Soda Ash Light (99%) - India

Brief Overview
Soda ash is obtainable in three distinct grades, specifically dense soda ash, light soda ash, and washing soda. Also known as anhydrous sodium carbonate, soda ash light has the chemical formula Na2CO3. It appears as a white, odorless granular powder that readily dissolves in water, forming a highly alkaline aqueous solution. Notably hygroscopic, it tends to absorb moisture from the air, leading to clumping. Although it primarily exists in its monohydrate form, it can also manifest in decahydrate and heptahydrate forms.
Soda ash light spontaneously originates from sodium deposits, which undergo prolonged geological processes, including igneous rock erosion, sodium sediment transport, and chemical reactions. During weathering, sodium deposits are initially released from igneous rocks, washed away, flowed downstream, and collected in basins. Exposure to carbon dioxide triggers the production of soda ash.
Manufacturing Process
Solvay Method
The Solvay method, pioneered by Belgian chemist Ernest Solvay in 1861, represents a more streamlined approach for transforming sodium chloride into soda ash light. This innovative process involves the reaction of ammonia with sodium chloride, facilitated by the presence of calcium carbonate. The outcome of this reaction is the production of sodium bicarbonate, which is subsequently subjected to heating to yield soda ash light.

Brief Overview
Soda ash is obtainable in three distinct grades, specifically dense soda ash, light soda ash, and washing soda. Also known as anhydrous sodium carbonate, soda ash light has the chemical formula Na2CO3. It appears as a white, odorless granular powder that readily dissolves in water, forming a highly alkaline aqueous solution. Notably hygroscopic, it tends to absorb moisture from the air, leading to clumping. Although it primarily exists in its monohydrate form, it can also manifest in decahydrate and heptahydrate forms.
Soda ash light spontaneously originates from sodium deposits, which undergo prolonged geological processes, including igneous rock erosion, sodium sediment transport, and chemical reactions. During weathering, sodium deposits are initially released from igneous rocks, washed away, flowed downstream, and collected in basins. Exposure to carbon dioxide triggers the production of soda ash.
Manufacturing Process
Solvay Method
The Solvay method, pioneered by Belgian chemist Ernest Solvay in 1861, represents a more streamlined approach for transforming sodium chloride into soda ash light. This innovative process involves the reaction of ammonia with sodium chloride, facilitated by the presence of calcium carbonate. The outcome of this reaction is the production of sodium bicarbonate, which is subsequently subjected to heating to yield soda ash light.