10 core technologies
Aulank is dedicated to using proven engineering results to address the most common and challenging conditions found in industrial operations, including high temperature, low temperature, high pressure, gas-containing media, and space-constrained installations. We focus on one clear goal and keep refining it: ensuring industrial pumps operate stably in real systems, with parameters that remain controllable over time and performance degradation that is predictable, helping reduce downtime, rework, and maintenance risk while lowering overall operating costs.
Synchronous Permanent Magnet Technology
Flow channel polishing precision Ra 0.2, with no risk of metal ion precipitation
High Pressure Structure Technology
API-standard-like structural design, suitable for petrochemical industry applications
Ultra High Temperature 400°C Technology
Customized high-temperature-resistant magnetic materials for stable media transfer under temperatures up to 400°C
-196°C Ultra-Low Temperature Technology
Special structural design reduces self-generated operating heat and mitigates metal deformation under ultra-low-temperature conditions
10
core technologies
Multi-Frequency Efficient Technology
Upgraded conventional variable-frequency technology, optimizing energy efficiency and temperature rise while saving installation space
Shielding Vortex Technology
Combination of traditional canned centrifugal pump technology with vortex pump hydraulic design, saving installation space while achieving complementary high head and medium-to-low flow performance
Dry-Run FrictionlessTechnology
Frictionless sliding bearing design to meet special application requirements
Spiral Gear Technology
Optimized gear meshing design to improve pump efficiency and service life
Negative Pressure Self-Priming Technology
Special fluid design enabling stable transfer under high negative pressure and low NPSH conditions
Gas Liquid Mixed Transportation Technology
High-efficiency hydraulic design suitable for complex gas-dissolving and ozone-dissolving applications, while fully preventing leakage
