Usage: 90%-99% inert alumina ceramic rings are widely used in petroleum, chemical, natural gas, and environmental protection industries. They are used as support materials for catalyst coverage in the reactor. Their main function is to increase gas or liquid distribution points and support and protect active catalysts with low strength.
Usage: 90%-99% inert alumina ceramic rings are widely used in petroleum, chemical, natural gas, and environmental protection industries. They are used as support materials for catalyst coverage in the reactor. Their main function is to increase gas or liquid distribution points and support and protect active catalysts with low strength.
Usage: 90%-99% inert alumina ceramic rings are widely used in petroleum, chemical, natural gas, and environmental protection industries. They are used as support materials for catalyst coverage in the reactor. Their main function is to increase gas or liquid distribution points and support and protect active catalysts with low strength.
Usage: 90%-99% inert alumina ceramic rings are widely used in petroleum, chemical, natural gas, and environmental protection industries. They are used as support materials for catalyst coverage in the reactor. Their main function is to increase gas or liquid distribution points and support and protect active catalysts with low strength.
Usage: 90%-99% inert alumina ceramic rings are widely used in petroleum, chemical, natural gas, and environmental protection industries. They are used as support materials for catalyst coverage in the reactor. Their main function is to increase gas or liquid distribution points and support and protect active catalysts with low strength.
Usage: 90%-99% inert alumina ceramic rings are widely used in petroleum, chemical, natural gas, and environmental protection industries. They are used as support materials for catalyst coverage in the reactor. Their main function is to increase gas or liquid distribution points and support and protect active catalysts with low strength.
Usage: 90%-99% inert alumina ceramic rings are widely used in petroleum, chemical, natural gas, and environmental protection industries. They are used as support materials for catalyst coverage in the reactor. Their main function is to increase gas or liquid distribution points and support and protect active catalysts with low strength.
Usage: 90%-99% inert alumina ceramic rings are widely used in petroleum, chemical, natural gas, and environmental protection industries. They are used as support materials for catalyst coverage in the reactor. Their main function is to increase gas or liquid distribution points and support and protect active catalysts with low strength.
Usage: 90%-99% inert alumina ceramic rings are widely used in petroleum, chemical, natural gas, and environmental protection industries. They are used as support materials for catalyst coverage in the reactor. Their main function is to increase gas or liquid distribution points and support and protect active catalysts with low strength.
Usage: 90%-99% inert alumina ceramic rings are widely used in petroleum, chemical, natural gas, and environmental protection industries. They are used as support materials for catalyst coverage in the reactor. Their main function is to increase gas or liquid distribution points and support and protect active catalysts with low strength.
Usage: 90%-99% inert alumina ceramic rings are widely used in petroleum, chemical, natural gas, and environmental protection industries. They are used as support materials for catalyst coverage in the reactor. Their main function is to increase gas or liquid distribution points and support and protect active catalysts with low strength.
Usage: 90%-99% inert alumina ceramic rings are widely used in petroleum, chemical, natural gas, and environmental protection industries. They are used as support materials for catalyst coverage in the reactor. Their main function is to increase gas or liquid distribution points and support and protect active catalysts with low strength.
Usage: 90%-99% inert alumina ceramic rings are widely used in petroleum, chemical, natural gas, and environmental protection industries. They are used as support materials for catalyst coverage in the reactor. Their main function is to increase gas or liquid distribution points and support and protect active catalysts with low strength.
Usage: 90%-99% inert alumina ceramic rings are widely used in petroleum, chemical, natural gas, and environmental protection industries. They are used as support materials for catalyst coverage in the reactor. Their main function is to increase gas or liquid distribution points and support and protect active catalysts with low strength
With its high strength, high hardness, high wear resistance, large specific gravity, small size, heat and corrosion-resistant and pollution-free, the product is widely used in precision processing and deep processing of various ceramics, enamels, glasses and thick and hard materials in chemical factories, as grinding media for fine crushing machines like ball mills, can-type mills, and vibration mills, with significantly higher crushing and milling efficiency and wear resistance than common ball stone or natural cobblestone
With its high strength, high hardness, high wear resistance, large specific gravity, small size, heat and corrosion-resistant and pollution-free, the product is widely used in precision processing and deep processing of various ceramics, enamels, glasses and thick and hard materials in chemical factories, as grinding media for fine crushing machines like ball mills, can-type mills, and vibration mills, with significantly higher crushing and milling efficiency and wear resistance than common ball stone or natural cobblestone.
Widely used as underlying packing material for the hydrocracking systems, refining systems, CRCC systems, isomerizing systems and demethylating systems of petrochemical plants, chemical fiber plants, alkyl benzene plants, aromatic plants, ethylene plants and natural gas plants, and as the supporting or covering material for catalysts, molecule sieves and dryers inside reactors and packing material for towers. Its primary purpose is to increase the gas or liquid distribution points, and support and protect less strong active catalysts. Features: High purity, large strength; heat, high pressure, and strong acid corrosion resistant; sound thermal vibration stability and stable chemical performance
Widely used as underlying packing material for the hydrocracking systems, refining systems, CRCC systems, isomerizing systems and demethylating systems of petrochemical plants, chemical fiber plants, alkyl benzene plants, aromatic plants, ethylene plants and natural gas plants, and as the supporting or covering material for catalysts, molecule sieves and dryers inside reactors and packing material for towers. Its primary purpose is to increase the gas or liquid distribution points, and support and protect less strong active catalysts. Features: High purity, large strength; heat, high pressure, and strong acid corrosion resistant; sound thermal vibration stability and stable chemical performance
Widely used as underlying packing material for the hydrocracking systems, refining systems, CRCC systems, isomerizing systems and demethylating systems of petrochemical plants, chemical fiber plants, alkyl benzene plants, aromatic plants, ethylene plants and natural gas plants, and as the supporting or covering material for catalysts, molecule sieves and dryers inside reactors and packing material for towers. Its primary purpose is to increase the gas or liquid distribution points, and support and protect less strong active catalysts. Features: High purity, large strength; heat, high pressure, and strong acid corrosion resistant; sound thermal vibration stability and stable chemical performance
Widely used as underlying packing material for the hydrocracking systems, refining systems, CRCC systems, isomerizing systems and demethylating systems of petrochemical plants, chemical fiber plants, alkyl benzene plants, aromatic plants, ethylene plants and natural gas plants, and as the supporting or covering material for catalysts, molecule sieves and dryers inside reactors and packing material for towers. Its primary purpose is to increase the gas or liquid distribution points, and support and protect less strong active catalysts. Features: High purity, large strength; heat, high pressure, and strong acid corrosion resistant; sound thermal vibration stability and stable chemical performance
