Clean power
with market-ready impact
A scalable path to clean energy.
Clean power
with market-ready impact
A scalable path to clean energy.
Our Approach
Azura asserts leadership as a project developer of wave-enabled desalination and wave-enabled microgrid initiatives. We operate as a ‘conductor’ between the customer or end-user, energy or water company providers, subject-matter-experts, suppliers and key stakeholders. Through close collaboration with our curated group of strategic partners, we form high-impact teams that drive technology innovation, execute pilot projects, and deliver tailored, customer-focused solutions.
Our wave-enabled microgrid and at-sea desalination systems are like the engine of a car—powering essential movement and enabling progress. Just as an engine drives a vehicle from one place to another, our systems provide the core force that delivers clean electricity and fresh water, moving coastal and island communities toward greater energy independence, resilience, and sustainability.
Here’s a glimpse into our innovations.
At Sea Desalination
Freshwater scarcity is accelerating. Climate change is intensifying droughts, coastal and island communities are running out of reliable water supplies. Conventional desalination cannot scale fast enough because it depends on expensive, carbon-intensive grid electricity and large, fixed infrastructure. Growing water shortages in global Blue Economies are hindering economic development, limiting food production and threatening human and environmental health.
Microgrids
Project AquaGrid represented the first phase of a wave-enabled microgrid project using Azura wave technology. Southern Ocean Mariculture, an abalone farm located in Victoria, Australia, served as the subject for a real-life case study. Project AquaGrid successfully designed a hybrid microgrid system that combined Azura wave energy technology, existing 250kw solar array, storage and limited amount of diesel to supply 24/7 electricity. It further documented the process and methodology to co-design this system, illustrating its repeatability and scalability.