SM-5 is a high-silica zeolite with a three-dimensional pore system and a unique MFI framework structure, making it particularly effective in the removal of volatile organic compounds (VOCs). This type of zeolite catalyst plays a crucial role in air pollution control by catalytically converting harmful VOC emissions into less harmful substances like carbon dioxide and water. Its application in environmental protection technologies highlights its importance in modern industrial processes.
ZSM-35 is a member of the zeolite family with a unique three-dimensional pore structure, making it highly effective for catalytic processes in the petrochemical industry. Its distinctive properties include high thermal stability, excellent shape-selectivity, and robust acidity, which make it ideal for various refining and chemical conversion applications.
MCM-41, a type of mesoporous silica material known for its uniform and tunable pore sizes, high surface area, and ordered hexagonal structure, has shown significant potential in various environmental remediation applications. This document explores the key features of MCM-41, its mechanisms of action, and specific applications in addressing environmental challenges.
MCM-41, a type of mesoporous silica material known for its uniform and tunable pore sizes, high surface area, and ordered hexagonal structure, has shown significant potential in various environmental remediation applications.
APO-34, a member of the silicoaluminophosphate (SAPO) family of molecular sieves, has gained significant attention in recent years due to its exceptional performance in the methanol-to-olefins (MTO) conversion process.
HY zeolites are widely recognized as essential components in catalytic cracking processes due to their superior performance and efficiency. These synthetic zeolites, characterized by a high silica-to-alumina ratio, offer unique properties that make them ideal for use in the conversion of heavy hydrocarbons into lighter, more valuable products.
NAY molecular sieves, typically composed of sodium (Na) and yttrium (Y) exchanged zeolites, are highly specialized adsorbents used extensively in petrochemical refining processes. These materials offer exceptional selectivity, thermal stability, and mechanical strength, making them ideal for various critical applications within the industry.
S-1 zeolite, characterized by its unique structure and silicon-rich composition, is a highly efficient catalyst specifically designed for selective oxidation processes. This type of zeolite catalyst is particularly noted for its ability to catalyze reactions with high selectivity and activity under mild conditions, making it an ideal choice for applications in fine chemicals and pharmaceuticals production.
Beta zeolite is a versatile and highly effective catalyst utilized in various industrial processes, particularly noted for its application in isomerization reactions. Characterized by its three-dimensional pore system and the presence of both micropores and mesopores, Beta zeolite offers unique advantages over other types of zeolites.
