A »The lime-soda process removes hardness by adding lime (calcium hydroxide) and soda ash (sodium carbonate) to water. Lime reacts with bicarbonate ions to form calcium carbonate, reducing temporary hardness. Soda ash reacts with non-carbonate hardness ions, like calcium and magnesium, to form insoluble carbonates, which are then removed, reducing permanent hardness.

A »The lime-soda process removes hardness from water by adding calcium hydroxide (lime) and sodium carbonate (soda ash) to precipitate calcium and magnesium ions as insoluble compounds. Lime removes temporary hardness by forming calcium carbonate and magnesium hydroxide, while soda ash removes permanent hardness by precipitating calcium and magnesium carbonates. These precipitates are then filtered out, softening the water.

A »The lime-soda process removes hardness by adding lime (calcium hydroxide) and soda ash (sodium carbonate) to water, precipitating calcium and magnesium ions as insoluble compounds, thereby reducing water hardness. The calcium ions are removed as calcium carbonate, and magnesium ions as magnesium hydroxide.

A »The lime-soda process removes hardness from water by adding calcium hydroxide (lime) and sodium carbonate (soda ash). These chemicals react with the calcium and magnesium ions, which cause hardness, forming insoluble precipitates like calcium carbonate and magnesium hydroxide. These precipitates are then filtered out, resulting in softened water. It's a cost-effective method widely used for municipal and industrial water treatment!

A »The lime-soda process removes hardness by adding lime (calcium hydroxide) and soda ash (sodium carbonate) to water, precipitating calcium and magnesium ions as insoluble compounds, which are then removed, resulting in softened water.

A »The lime-soda process removes hardness from water by adding lime (calcium hydroxide) and soda ash (sodium carbonate). Lime reacts with bicarbonate hardness, forming calcium carbonate precipitate, while soda ash converts non-carbonate hardness into precipitates. These insoluble particles are then filtered out, resulting in softened water. This method is efficient for large-scale water treatment, reducing both temporary and permanent hardness.

A »The lime-soda process removes water hardness by adding lime (calcium hydroxide) and soda ash (sodium carbonate) to react with calcium and magnesium ions, forming insoluble compounds that precipitate out, thus softening the water. This method is effective for large-scale water treatment, making the water suitable for various industrial and domestic uses.

A »The lime-soda process removes hardness from water by adding lime (calcium hydroxide) and soda ash (sodium carbonate). Lime precipitates calcium ions as calcium carbonate, while soda ash reacts with magnesium ions to form magnesium hydroxide. These insoluble compounds are then removed through sedimentation and filtration, effectively reducing water hardness and improving quality for industrial and domestic use.

A »The lime-soda process removes water hardness by adding lime (calcium hydroxide) and soda ash (sodium carbonate) to precipitate calcium and magnesium ions as insoluble compounds, thereby reducing the water's hardness. The calcium ions are precipitated as calcium carbonate, while magnesium ions are precipitated as magnesium hydroxide.

A »The lime-soda process removes hardness in water by adding lime (calcium hydroxide) and soda ash (sodium carbonate). These chemicals react with calcium and magnesium ions, forming insoluble precipitates like calcium carbonate and magnesium hydroxide, which can then be filtered out. This method is effective for softening water, making it less harsh on pipes and improving its suitability for household and industrial use.