Give the furnace reaction to remove sulfur and arsenic gases

The furnace reaction to remove sulfur and arsenic gases is typically carried out using a process called gas scrubbing or flue gas desulfurization (FGD) and flue gas desulfurization (FGD) respectively.

1. Sulfur Removal (FGD):
The reaction to remove sulfur gases involves the addition of a chemical reagent, such as lime or limestone, to the flue gas containing sulfur compounds. The reaction can be represented as follows:
SO₂ + CaCO₃ + 0.5O₂ + H₂O → CaSO₄.2H₂O + CO₂

In this reaction, the sulfur dioxide (SO₂) combines with the calcium carbonate (CaCO₃) and oxygen (O₂) in the presence of water (H₂O) to form calcium sulfate dihydrate (CaSO₄.2H₂O), commonly known as gypsum, and carbon dioxide (CO₂). The gypsum can then be collected and removed from the flue gas.

2. Arsenic Removal (Flue Gas Desulfurization):
The reaction to remove arsenic gases involves the use of suitable sorbents or absorbents capable of capturing arsenic compounds, such as activated carbon or ferric oxide. The exact reactions may vary depending on the sorbent used.

One possible reaction using activated carbon as the sorbent is as follows:
AsH₃(g) + C(s) → As(s) + 3H₂(g)

In this reaction, the arsenic trihydride gas (AsH₃) reacts with the activated carbon (C) to form solid arsenic (As) and hydrogen gas (H₂). The solid arsenic can then be collected and removed from the flue gas.

Please note that the specific reactions and methods used for sulfur and arsenic removal might vary depending on the type of furnace and the specific requirements of the industrial process.

Give the furnace reaction to remove sulfur and arsenic gases in copper floatation process

In the copper floatation process, the furnace reaction to remove sulfur and arsenic gases is typically achieved through a process known as smelting. Smelting involves the use of high temperatures to extract copper from its ore concentrates, along with the removal of impurities such as sulfur and arsenic.

1. Sulfur Removal:
During copper smelting, sulfur is typically removed in the form of sulfur dioxide (SO₂) gas. The reaction to remove sulfur can be represented as follows:
2CuFeS₂ + 3O₂ → 2Cu + 2FeO + 6SO₂

In this reaction, copper iron sulfide (CuFeS₂) reacts with oxygen (O₂) to form copper metal (Cu), iron oxide (FeO), and sulfur dioxide gas (SO₂). The sulfur dioxide gas is then typically captured and converted into sulfuric acid for further industrial use.

2. Arsenic Removal:
To remove arsenic gases, additional steps are required in the copper floatation process, specifically during the smelting of copper concentrates. Arsenic is typically removed by oxidizing it to form less volatile compounds that can be captured and removed.

One common method for arsenic removal is to oxidize arsenic into arsenic trioxide (As₂O₃) and capture it using suitable sorbents or absorbents. The specific reactions involved in arsenic removal can depend on the specific smelting technology and conditions used in copper floatation.

Overall, the specific reactions involved in the removal of sulfur and arsenic gases in the copper floatation process can vary depending on the ore concentrates and smelting techniques used. It is crucial to implement proper emission control technologies and adhere to environmental regulations to minimize the release of sulfur and arsenic gases into the atmosphere.