FCC CATALYST

Discover the core of ZEOTEC’s expertise – our advanced FCC Catalysts. Designed for peak performance, they optimize crude oil conversion, setting new standards in energy refining. ZEOTEC’s FCC Catalysts are at the forefront of cutting-edge technology, engineered with precision to deliver exceptional performance in energy refining. Our catalysts undergo rigorous quality control and are tailored to meet the highest industry standards. Our catalyst include

FCC CATALYST

Details

ZEOTEC’s FCC Catalysts

Discover the core of ZEOTEC’s expertise – our advanced FCC Catalysts. Designed for peak performance, they optimize crude oil conversion, setting new standards in energy refining. ZEOTEC’s FCC Catalysts are at the forefront of cutting-edge technology, engineered with precision to deliver exceptional performance in energy refining. Our catalysts undergo rigorous quality control and are tailored to meet the highest industry standards. Our catalyst include:

Y-Type Zeolite Catalysts (Ultrastable Y or USY): Y-type zeolite catalysts are one of the most prevalent in FCC units. They offer excellent activity and selectivity, making them suitable for a wide range of feedstock. Ultrastable Y (USY) catalysts have a modified structure that enhances their stability and regenerability.

X-Type Zeolite Catalysts:
X-type zeolites are known for their high surface area and selectivity for gasoline production. They are often used in FCC units to maximize gasoline yields.

Rare Earth-Modified Zeolite Catalysts
These catalysts incorporate rare earth metals (such as lanthanum or cerium) into the zeolite structure. The addition of rare earth metals can enhance catalyst performance, improve coke combustion, and extend catalyst life.

Beta Zeolite Catalysts
Beta zeolite-based catalysts have a unique pore structure that makes them suitable for specific applications, such as maximizing propylene production. They are often used in unitsdesigned for propylene production.

ZSM-5 Zeolite catalysts
ZSM-5 is a type of zeolite with a different pore structure compared to traditional Y-type zeolites. ZSM- 5-based catalysts are employed in FCC units to increase the production of valuable products like propylene and light olefins.

Medium-Pore Zeolite Catalysts:
Some zeolite-based FCC catalysts use medium-pore zeolites, which can be advantageous in cracking heavier feedstocks and producing a balance of gasoline and diesel.

High-Silica Zeolite Catalysts
High-silica zeolite-based catalysts have a high silica-to-alumina ratio, which provides increased thermal stability. They are used in FCC units operating at high temperatures.

Rare Earth-Exchanged Zeolite catalysts
These catalysts involve the exchange of cations in the zeolite structure with rare earth elements. This modification can enhance the catalyst's performance in terms of selectivity and stability.

SPECIFICATIONS a PERFORMANCE METRICS Specifications
Catalyst Type: Advanced Zeolite­ Based FCC Catalyst
Particle Size Distribution: Controlled Particle Size for Optimal Reactivity
Surface Area: High Surface Area for Improved Activity
Purity: Exceptional Purity to Minimize Impurities.

Performance Metrics
Conversion Efficiency: ZEOTEC's FCC Catalysts are designed to maximize conversion rates, resulting in higher yields of valuable products such as gasoline, diesel, and petrochemicals.

Selectivity:
Our catalysts exhibit superior selectivity, ensuring the production of high-quality fuels with minimal unwanted byproducts.

Activity:
ZEOTEC's catalysts maintain high activity levels, allowing for efficient cracking of heavy hydrocarbons.

Stability:
Exceptional stability ensures consistent performance over extended operational periods, reducing the need for frequent catalyst replacement.

Environmental Impact:
Our catalysts contribute to reduced emissions and enhanced environmental sustainability.

REAL-WORLD APPLICATIONS
ZEOTEC's FCC Catalysts find applications in a wide range of energy refining processes, including:

· Isomerization
· Hydrocracking
· Catalytic Cracking
· Selective Hydrogenation
· Aromatics Production
· Methanol-to-Olefins (MTO)
· Dehydration Reactions
· Catalytic Dewaxing
· Petrochemical Upgrading
· Adsorption and Separation

These chemical processes results in:

• Crude Oil Refining
• Gasoline Production
• Diesel Fuel Production
• Petrochemical Manufacturing
• Environmental Compliance
• Reducing Carbon Footprint

KEY BENEFITS OF ZEOTEC'S FCC CATALYSTS

• Enhanced Product Quality
• Increased Yields
• Reduced Environmental Impact
• Elevated Profitability
• Density: Tailored Density for Optimal Fluidization
• Attrition Resistance: High Attrition Resistance for Extended Catalyst Life.

Packaging:
Multi-layered paper bags with inner plastic lining for moisture protection.

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