no
Yes, incomplete combustion of natural gas can produce aldehyde. It is also stated that incomplete combustion of natural gas also produces carbon monoxide.
A complete combustion reaction will produce CO2 and H2O, while an incomplete combustion reaction produces CO and H2O.
methane could burn in an area with a low concentration of oxygen, this incomplete combustion would have the following "balanced" (or stoichiometric) equation; CH4 + 1 1/2 O2 -> CO + 2H2O the complete combustion (where excess oxygen is present) would be; CH4 + 2O2 -> CO2 + 2H2O The key differnce between the two is that complete combustion produces water and carbon dioxide, incomplete combustion produces carbon monoxide and water.
Yes.
incomplete combustion
Carbon dioxide
Burning 2 700 g of methane produce 70406 g of carbon dioxide.
You are probably thinking of waste dumps where methane is generated by the decay of organic matter, and where this methane is collected and used to produce electricity. Combustion engines can run directly from the methane coupled to a generator.
Reaction of combustion of methane will give off lot of energy. In any combustion reaction there will always be formation of water vapor and heat. Methane + oxygen = combustion reaction.
In complete combustion, all the reactants will be converted into carbon dioxide and water. In incomplete combustion, some of the reactants will be converted to carbon dioxide, some will become carbon monoxide, and some may not react at all. Quite often incomplete combustion will result in a "sooty" flame.
it depends. complete combustion of butane will produce carbon dioxide and water, but incomplete combustion (not enough oxygen) will produce carbon monoxide and carbon (soot). most commonly there will be a mixture of these four chemicals produced
Typically nuclear reactions produce large amounts of energy.