Glass-Lined Agitator (Energy Saving) | Reactor Agitator

Glass-Lined Equipment Customization

ASTM-Standard Steel Materials Carbon steel, alloy steel, stainless steel
Enhanced Enamel Formulations Superior resistance to corrosion, high temperature, acids and alkalis
Precision-Controlled Manufacturing Cold spray with curve firing for uniform enamel thickness and density

Glass Lined Agitator

(Energy Saving)

The glass lined agitator (energy saving) is suitable for glass-lined reactors with capacities from 50l to 32000l. It is a practical choice for the fast mixing of low-viscosity liquids and for solid-liquid systems with low solids content. The glass lined agitator (energy saving) is designed for processes that require efficient circulation while keeping unnecessary power consumption under control.

Using a special curved four-blade turbine structure, the glass lined agitator (energy saving) creates strong axial circulation while reducing ineffective energy loss. This design makes the agitator suitable for processes that require both reliable mixing performance and better energy efficiency.

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Features

Energy-Saving Blade Design
The glass lined agitator (energy saving) uses a four-blade turbine structure with curved blades. The outer edge of each blade gradually narrows, which helps reduce ineffective power consumption during operation.
Strong Axial Circulation Performance
The blades are set at an angle of 20° to 45° to the shaft axis, allowing the glass lined agitator (energy saving) to generate a clear axial flow pattern and improve overall mixing performance.
Low-Shear Mixing
The glass lined agitator (energy saving) provides low and evenly distributed shear, which helps support a more uniform particle size distribution in suitable process conditions.
Flexible Design Based on Process Needs
The agitator diameter is typically 0.3 to 0.5 times the inner diameter of the reactor, and the operating speed can be adjusted according to material properties and process requirements.
Structure Designed for Stable Glass Lining Quality
The agitator shaft uses export-grade seamless steel pipe, and the blades are made from titanium-alloy steel plate, which helps support better glass lining quality control during manufacturing.
Reduced Risk of Enamel Chipping
The pipe end uses a closed-end head structure, which helps reduce stress concentration and lower the risk of enamel chipping.

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Please contact Lante for custom glass-lined steel equipment designed to meet your specific needs.

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Why Us

Certified manufacturing standards
We hold authoritative ASME (Section VIII Division 1) and CE (PED) certifications, ensuring full compliance with international safety and quality standards. This guarantees our glass-lined steel equipment meets the strict regulatory requirements of global chemical, pharmaceutical, and agrochemical clients.
In-House Enamel R&D Laboratory
Our dedicated in-house R&D center specializes in custom enamel formulations, including acid-resistant, acid-alkali resistant, high-temperature resistant, and wear resistant options. These proprietary formulas deliver exceptional durability against corrosive media, mechanical impact, and thermal shock, ensuring reliable performance in diverse operating environments.
Advanced Cold Spray Enameling Process
Our glass-lined equipment utilizes advanced cold spray enameling process with multiple high-temperature firing cycles. This technology ensures a thinner, more uniform, and denser enamel layer with significantly reduced risk of chipping or peeling. The controlled firing process guarantees optimal adhesion and long-term durability in the most demanding chemical processing conditions.

Precision Belt Polishing Pretreatment
Prior to enameling, every steel shell undergoes rigorous precision belt polishing to thoroughly remove mill scale, pits, and surface impurities. This meticulous pretreatment process ensures superior substrate smoothness and integrity, providing an ideal, contamination-free foundation for strong and uniform enamel bonding.
Multi-zone electric furnace control
The enameling furnace uses independent multi-zone control with computerized management of heating, holding, and cooling. The temperature difference inside the furnace is controlled within 5°C, helping maintain consistent firing quality.
Vertical firing process
All equipment is produced using a vertical firing process, which provides more even heating, reduces deformation, and helps maintain the overall appearance of the equipment as well as flange flatness.
Controlled slow firing curve
The firing process follows a low-temperature entry and low-temperature exit slow-firing curve. Combined with dedicated furnace tooling and controlled firing methods, this helps ensure enamel quality comparable to that of established international manufacturers.
Full-process quality management
We maintain a complete quality management system with full-process control. For glass-lined quality inspection, we apply three inspection procedures covering:
1. internal and external visible defects
2. enamel thickness
3. high-voltage spark testing
This helps ensure that delivered products meet required standards and specifications.
Custom non-standard equipment design and manufacturing
Custom design and manufacturing support is available for non-standard products. Based on different process requirements, tailored solutions can be developed for special equipment structures and agitator selection supported by CFD fluid dynamics simulation.
Strong R&D capability
We have strong research and development capacity and currently hold more than 40 national patents covering equipment tooling, products, and manufacturing processes.