No, inert gases are non-reactive, and in order to be a fuel source, a gas would need to be highly reactive.
Respiration would take fuels of hydrocarbons, sugars, carbohydrates, natural fats, etc. Oxygen, of course, is also required for respiration. Carbon Dioxide is a product of respiration, and not a fuel. Nitrogen Gas (N2) is relatively inert in the body, and not a fuel of respiration. Argon and the inert gases are not fuels.
The term "inner gases" does not have a specific scientific definition. It could potentially refer to gases inside a closed system or container, such as within a gas cylinder or a vehicle's fuel tank. More context would be needed to provide a more specific answer.
Nitrogen is used as inert gas, for the synthesis of ammonia, liquid for low temperature.Nitrogen is not used as fuel for cars, for filling of fluorescent lamps, to sustain burning.
Gas bottles are used in laboratories to store compressed gases such as oxygen, nitrogen, hydrogen, or helium. These gases are used for various purposes, such as providing fuel for Bunsen burners, creating inert atmospheres, or supplying gas to analytical instruments. The gas bottles ensure a safe and reliable source of gas for laboratory applications.
The cooking fuel that is the "dirtiest" has to be coal. This fuel source produces the most greenhouse gases than any of the "-tane" fuels.
Gas is commonly used in labs for a variety of purposes, including as a fuel source for heating and combustion, as a reactant in chemical reactions, and as a carrier gas in chromatography. Gases such as nitrogen, argon, and helium are often utilized for their inert properties, helping to create controlled environments for sensitive experiments. Additionally, certain gases are essential for analytical techniques and equipment, enabling precise measurements and observations in research.
Gases can be mixed with various substances to extend supplies, including inert gases like nitrogen or carbon dioxide. These gases are often used to displace oxygen in storage, preventing combustion and degradation. Additionally, blending gases with lighter hydrocarbons can enhance efficiency in fuel applications. This practice helps maximize the use of existing resources and improve overall energy management.
The foam is not gas, but chemicals that prevent the fuel source in a fire from receiving the oxygen needed to sustain a fire.
Helium itself is not a practical energy source as it is an inert gas and does not readily undergo chemical reactions to release energy. However, helium can be used in certain types of nuclear fusion reactions as a fuel source. Currently, research is being done to harness the energy potential of helium in fusion reactors as a clean and efficient energy source for the future.
Inflammable air, also known as hydrogen, and azote, also known as nitrogen, are both gases that are naturally occurring elements on the periodic table. They have different properties and uses, with hydrogen being flammable and used as a fuel source, while nitrogen is inert and commonly used in various industrial applications and as a component of the atmosphere.
Dried peat can be used in gardening. But it is also used as a fuel and burnt as a source of heat.
Yes, animal poop can be burned as a fuel, a practice known as dung burning. However, burning animal poop can release pollutants and greenhouse gases into the environment, so it is not commonly used as a fuel source in modern times.