Obtaining Drinking Water from SEA Water with a Catalyst System

🔋 1. Energy Efficiency
✔️ Traditional distillation and reverse osmosis systems require high energy.
✔️ Catalysts operate at low temperatures and are compatible with natural resources such as solar energy.
✔️ This means low cost and sustainability.

📦 2. Portability
✔️ Systems can be placed in a container and made mobile.
✔️ Can be quickly installed on the coast, in rural areas or in disaster areas.

🔧 3. Low Maintenance and Long Ölife
✔️ Photocatalytic systems have fewer moving parts → The failure rate decreases.
✔️ The need for maintenance is low, the operating time is long.
➡️ Continuous
An end to transporting water by tanker!
🚨 2. Disaster Zones
➡️ Water infrastructure may be damaged in disasters such as earthquakes, floods and fires.
➡️ Fast clean water supply can be provided with the container system.
🎖️ 3. Military and Emergency Response Operations
➡️ Military It meets the drinking water needs in temporary settlements such as workplaces, campsites and field hospitals.

🌍 4. Developing Countries and Rural Areas
➡️ It is a long-term drinking water solution in places with lack of infrastructure.
➡️ It makes a big difference in terms of health and hygiene.

🏕️ 5. Camping and Ecotourism Areas
➡️ It is a great solution to provide clean water in natural environments without electricity.
➡️ It is a great solution for touristic establishments It is an environmentally friendly alternative.

🏭 6. Industrial Pre-Treatment
➡️ Purified seawater can be used in cooling systems, agricultural irrigation or industry.