PFG Glasskem's SS Glass-Lined Reactors represent the perfect blend of stainless steel strength and glass lining precision, delivering unmatched performance for demanding industrial applications. Engineered with excellence, these reactors provide exceptional corrosion resistance, durability, and process reliability across a wide range of industries.
At their core, a robust stainless steel shell ensures superior mechanical strength and resilience, making them suitable for harsh operating environments. This sturdy construction not only guarantees long service life but also safeguards the glass lining, maintaining integrity under the toughest conditions.
Inside, a premium glass lining offers outstanding chemical resistance and product purity, making these reactors ideal for sensitive and high-purity processes. With the ability to handle temperatures from -80°C to 200°C and pressures from full vacuum up to 6 bar or more, they provide reliable flexibility for diverse industrial operations.
Equipped with advanced instrumentation, automation, and safety features, these reactors allow for precise monitoring and control, ensuring consistent performance and process efficiency. From chemical synthesis to pharmaceuticals, specialty chemicals, and petrochemicals, SS Glass-Lined Reactors from PFG Glasskem stand as the trusted choice for industries where durability, safety, and precision are non-negotiable.
SS GLASS LINED REACTOR - AE TYPE is designed to elevate your industrial processes with the perfect fusion of stainless steel strength and glass precision.
SS GLASS LINED REACTOR - CE TYPE is engineered to surpass industry standards, providing unmatched corrosion resistance, exceptional durability.
SS Glass-Lined Reactors deliver the perfect fusion of corrosion resistance, durability, and precise control, making them indispensable across diverse industrial applications. By ensuring product quality, safety, and cost-effectiveness, these reactors have become a trusted choice for sensitive and demanding chemical processes.
Stainless Steel Shell: The outer body of the reactor is crafted from premium-grade stainless steel, providing superior strength and durability. This robust shell not only withstands harsh industrial conditions but also ensures long-lasting protection for the glass lining.
Glass Lining: The interior is coated with a high-quality glass lining, known for its outstanding corrosion resistance and chemical purity. This smooth, impermeable surface guarantees product integrity and reliability in critical processes.
Jacketing: Many reactors feature a double-shell jacket design that enables the circulation of heating or cooling fluids. This system allows for precise temperature regulation, ensuring optimal conditions for sensitive reactions.
Agitator: Each reactor is fitted with an efficient agitator system to promote uniform mixing of reactants. Depending on process needs, designs such as paddle, anchor, or propeller agitators can be incorporated for maximum efficiency.
Volume Capacity: Available in a wide range of sizes, typically from 1 liter to 20 liters or more, depending on process requirements and application scale.
Temperature Range: Engineered to withstand extreme conditions, operating reliably from -80°C to +200°C, ensuring precise control for both cryogenic and high-temperature processes.
Pressure Rating: Designed to accommodate full vacuum to 6 bar (or higher), offering flexibility for a variety of industrial and laboratory applications.
Materials of Construction: Constructed with a stainless steel outer shell for strength and a specialized glass lining for purity and corrosion resistance. Additional components may include corrosion-resistant alloys for enhanced durability and performance.
Preventing damage to SS (Stainless Steel) Glass-Lined Reactors is essential to ensure long service life, consistent performance, and process safety. Adhering to best practices during operation, handling, and maintenance can significantly minimize risks.
Proper Handling and Transport: Always use appropriate lifting and support equipment during installation and transportation. Avoid impacts, drops, or contact with hard surfaces that can cause cracks or chipping in the glass lining.
Avoid Abrasive Materials: Do not introduce abrasive solids, powders, or contaminants into the reactor. These can scratch or erode the glass lining, compromising its protective properties. Ensure reactants are clean and properly filtered.
Careful Agitation: Install and align agitators precisely. Operate at recommended speeds to prevent excessive mechanical stress on the glass lining. Avoid sudden speed variations or misaligned shafts that may cause damage.
Avoid Sudden Temperature Changes: Rapid heating or cooling can cause thermal stress, leading to cracks in the lining. Always follow controlled temperature ramp-up and cooldown protocols to ensure gradual changes.
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