能 量 密度
![本页使用了标题或全文手工转换](https://upload.wikimedia.org/wikipedia/commons/thumb/c/cd/Zh_conversion_icon_m.svg/35px-Zh_conversion_icon_m.svg.png)
|
---|
单位换算 |
能 量 密度 表 [编辑]
此表给出
质量 |
实际 | ||||
---|---|---|---|---|---|
1 | 89,875,517,873.681,764 | ||||
2 | 8,987,551,787.368,176,4~35,950,207,149.472,705,6 | ||||
3 | 氕 |
645,000,000 | |||
4 | 氘-氚聚变 | 337,000,000 | |||
5 | 88,250,000 | 1,500,000,000 | |||
6 | 钍 |
79,420,000 | 929,214,000 | ||
7 | 25,104,000 | ||||
8 | 24,000,000 | 50%[6] | |||
9 | B-41 |
21,756,800 | |||
10 | 16,736,000 | ||||
11 | 8,987,851.85 | ||||
12 | W88 |
5,520,055.55 | |||
13 | 浓缩铀(3.5% U235) |
3,456,000 | 30%[7] | ||
14 | 钚-238 |
2,239,000 | |||
15 | 1,326,000 | 17,649,060 | |||
16 | 443,000 | 30%[7] | |||
17 | 41,340 | 689,964 | |||
18 | 216[9] | ||||
19 | 141.6 | ||||
20 | 78.2 | ||||
21 | 70 | ||||
22 | 铍 |
67 | |||
23 | 硼氢 |
65.2 | 125.1 | ||
24 | 硼 |
58 | |||
25 | 55 | ||||
26 | 54 | ||||
27 | 48.6 | ||||
28 | 汽油 |
47.3 | |||
29 | 46 | ||||
30 | 45 | ||||
31 | 44.8 | ||||
32 | 锂空气电 |
43.2 | |||
33 | 锂 |
43 | |||
34 | 42.7 | ||||
35 | 苯 |
40.2 | |||
36 | 37 | ||||
37 | 36 | ||||
38 | 35 | ||||
39 | 一千克物质以7.9 km/s |
33 | |||
40 | 碳 |
32.8 | |||
41 | 32 | ||||
42 | 硅 |
32 | |||
43 | 31.4 | ||||
44 | 异丙 |
30.9 | |||
45 | 30.1 | ||||
46 | 铝 |
30 | |||
47 | 29.7 | ||||
48 | 26.9 | ||||
49 | 镁 |
25.2 | |||
50 | 磷 |
25.2 | |||
51 | 21 | ||||
52 | 19.7 | ||||
53 | 19.6 | ||||
54 | Cl2O7 + CH4 | 17.4 | |||
55 | 钙 |
15.8 | |||
56 | 纸 |
15 | |||
57 | 14.7 | ||||
58 | Cl2O7 |
12.2 | |||
59 | 硝基 |
11.3 | 12.9 | ||
60 | 硫 |
9.3 | |||
61 | 钠 |
9 | |||
62 | 八硝基立方烷炸药 | 8.5 | 17 | ||
63 | 8.3 | ||||
64 | 8.2 | ||||
65 | 8 | ||||
66 | Dinitroacetylene炸药 | 7.9 | |||
67 | 7.2838 | ||||
68 | 钠( |
7.0349 | |||
69 | 铁 |
7 | |||
70 | 四硝基立方烷炸药 | 6.95 | |||
71 | 铵梯铝炸药( |
6.9 | 12.7 | ||
72 | 四硝基甲烷 + 联氨推进剂 | 6.6 | |||
73 | 6.5 | ||||
74 | 6.3 | ||||
75 | 铵油炸药-ANNM( |
6.26 | |||
76 | 三硝基甲苯[14] | 4.61 | 6.92 | ||
77 | 铜铝热 |
4.13 | 20.9 | ||
78 | 铝热 |
4 | 18.4 | ||
79 | 过氧 |
2.7 | 3.8 | ||
80 | 纳米线电 |
2.54 | |||
81 | 锂电 |
2.5 | |||
82 | 铜 |
2 | |||
83 | 1.968 | 0.708 | |||
84 | 1.9 | 30 | |||
85 | 氟离 |
1.7 | 2.8 | ||
