What is the Difference Between Methane and Propane?
🆚 Go to Comparative Table 🆚Methane and propane are both hydrocarbon gases, but they have different chemical compositions and physical properties. The main differences between methane and propane are:
- Chemical Composition: Methane (CH₄) consists of one carbon atom bonded to four hydrogen atoms, while propane (C₃H₈) has three carbon atoms bonded in a chain with eight hydrogen atoms.
- Boiling Point: Methane has a boiling point of -260°F (-162°C) at atmospheric pressure, while propane has a boiling point of -44°F (-42°C) at atmospheric pressure. This means that methane requires a much lower temperature to be turned into a liquid than propane.
- Energy Content: Propane produces about twice as much heat energy as an equivalent amount of natural gas, which is primarily methane.
- Environmental Impact: While both gases are cleaner burning than other fossil fuels, propane is considered the cleanest-burning fossil fuel, producing only about half the carbon dioxide and other emissions of gasoline. Methane, on the other hand, has a potent greenhouse effect, but its impact is partly offset by the fact that natural gas, which is primarily methane, burns cleanly and produces relatively few emissions.
- Usage: Propane is commonly used in household tanks for heating, cooking, and other applications, while methane is a major component of natural gas, which is used as a fuel source in various pieces of equipment and to generate electricity.
On this pageWhat is the Difference Between Methane and Propane? Comparative Table: Methane vs Propane
Comparative Table: Methane vs Propane
Methane and propane are both straight-chain alkanes, but they have different properties and uses. Here is a table summarizing the differences between methane and propane:
Property | Methane | Propane |
---|---|---|
Chemical Formula | CH4 | C3H8 |
Molecular Structure | Single carbon atom with four hydrogen atoms | Three carbon atoms with eight hydrogen atoms |
Boiling Point | -161°C (-258°F) | -42°C (-44°F) |
Melting Point | -182°C (-295°F) | -188°C (-306°F) |
Density | 0.000189 g/cm³ at 1 atm and 0°C | 0.00198 g/cm³ at 1 atm and 0°C |
Fuel Source | 50-90% of natural gas deposits, produced via decomposition of submerged vegetation | Comprised by a differing number of hydrogen and/or carbon atoms, lower carbon contents than oil, gasoline, diesel, kerosene, and ethanol |
Use Cases | Fuel source in various equipment, electricity generation, sanitization, and fertilizer production | Safe, non-toxic, environmentally friendly fuel for homes, farms, businesses, and public and private fleets |
Methane is a more potent greenhouse gas than propane and is the primary component of natural gas deposits. Propane, on the other hand, has lower carbon contents than many other fossil fuels and is considered a cleaner source of energy.
Read more:
- Acetylene vs Propane
- Methane vs Ethane
- Propane vs Natural Gas
- Methane vs Methanol
- Propane vs Butane
- Methane vs Carbon Dioxide
- MAPP Gas vs Propane
- Cyclopropane Propane vs Propene
- Methane vs Fluorinated Gases
- Ethanol vs Methanol
- Biogas vs Biomethane
- Cyclobutane vs Cyclopropane
- Ethanol vs Methoxymethane
- LNG vs LPG
- Ethanol vs Propanol
- CNG vs LPG
- Butane vs Isobutane
- Methanogens vs Methanotrophs
- Methylacetylene vs Acetylene