Metallurgical Sulfuric Acid Production Plant EPC Solution H2so4 Plant

Customized EPC Solutions for Metallurgical Acid Plant

In nature, non-ferrous metal minerals typically exist as sulfides. During their smelting process, a substantial amount of sulfur dioxide (SO₂) containing flue gas is produced. Directly emitting this SO₂-rich flue gas into the atmosphere leads to air pollution, soil acidification, and a host of other environmental problems. The process of producing sulfuric acid from smelting flue gas involves recovering SO₂ to produce high-concentration sulfuric acid. This method has now matured into a well-established technology, significantly reducing the sulfur content in emitted flue gas, thereby mitigating environmental pollution, while also yielding valuable by-products with high economic value. Integrating a heat recovery system within the acid production unit can significantly enhance the system's operational efficiency. Furthermore, utilizing a waste heat boiler to recover residual heat from the flue gas for steam power generation not only reduces energy consumption but also lowers production costs for the enterprise.

Utilizes sulfur dioxide (SO₂) gas produced as a by-product from non-ferrous metal smelting operations (e.g., copper, zinc, lead).

• The SO₂ gas from smelting is cleaned to remove impurities.
• The purified SO₂ gas is then oxidized to sulfur trioxide (SO₃) using a catalyst, typically vanadium pentoxide.
• The SO₃ is absorbed in water or concentrated sulfuric acid to form sulfuric acid (H₂SO₄).

• Requires gas cleaning units, catalytic converters, and absorption towers.

• Purity:

Produces high-purity sulfuric acid, although the initial SO₂ gas often requires thorough cleaning to achieve this.

Emission Control:

Incorporates advanced emission control systems to handle impurities and minimize environmental impact.

By-Product Utilization:

Efficiently utilizes sulfur dioxide, a by-product of metal smelting, reducing waste and environmental pollution.

Environmental Benefits:

Helps reduce the release of sulfur dioxide into the atmosphere, mitigating acid rain and air pollution issues.

Economic Efficiency:

Converts waste gases into valuable sulfuric acid, providing an additional revenue stream and enhancing the overall economic efficiency of the smelting operation.

Resource Efficiency:

Reduces the need for raw sulfur, conserving natural resources and lowering operational costs for sulfuric acid production.

Integrated Operations:

Often co-located with metallurgical plants, reducing transportation costs and logistical complexities.

Compliance with Regulations:

Helps metallurgical plants comply with stringent environmental regulations by managing and reducing sulfur dioxide emissions effectively.

Metallurgical sulfuric acid plants play a crucial role in both environmental protection and economic optimization in the metallurgical industry, making them an essential component of sustainable industrial practices.