86 | 氢闭循环 |
1.62 | |||
87 | 肼 |
1.6 | 1.6 | ||
88 | 1.4 | 2.5 | |||
89 | 鋰-硫電 |
1.26 | 1.26 | ||
90 | 电容 EEStor |
1.2 | 5.7 | 99% | 99% |
91 | battery, Lithium-manganese[19][20] | 1.01 | 2.09 | ||
92 | Thermal Energy Capacity of Molten Salt | 1 | 98%[21] | ||
93 | 1 | ||||
94 | 锂离 |
0.72 | 0.9 | 95%[24] | |
95 | 碱性电池(长寿 |
0.59 | 1.43 | ||
96 | 钠-氯化镍(Na-NiCl2)电池( |
0.56 | |||
97 | 飞轮 |
0.5[26][27] | |||
98 | 氧化银电 |
0.47 | 1.8 | ||
99 | 5.56×45 NATO |
0.4 | 3.2 | ||
100 | 镍氢电池, |
0.4 | 1.55 | ||
101 | 溴化锌(ZnBr)电池[30] | 0.27 | |||
102 | 车用 |
0.25 | 0.493 | ||
103 | 溴钒电池 | 0.18 | 0.252 | 80%-90%[32] | |
104 | 镍镉电池 [22] | 0.14 | 1.08 | 80%[24] | |
105 | 铅酸蓄电 |
0.14 | 0.36 | ||
106 | 碳锌电池 [22] | 0.13 | 0.331 | ||
107 | 0.09 | 0.1188 | 70-75% | ||
108 | 0.04[33] | 0.04[33] | >95% | ||
109 | 0.0199[34] | 0.050 | |||
110 | 0.01 | 80%-98.5%[35] | 39%-70%[35] | ||
111 | 电容 |
0.002 [36] | |||
112 | 扭簧 | 0.0003 [37] | 0.0006 | ||
113 | 鈉-硫電 |
1.23 | 85%[38] | ||
质量 |
实际 |
参 见[编辑]
参考 资料[编辑]
- ^
每 公 斤 反物 质的 能 量 密度 是 它自身 的 两倍。 - ^
存 档副本 (PDF). [2015-05-11]. (原始 内容 存 档 (PDF)于2020-12-02). - ^ 3.0 3.1 Energy density calculations of nuclear fuel (页面
存 档备份,存 于互联网档案 馆). whatisnuclear.com. Retrieved 2014-04-17. - ^ 4.0 4.1 4.2 4.3 4.4 见
核 武器 当 量 、爆 炸当量 - ^ petroleum 互联网档
案 馆的 存 檔,存 档日期 2008-12-11. - ^ 50% 互联网档
案 馆的 存 檔,存 档日期 2008-12-17. - ^ 7.0 7.1 见热机
- ^ 见
金属 氢 - ^ http://iopscience.iop.org/1742-6596/215/1/012194/pdf/1742-6596_215_1_012194.pdf
- ^ 10.00 10.01 10.02 10.03 10.04 10.05 10.06 10.07 10.08 10.09 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.17 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26 10.27 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 见
燃料 与 燃 烧热 - ^ Greenwood, Norman N.; Earnshaw, Alan (1997), Chemistry of the Elements (2nd ed) (page 164)
- ^ Girishkumar, G.; McCloskey, B.; Luntz, A. C.; Swanson, S.; Wilcke, W. Lithium−Air Battery: Promise and Challenges. The Journal of Physical Chemistry Letters. 2010, 1 (14): 2193–2203. doi:10.1021/jz1005384.
- ^ 请见
各 高度 的 切 向 速度 (Tangential velocities at altitude) - ^ Kinney, G.F.; K.J. Graham. Explosive shocks in air. Springer-Verlag. 1985. ISBN 3-540-15147-8.
