100y ceramic structured packing for hydrogen sulfide removal-China Helvo Chemical Co, Ltd

100y ceramic structured packing for hydrogen sulfide removal

2025-10-13

100y ceramic structured packing is a specialized ceramic packing designed for efficient hydrogen sulfide (H2S) removal in chemical gas purification systems. Its structured design and high chemical stability make it ideal for eliminating H2S from industrial gases, ensuring compliance with environmental standards and product quality.

Key Features of 100y Ceramic Structured Packing

100y ceramic structured packing is engineered with distinct characteristics that optimize H2S removal. Constructed from high-purity alumina, it demonstrates robust resistance to corrosion from H2S and other acidic gases, ensuring extended service life even in harsh industrial conditions. The "100y" specification refers to its structured density, with 100 units per linear inch creating a balanced flow path that maximizes mass transfer efficiency. This design yields a large specific surface area (typically 200-300 m²/m³), enhancing contact between gas and liquid phases to facilitate H2S absorption. Additionally, its uniform channel distribution minimizes channeling and dead zones, ensuring consistent purification performance across the packing bed.

In practical applications, 100y ceramic structured packing is widely used in natural gas treatment, refineries, and synthetic ammonia production. In natural gas processing, it effectively reduces H2S levels to pipeline standards (≤ 4 ppm), preventing equipment corrosion and ensuring safe transportation. In refineries, it integrates into amine absorption units, improving the efficiency of amine solutions in scrubbing H2S from sour gases, thus lowering energy consumption and chemical usage. For synthetic ammonia plants, it supports the removal of H2S from synthesis gas, protecting downstream catalysts and ensuring product quality.

FAQ:

Q1: What makes 100y ceramic structured packing effective for H2S removal?

A1: Its structured design, high surface area, and chemical inertness to H2S enable efficient mass transfer, ensuring low H2S outlet concentrations.

Q2: How does the material of 100y ceramic packing enhance its durability?

A2: Alumina-based composition resists corrosion from H2S and high temperatures, maintaining structural integrity and performance over time.

Q3: Can 100y ceramic packing be used in high-temperature H2S removal processes?

A3: Yes, its thermal stability (up to 1200°C) allows operation in harsh high-temperature industrial environments.

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