On-Site Needs Analysis
We capture your current water usage, inspect pipe networks, and identify savings potential. Duration: 1–2 days.
Our technologies help municipalities and industries use water resources more efficiently and reduce environmental impact.
IoT sensors capture pressure, flow, and quality in drinking water and wastewater systems. Leaks are located within minutes, and failures are detected early.
Our platform combines soil moisture data, weather forecasts, and plant needs. Irrigation is automatically adjusted to actual demand – without manual intervention.
Planning and control of retention areas, green roofs, and infiltration systems. The system calculates optimal storage volumes and directs excess water precisely.
Modular membrane and bioreactors for process water. The systems can be configured according to the pollutant profile and enable up to 90% water reuse.
Autonomous monitoring stations continuously record temperature, pH, oxygen levels, and pollutants in rivers and lakes. The data feeds into an early warning system for authorities.
From the initial consultation to ongoing optimization – a clear, traceable process for your water infrastructure.
We capture your current water usage, inspect pipe networks, and identify savings potential. Duration: 1–2 days.
Tailored to your facilities, we select suitable flow, pressure, and quality sensors and integrate them into your existing system.
The measurement data is processed in real time and visualized in a clear dashboard – with an alarm function for deviations.
Our algorithms analyze consumption patterns and propose concrete measures – from irrigation control to water circulation.
After implementation, we accompany operations, fine-tune parameters, and document the water savings achieved.
These explanations serve to clarify and avoid misunderstandings when using our platform and services.
We refer to the use of sensors, data analysis, and automated control systems to optimize water use, treatment, and management. These are demonstrable technical processes, not blanket efficiency promises.
Our solutions aim to reduce water consumption, close material cycles, and prevent pollutant inputs. Concrete savings depend on individual framework conditions and are documented on a project-specific basis.
We understand this to mean processes and systems that conserve resources, minimize waste, and improve the natural water balance. This includes, among other things, decentralized rainwater management, membrane technology, and biological treatment stages.
Protecting water resources requires an interplay of technical innovation, operational practice, and legal frameworks. Our platform provides information and tools but does not replace site-specific testing or official approval.
We describe technical developments and processes based on the current state of the art. Liability for completeness or suitability for a particular purpose is excluded. Every application requires independent review by the user.