Strategic Objectives
• Master the fluid mechanics of high-pressure seawater atomization.
• Evaluate the mechanical hardware required for autonomous maritime spray vessels.
• Understand nozzle design constraints for preventing salt-crust clogging.
• Scale laboratory aerosol generation to industrial-grade ocean deployments.
The Core Challenge
While atmospheric science explores the 'why' of climate intervention, the 'how' remains a massive engineering bottleneck: creating billions of uniform sub-micron droplets from raw seawater.
01
The Engineering of Reflection
02
The Physics of Atomization
03
Fluid Dynamics at the Nozzle Tip
04
Surface Tension and Droplet Formation
05
Advanced Nozzle Geometry
06
The Mechanics of Rayleigh-Taylor Instability
07
High-Pressure Pumping Systems
08
Materials Science in Corrosive Environments
09
Aerosol Particle Size Distribution
10
Effervescent and Two-Fluid Atomization
11
Piezoelectric and Ultrasonic Generation
12
The Thermodynamics of Evaporation
13
Filtering and Pre-Treatment Systems
14
Computational Fluid Dynamics (CFD)
15
Autonomous Spray Vessels
16
Powering the Process
17
Scaling From Lab to Ocean
18
Sensors and Feedback Loops
19
The Boundary Layer Challenge
20
Maintenance and Reliability Engineering
21