Creating fossil fuels that release oxygen after combustion instead of carbon emissions is not possible. Fossil fuels, such as coal, oil, and natural gas, are primarily composed of hydrocarbon compounds. When these fuels are burned, the carbon in the hydrocarbons combines with oxygen from the air to produce carbon dioxide (CO2) as one of the primary combustion products.
The process of combustion involves the rapid chemical reaction between the fuel and oxygen, releasing energy in the form of heat and light. During this process, the carbon in the fossil fuel bonds with oxygen to form CO2, which is then released into the atmosphere.
The release of carbon dioxide during fossil fuel combustion is an inherent characteristic of the chemical composition of hydrocarbons. The only way to avoid carbon emissions from fossil fuels is to use alternative energy sources that do not produce CO2 during combustion. This includes renewable energy sources like solar power, wind power, hydropower, and geothermal energy.
Furthermore, it's worth noting that the release of oxygen during combustion depends on the presence of oxidizing agents. Oxygen is one such oxidizer, but it is not released as a byproduct of combustion. Oxygen is naturally present in the air, and during the combustion process, it combines with the carbon in the fuel to form CO2.
To address the environmental impact of carbon emissions, efforts are focused on transitioning away from fossil fuels and toward cleaner and more sustainable energy sources. This involves promoting renewable energy technologies, improving energy efficiency, and exploring carbon capture and storage methods to mitigate the CO2 emissions associated with fossil fuel use.