- ^ Battery Chemistry Experience. [2009-07-25]. (
原始 内容 存 档于2011-02-24). - ^ SCIENTISTS. [2015-03-08]. (
原始 内容 存 档于2015-04-08). - ^ Lithium Sulfur Rechargeable Battery Data Sheet (PDF). Sion Power, Inc. 2005-09-28. (
原始 内容 (PDF)存 档于2008-08-28). - ^ Abstract. [2022-03-26]. (
原始 内容 存 档于2021-01-25). - ^ ProCell Lithium battery chemistry. Duracell. [2009-04-21]. (
原始 内容 存 档于2009-05-23). - ^ Properties of non-rechargeable lithium batteries. corrosion-doctors.org. [2009-04-21]. (
原始 内容 存 档于2014-04-29). - ^
存 档副本 . [2010-05-07]. (原始 内容 存 档于2010-05-19). - ^ 22.0 22.1 22.2 22.3 22.4 Battery energy storage in various battery types. AllAboutBatteries.com. [2009-04-21]. (
原始 内容 存 档于2009-04-28). - ^ A typically available lithium ion cell with an Energy Density of 201 wh/kg AA Portable Power Corp 互联网档
案 馆的 存 檔,存 档日期 2008-12-01. - ^ 24.0 24.1 Justin Lemire-Elmore. The Energy Cost of Electric and Human-Powered Bicycles (PDF): 7. 2004-04-13 [2009-02-26]. (
原始 内容 (PDF)存 档于2012-09-13).Table 3: Input and Output Energy from Batteries
- ^ ProCell Alkaline battery chemistry. Duracell. [2009-04-21]. (
原始 内容 存 档于2009-04-18). - ^ Storage Technology Report, ST6 Flywheel (PDF). [2009-07-25]. (
原始 内容 (PDF)存 档于2013-01-14). - ^ Next-gen Of Flywheel Energy Storage. Product Design & Development. [2009-05-21]. (
原始 内容 存 档于2010-07-10). - ^ ProCell Silver Oxide battery chemistry. Duracell. [2009-04-21]. (
原始 内容 存 档于2009-12-20). - ^ Advanced Materials for Next Generation NiMH Batteries, Ovonic, 2008 (PDF). [2009-07-25]. (
原始 内容 (PDF)存 档于2010-01-04). - ^ ZBB Energy Corp. (
原始 内容 存 档于2007-10-15).75 to 85 watt-hours per kilogram
- ^ High Energy Metal Hydride Battery 互联网档
案 馆的 存 檔,存 档日期 2009-09-30. - ^ COMPANY AND TECHNOLOGY INFORMATION SHEET 互联网档
案 馆的 存 檔,存 档日期 2010-11-22. - ^ 33.0 33.1 Tixador, P. Superconducting Magnetic Energy Storage: Status and Perspective. [1] (页面
存 档备份,存 于互联网档案 馆) - ^ Ultracapacitor Modules. [2009-07-25]. (
原始 内容 存 档于2008-10-08). - ^ 35.0 35.1 F2004F193HYBRID DRIVE WITH SUPER-CAPACITOR ENERGY STORAGE 互联网档
案 馆的 存 檔,存 档日期 2012-07-22. - ^ Introduction to UNIX Course Outline. [2009-07-25]. (
原始 内容 存 档于2006-10-06). - ^ Garage Door Spring. [2009-07-25]. (
原始 内容 存 档于2008-10-13). - ^ SciTech Connect. [2009-07-25]. (
原始 内容 存 档于2012-02-14).
外部 链接[编辑]
密度 数 据 [编辑]
- ^ "Aircraft Fuels." Energy, Technology and the Environment Ed. Attilio Bisio. Vol. 1. New York: John Wiley and Sons, Inc., 1995. 257–259
- "Fuels of the Future for Cars and Trucks (页面
存 档备份,存 于互联网档案 馆)" - Dr. James J. Eberhardt - Energy Efficiency and Renewable Energy, U.S. Department of Energy - 2002 Diesel Engine Emissions Reduction (DEER) Workshop San Diego, California - August 25–29, 2002
能 量 储存[编辑]
文献 [编辑]
- The Inflationary Universe: The Quest for a New Theory of Cosmic Origins by Alan H. Guth (1998) ISBN 0-201-32840-2
- Cosmological Inflation and Large-Scale Structure by Andrew R. Liddle, David H. Lyth (2000) ISBN 0-521-57598-2
- Richard Becker, "Electromagnetic Fields and Interactions", Dover Publications Inc., 1964