User:Milton Beychok/Sandbox
Jump to navigation
Jump to search
| Fuel | Phase | Molecular Weight |
kJ/mol | MJ/kg | MJ/m3 | Btu/lb | Btu/ft3 |
|---|---|---|---|---|---|---|---|
| Hydrogen [1] | gas | 2.016 | 285.84 | 141.79 | 12.75 | 60,986 | 324 |
| Methane [1][2] | gas | 16.043 | 890.31 | 55.50 | 39.72 | 23,870 | 1,009 |
| Ethane [1][2] | gas | 30.069 | 1,559.88 | 51.88 | 69.59 | 22,313 | 1,768 |
| Propane [1][2] | gas | 44.096 | 2,220.05 | 50.35 | 99.05 | 21,654 | 2,516 |
| Butane [1][2] | gas | 58.122 | 2,878.52 | 49.53 | 128.43 | 21,301 | 3,263 |
| Ethanol [3] | liquid | 46.068 | 1,368.49 | 29.71 | 12,777 | ||
| Gasoline [3] | liquid | 110 | 5,461.33 | 49.65 | 21,354 | ||
| Kerosene [4] | liquid | 175 | 8,084.99 | 46.20 | 19,871 | ||
| Diesel oil [4] | liquid | 225 | 10,124.98 | 45.00 | 19,355 | ||
| Coal [5] | solid | 13.33 | 340.98 | 25.58 | 11,002 | ||
| Wood (dry) [6] | solid | 21.14 | 9,093 | ||||
| Peat (dry) [7] | solid | 22.09 | 9,500 |
| Fuel | Phase | Molecular Weight |
kJ/mol | MJ/kg | MJ/m3 | Btu/lb | Btu/ft3 |
|---|---|---|---|---|---|---|---|
| Hydrogen [1] | gas | 2.016 | 241.83 | 119.96 | 10.79 | 512,596 | 274 |
| Methane [1][2] | gas | 16.043 | 802.32 | 50.01 | 35.80 | 21,511 | 909 |
| Ethane [1][2] | gas | 30.069 | 1,427.84 | 47.49 | 63.70 | 20,424 | 1,618 |
| Propane [1][2] | gas | 44.096 | 2,044.00 | 46.35 | 91.19 | 19,937 | 2,317 |
| Butane [1][2] | gas | 58.122 | 2,658.45 | 45.74 | 118.61 | 19,673 | 3,013 |
| Ethanol [3] | liquid | 46.0684 | |||||
Gasoline Cite error: Closing </ref> missing for <ref> tag
|
liquid | 175 | 8,084.99 | 46.20 | 19,871 | ||
| Diesel oil [4] | liquid | 225 | 10,124.98 | 45.00 | 19,355 | ||
| Coal [8] | solid | 13.33 | 340.98 | 25.58 | 11,002 | ||
| Wood (dry) [9] | solid | 21.14 | 9,093 | ||||
| Peat (dry) [10] | solid | 22.09 | 9,500 |
References
- ↑ 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 Perry, R.H. and Green, D.W. (Editors) (1997). Perry's Chemical Engineers' Handbook, 7th Edition. McGraw Hill. ISBN ISBN 0-07-049841-5.
- ↑ 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 NIST Chemistry WebBook
- ↑ 3.0 3.1 3.2 Heating Values of Hydrogen and Fuels U.S. Department of Energy
- ↑ 4.0 4.1 4.2 Average of various sources
- ↑ There are a great many different coals. The values given here are of a single, specific bituminous coal on an "as received" basis which includes the ash and inherent moisture content of the coal.
- ↑ Table 1: Higher heating values for wood (oven dried) The values in this table are the average of oven-dried woods from 29 different species of trees, as listed in this publication of the U.S. Forest Service Laboratory.
- ↑ Thermal and Catalytic Upgrading in a Fuel Context: Peat, Biomass and Alkenes Thesis by Christina Hornell, Chemical Engineering Dept., Royal Institute of Technology, Stockholm, Sweden, 2001
- ↑ There are a great many different coals. The values given here are of a single, specific bituminous coal on an "as received" basis which includes the ash and inherent moisture content of the coal.
- ↑ Table 1: Higher heating values for wood (oven dried) The values in this table are the average of oven-dried woods from 29 different species of trees, as listed in this publication of the U.S. Forest Service Laboratory.
- ↑ Thermal and Catalytic Upgrading in a Fuel Context: Peat, Biomass and Alkenes Thesis by Christina Hornell, Chemical Engineering Dept., Royal Institute of Technology, Stockholm, Sweden, 2001