HYDROCRACKING CATALYST FOR HYDROCARBON OIL INCLUDING TITANIA BINDER AND PHOSPHOROUS ACTIVE COMPONENT, METHOD FOR PRODUCING HYDROCRACKING CATALYST, AND METHOD FOR HYDROCRACKING HYDROCARBON OIL

Organization Name

Saudi Arabian Oil Company

Inventor(s)

Omer Refa Koseoglu of Dhahran (SA)

Robert Peter Hodgkins of Dhahran (SA)

Yusuke Matsumoto of Kawasaki (JP)

Koji Uchida of Kawasaki (JP)

Naoya Kojima of Kawasaki (JP)

HYDROCRACKING CATALYST FOR HYDROCARBON OIL INCLUDING TITANIA BINDER AND PHOSPHOROUS ACTIVE COMPONENT, METHOD FOR PRODUCING HYDROCRACKING CATALYST, AND METHOD FOR HYDROCRACKING HYDROCARBON OIL - A simplified explanation of the abstract

This abstract first appeared for US patent application 18059524 titled 'HYDROCRACKING CATALYST FOR HYDROCARBON OIL INCLUDING TITANIA BINDER AND PHOSPHOROUS ACTIVE COMPONENT, METHOD FOR PRODUCING HYDROCRACKING CATALYST, AND METHOD FOR HYDROCRACKING HYDROCARBON OIL

Simplified Explanation

The patent application describes hydrotreating catalysts with phosphorus components carried on a composite support of a titanium-loaded binder component and post-framework modified ultra-stable Y-type zeolite. The support includes a portion of aluminum atoms in the zeolite framework substituted with zirconium, titanium, and/or hafnium atoms. The active components, including phosphorous and hydrocracking metals, are loaded on the support.

• Titanium-loaded binder component in the composite support
• Post-framework modified ultra-stable Y-type zeolite with aluminum substitution
• Phosphorus and hydrocracking metals as active components

Potential Applications

The technology can be used in the petroleum industry for hydrotreating processes to remove impurities and improve the quality of fuels.

Problems Solved

- Enhanced catalytic activity and stability in hydrotreating processes - Improved selectivity and efficiency in removing sulfur, nitrogen, and other contaminants from petroleum products

Benefits

- Increased performance and longevity of catalysts - Higher quality and cleaner fuels produced - Cost-effective and environmentally friendly hydrotreating processes

Potential Commercial Applications

Optimized hydrotreating catalysts for refineries and petrochemical plants

Possible Prior Art

Prior art may include patents related to hydrotreating catalysts with different compositions or methods of preparation.

Unanswered Questions

How does the substitution of aluminum atoms with zirconium, titanium, and/or hafnium atoms affect the catalytic performance of the zeolite in the support?

The substitution of aluminum atoms with zirconium, titanium, and/or hafnium atoms may alter the acidity, surface area, and pore structure of the zeolite, potentially influencing its catalytic activity and selectivity in hydrotreating processes.

What are the specific hydrocracking metals that can be loaded on the support, and how do they contribute to the overall performance of the catalyst?

The specific hydrocracking metals loaded on the support, such as nickel, cobalt, or molybdenum, may play a crucial role in catalyzing the hydrocracking reactions of heavy hydrocarbons, improving the conversion rates and product yields in hydrotreating processes.

Original Abstract Submitted

Hydrotreating catalysts are provided having one or more phosphorus components carried on a composite support of a titanium-loaded binder component and post-framework modified ultra-stable Y-type zeolite. The support comprises the titanium-loaded binder component and a post-framework modified ultra-stable Y-type (USY) zeolite in which a portion of aluminum atoms constituting a zeolite framework thereof is substituted with zirconium atoms and/or titanium atoms and/or hafnium atoms. The active components including the phosphorous active component and one or more hydrocracking metals active components loaded on the support.