)Charging - [[Jump drive]], specifically players inside cockpits or passenger chairs, recharging their suits. | ||
+ | :# (翻滚)Gyro - All [[Gyroscope]]s | ||
+ | :# (推进)Thrust - [[Small Thruster|Standard Thrusters]], but not [[Small Hydrogen Thruster|hydrogen based thrusters]] | ||
+ | :# (电池)Batteries - Any [[Battery|Batteries]] attempting to charge themselves. | ||
== 能源(电能)== | == 能源(电能)== | ||
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|rowspan="2" |{{icon|Solar Panel|small}} ||rowspan="2"| [[Solar Panel]] || {{icon|Large_Ship|small}} Large ||style="text-align:right;"| 2x4x1 [125 m<sup>3</sup>]||style="text-align:right;" data-sort-value=0.12| 120* ||style="text-align:right;"| 441.4 ||style="text-align:right;"| 0.272 ||style="text-align:right;"| 0.96 | |rowspan="2" |{{icon|Solar Panel|small}} ||rowspan="2"| [[Solar Panel]] || {{icon|Large_Ship|small}} Large ||style="text-align:right;"| 2x4x1 [125 m<sup>3</sup>]||style="text-align:right;" data-sort-value=0.12| 120* ||style="text-align:right;"| 441.4 ||style="text-align:right;"| 0.272 ||style="text-align:right;"| 0.96 | ||
|- | |- | ||
− | | {{icon|Small_Ship|small}} Small ||style="text-align:right;"| 5x10x1 [6.25m<sup>3</sup>]||style="text-align:right;" data-sort-value=0.03| 30* ||style="text-align:right;"| 159.2 ||style=" | + | | {{icon|Small_Ship|small}} Small ||style="text-align:right;"| 5x10x1 [6.25m<sup>3</sup>]||style="text-align:right;" data-sort-value=0.03| 30* ||style="text-align:right;"| 159.2 ||style="te |
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Revision as of 13:34, 10 July 2023
Contents
综述
- 电能[1]在游戏中作为设备运作的能源机制之一。
- 电能可通过供电设备产生,能在相连网格上传播,各式用电器持续消耗电能来实现各自功能。
- 星体对电能绝缘。
电器设备
电器有:供电,蓄电,
供电设备
供电: Large Reactor, Small Reactor, Wind Turbine, Hydrogen Engine, or Solar Panel. 小网格: 太阳能板;小号核能站,大号核能站,氢电站
大网格: 太阳能板;小号核能站,大号核能站,氢电站;风力发电站
发电装置中的,核发电站 反应堆 以 铀锭 为原料发电,其 1公斤(kg)可产出 1兆瓦时(MWh)电能量
- 规模更大的核发电站,只是加速反应,缩短时间,料能效率不变。
- 大网格的“小型核反应堆” 供电功率为 15兆瓦(MW),只需要 4分钟( 0.06~小时)就可令1公斤原料反应完毕(产出 1兆瓦时 电能量)
- 大网格的“大型核反应堆” 供电功率为 300兆瓦(MW),只需要 12秒钟(0.003~小时)就可令1公斤原料反应完毕(产出 1兆瓦时 电能量)
蓄电设备
电池设备蓄电效率为80%,供电无损耗。
- 大网格的“电池” 满足蓄电功率上限 12兆瓦,从0蓄电到3兆瓦时(MWh)满充需要 18.75分钟(需实多段计时测量),而此时耗理应可充3.75兆瓦时,其中这0.75兆瓦时被浪费(即蓄电效率80%,浪费20%),但放电无损耗
- 因此从抑制浪费的角度而言,用不可持续核电reactors还是可持续发电(比如太阳能solar panels )的之间,太阳能更适合为电池充电.
- 电池会试图为自己充电?
- 电池为电池充电,放电方无损耗,蓄电方效率80%.
用电
常态耗电 待机、使用不同阶段耗电
需电
只需要待机电力 需要其它用电设备提供上游工作流程,但本体设备无需用电
无源
太空球(大,小) 起落架 磁铁头
优先供电策略
- 当负载集群有用电需求时,首先由可持续供电设备供电,其次由燃料供电设备供电,最后由后备供电设备补充。
优先用电策略
- 用电设备按功能归类并划分了用电的次序,设备可适应电能供量而调整输出大小的(比如推进,电池)会排在后序,而那些不足电量就会自动停机的设备(比如输送,防御)会排在相对优先;电池的蓄电行为排在最后。
- (防御)Defense - Interior Turret, Missile Turret, etc
- (输送)Conveyors - Conveyor, Conveyor Tube, blocks that make up the Conveyor Network, etc
- (生产)Factory - Refinery, Assembler, Oxygen Generator, Air Vent, Oxygen Tank, etc
- (门控)Doors - Door, Airtight Hangar Door, etc
- (应用)Utility - Communications, Lights, Rotor, Piston, Medical Room, Gravity Generator, the vast majority of electronics, etc
- (充能)Charging - Jump drive, specifically players inside cockpits or passenger chairs, recharging their suits.
- (翻滚)Gyro - All Gyroscopes
- (推进)Thrust - Standard Thrusters, but not hydrogen based thrusters
- (电池)Batteries - Any Batteries attempting to charge themselves.
