Aerify ProTM
Unveiling the Distinct Edge:
Why Aerify ProTM Stands Apart
In the realm of engineering precision, Aerify Pro™ isn’t just another tool; it’s a paradigm shift.
Explore the unique features that make Aerify Pro™ an indispensable asset for professionals in transmission, gearbox, engine design, and other industrial applications:
Direct & Continuous
Monitoring
- Continuously tracks aeration levels in real-time.
- Provides ongoing data for informed decision-making in dynamic environments.
Advanced Void
Fraction Measurement
- Directly measures the void fraction with unmatched precision.
- Accurately quantifies air bubbles, ensuring reliable and precise readings.
Simplified Yet Sophisticated Operation
- User-friendly interface and easy setup eliminate inconsistencies.
- Reduces technician-to-technician variability, enhancing reliability and innovation.
Accredited Calibration and NIST Traceability Ready
- Offers accredited calibration and NIST traceability.
- Ensures rigorous standards for accuracy and reliability, providing peace of mind.
Adaptability with Active Flow Regulation (AFR) Technology
- Adjusts seamlessly to varying conditions (speeds, pressures, temperature).
- Can sample from a sump or pressure line without modifications, showcasing versatility.
Aerify Pro™ isn’t just special because of its capabilities; it’s how it integrates these capabilities into a seamless, user-friendly experience.
With a commitment to precision, adaptability, simplicity, and standard-compliant reliability, Aerify Pro™ is more than a tool—it’s your partner in engineering excellence.
Learn more
about
aeration
Aeration in Electrified Vehicles
An electric vehicle manufacturer’s newest motor frequently exceeds an acceptable working temperature, leading to control glitches and component failures. The manufacturer suspects aeration is compromising the thermal management properties of the oil in its motor cooling system, and needs a tool to monitor aeration in real-time With Aerify Pro™, the manufacturer confirms an increase in performance issues correlates with a rise in the percentage of aeration in the oil. The company adapts its cooling circuit to help minimize aeration and push development forward.
Aeration in Off-Highway Equipment
A construction equipment manufacturer competes fiercely against vendors who anecdotally report their novel reservoir designs and technologies reduce aeration. The manufacturer needs a way to confirm if decreasing reservoir size, and therefore dwell time, will significantly increase reduce aeration in its mobile hydraulic equipment – and it needs to generate reliable, repeatable results it can share with potential customers. With Aerify Pro™, the manufacturer captures compelling data that proves the concept and allows it to reduce input costs increases sales
Aeration in Aerospace Applications
An aircraft manufacturer needs to understand if aeration is a problem in its turbine engine system and, if so, how aeration affects the thermodynamics and life of the oil in its systems. Given the nature of aviation, the company also needs to understand how aeration changes at various altitudes and temperatures. The manufacturer installs Aerify Pro™ in-line to monitor aeration in real-time and generate gigabytes of data that inform future research and development.
Aeration in Industrial Applications
In high-throughput industries, entrained air can silently undermine production efficiency and product quality.
A high-volume food processing plant faces inconsistent fill levels on its bottling line, likely due to product aeration causing foam and flow errors. Using Aerify Pro™, engineers capture real-time data, identify where air enters the process, and adjust pump speed and piping to reduce aeration—restoring consistency and minimizing waste.
Meanwhile, a pulp and paper mill experiences variability in chemical dosing and slurry density during processing. With Aerify Pro™, the team confirms that entrained air is distorting flow measurements and undermining control strategies. Armed with new insights, they modify their mixing process to stabilize flow and chemical ratios—boosting system reliability and reducing downtime.