Sulfur dioxide causes air pollution and acid rain by reacting with rain water to form sulfurous acid
Sulfur dioxide is a major cause of acid rain.
acid rain; SO2, i.e. sulfur dioxide, reacts with water to produce H2SO3, or sulfurous acid, which then reacts with oxygen to form sulphuric acid (H2SO4), and dissolves in rain to fall as acid rain
Acid rain.
Carbon dioxide combines with water to form Carbonic Acid, Similarly Sulfur dioxide form Sulfuric acid and Nitric oxide form Nitric acid. These all falls on earth in the form of acid rain.
The burning of coal and oil (from electric utilities and industrial fuel combustion) produces sulfur dioxide. Like the nitrogen oxides, sulfur dioxide can change forms in the atmosphere, contributing to acid rain (as sulfuric acid) and to ultra fine particulate matter levels as sulfates and sulfites. Additionally, sulfur combines readily with ammonia to form ammonium sulfate, one of the most significant components of PM2.5 pollution in Houston.Why is sulfur dioxide bad?Exposure to sulfur dioxide and its various forms have been linked to:difficulty breathing;lowered resistance to infection; andincreased cardiovascular incidents including heart attacks.
Sulfur dioxide contributes to acid rain.
Sulfur dioxide is a major cause of acid rain.
What_is_the_largest_source_of_sulfur_dioxide_air_pollution
Sulfur dioxide
It does not release pollution such as carbon dioxide and sulfur dioxide.
Most active volcanoes release sulfur dioxide and carbon dioxide into the atmosphere, which is air pollution
Volcanoes produce more sulfur dioxide than any other cause. Some sulfur dioxide is also release from the burning of sulfur-rich fossil fuels.
It makes acid rain.
acid rain; SO2, i.e. sulfur dioxide, reacts with water to produce H2SO3, or sulfurous acid, which then reacts with oxygen to form sulphuric acid (H2SO4), and dissolves in rain to fall as acid rain
They could be formed by the oxidation / combustion of sulfur and nitrogen respectively
Basically, sulfur dioxide is a acidic gas. As acid reacts with alkali, carbonates and metals, all 3 are actually ideal to remove sulfur dioxide. However, in the context of removing sulfur dioxide due to air pollution, reacting sulfur dioxide with alkali and carbonate would be more appropriate. For example, removing sulfur dioxide with calcium carbonate would result in calcium sulfate, water and carbon dioxide.
Acid rain.