能源(电能)
Maximum output for Electricity Sources:
设备 | 方块规格 | 尺寸(宽,高,长) | 最大输出功率 | 体积 |
---|---|---|---|---|
电池 | Large | 1,1,1 | 12 MW 12,000 kW
12,000,000 W |
15.625 m³ 15,625 L
1 Large-Blocks 125 Small-Blocks 1,562.5 hL 15,625,000 mL |
48px Warfare电池 | Large | 1,1,1 | 12 MW 12,000 kW
12,000,000 W |
15.625 m³ 15,625 L
1 Large-Blocks 125 Small-Blocks 1,562.5 hL 15,625,000 mL |
大型反应堆 | Large | 3,3,3 | 300 MW 300,000 kW
300,000,000 W |
421.875 m³ 421,875 L
27 Large-Blocks 3,375 Small-Blocks 42,187.5 hL 421,875,000 mL |
48px 大型Warfare反应堆 | Large | 3,3,3 | 300 MW 300,000 kW
300,000,000 W |
421.875 m³ 421,875 L
27 Large-Blocks 3,375 Small-Blocks 42,187.5 hL 421,875,000 mL |
小型反应堆 | Large | 1,1,1 | 15 MW 15,000 kW
15,000,000 W |
15.625 m³ 15,625 L
1 Large-Blocks 125 Small-Blocks 1,562.5 hL 15,625,000 mL |
48px 小型Warfare反应堆 | Large | 1,1,1 | 15 MW 15,000 kW
15,000,000 W |
15.625 m³ 15,625 L
1 Large-Blocks 125 Small-Blocks 1,562.5 hL 15,625,000 mL |
太阳能板 | Large | 4,2,1 | 0.16 MW 160 kW
160,000 W |
125 m³ 125,000 L
8 Large-Blocks 1,000 Small-Blocks 12,500 hL 125,000,000 mL |
风轮机 | Large | 3,3,3 | 0.4 MW 400 kW
400,000 W |
421.875 m³ 421,875 L
27 Large-Blocks 3,375 Small-Blocks 42,187.5 hL 421,875,000 mL |
氢气引擎 | Large | 1,1,2 | 5 MW 5,000 kW
5,000,000 W |
31.25 m³ 31,250 L
2 Large-Blocks 250 Small-Blocks 3,125 hL 31,250,000 mL |
电池 | Small | 3,2,3 | 4 MW 4,000 kW
4,000,000 W |
2.25 m³ 2,250 L
0.144 Large-Blocks 18 Small-Blocks 225 hL 2,250,000 mL |
48px Warfare电池 | Small | 3,2,3 | 4 MW 4,000 kW
4,000,000 W |
2.25 m³ 2,250 L
0.144 Large-Blocks 18 Small-Blocks 225 hL 2,250,000 mL |
大型反应堆 | Small | 3,3,3 | 14.75 MW 14,750 kW
14,750,000 W |
3.375 m³ 3,375 L
0.216 Large-Blocks 27 Small-Blocks 337.5 hL 3,375,000 mL |
48px 大型Warfare反应堆 | Small | 3,3,3 | 14.75 MW 14,750 kW
14,750,000 W |
3.375 m³ 3,375 L
0.216 Large-Blocks 27 Small-Blocks 337.5 hL 3,375,000 mL |
小电池 | Small | 1,1,1 | 0.2 MW 200 kW
200,000 W |
0.125 m³ 125 L
0.008 Large-Blocks 1 Small-Blocks 12.5 hL 125,000 mL |
小型反应堆 | Small | 1,1,1 | 0.5 MW 500 kW
500,000 W |
0.125 m³ 125 L
0.008 Large-Blocks 1 Small-Blocks 12.5 hL 125,000 mL |
48px 小型Warfare反应堆 | Small | 1,1,1 | 0.5 MW 500 kW
500,000 W |
0.125 m³ 125 L
0.008 Large-Blocks 1 Small-Blocks 12.5 hL 125,000 mL |
太阳能板 | Small | 10,5,1 | 0.04 MW 40 kW
40,000 W |
6.25 m³ 6,250 L
0.4 Large-Blocks 50 Small-Blocks 625 hL 6,250,000 mL |
氢气引擎 | Small | 3,2,2 | 0.5 MW 500 kW
500,000 W |
1.5 m³ 1,500 L
0.096 Large-Blocks 12 Small-Blocks 150 hL 1,500,000 mL |
Energy Source | Block size | Dimensions [size in m3] |
Maximum Output [kW] |
Mass [kg] |
Mass Efficiency [kW/kg] |
Energy Density [kW/m3] | |
---|---|---|---|---|---|---|---|
Large Reactor | Large | 3x3x3 [421.875 m3] | 300 000 | 73795 | 4.065 | 711.11 | |
Small | 3x3x3 [3.375 m3] | 14 750 | 3901 | 3.781 | 4370.37 | ||
Small Reactor | Large | 1x1x1 [15.625 m3] | 15 000 | 4793 | 3.130 | 960 | |
Small | 1x1x1 [0.125m3] | 500 | 278 | 1.799 | 4000 | ||
Solar Panel | Large | 2x4x1 [125 m3] | 120* | 441.4 | 0.272 | 0.96 | |
Small | 5x10x1 [6.25m3] | 30* | 159.2 | style="te |
- ↑ Electricity