Groundbreaking Ultrasonic Technology with Unrivaled Energy and Cost Efficiency
S-Wave: Far Superior Technology with Many Advantages
S-Wave breakthrough system uses ultrasonic waves to produce low-cost clean hydrogen. This next-generation technology enables far superior hydrogen extraction from water, with many advantages in comparison to electrolyzers.
Our technology is globally patented, scalable, and third-party certified, ensuring high standards of performance and reliability.
One version of the machine already at TRL 8 (close to industrial implementation).
- Radically lower electricity consumption, due to the unrivaled energy efficiency of our molecular dissociation mechanism.
- Unlike electrolysis, S-Wave operates with raw, untreated water, including seawater.
- Lower capital expenditure due to simpler design and use of low-cost materials.
- Absence of greenhouse gas emissions, enabling the production of green hydrogen.
- On-site production capability, minimizing the need for hydrogen storage and transportation.
Unique mechanism to split water with minimal electricity input
While electrolysis relies on high electrical energy input, S-Wave leverages a specialized ultra-efficient molecular dissociation mechanism derived from sonolysis, following a four-step process:
After extensive R&D, our technology enhances traditional ultrasound-based dissociation processes, to make clean hydrogen production at low cost finally possible.
The device architecture, design, and electronic systems were carefully engineered to facilitate the dissociation of water molecules, generating high-purity hydrogen through a highly energy-efficient process.
- Generation of Oscillatory Energy Fields – S-Wave applies ultrasonic waves to water, creating controlled oscillatory energy fields.
- Formation & Collapse of Microstructures – These waves induce transient microstructures that expand and contract multiple times before violently imploding, reaching extreme localized temperatures (>4,900°C) and creating shockwaves.
- High-Energy Zones & Molecular Dissociation – At such extreme temperatures on a microscopic scale, water molecules spontaneously dissociate, enabling unmatched energy efficiency.
- Hydrogen Release Without External Electrical Potential – Hydrogen is liberated with drastically lower electricity consumption than electrolysis, while avoiding electrode degradation.
S-Wave removes obstacles, enabling Green Hydrogen to take off
S-Wave is accelerating the transition to a hydrogen economy.