IoT solutions for smart urban water management.

Tailor-made projects to monitor, control and optimize the use, quality and supply of water in cities, buildings and ports.

Why is it important to monitor water in urban areas?

Managing urban water involves much more than simply ensuring its availability. In cities, buildings, public facilities, and ports, it is necessary to monitor its quality, understand how it is consumed, and supervise the condition of the infrastructure through which it flows.

Without up-to-date information, many incidents are only detected when they have already caused a loss of water, an increase in consumption, an alteration of quality, or a malfunction.

Monitoring using IoT technology allows collect data continuously , centralize information and generate alerts when deviations occur.

Early detection of incidents and abnormal behaviors.

Preventive planning of maintenance and technical actions.

Remote and continuous monitoring of facilities and infrastructure.

Improved traceability through historical data, records, and trends.

Decision-making based on reliable and up-to-date data.

Greater control of consumption and reduction of water losses.

Solutions tailored to each space

We combine sensors, data acquisition systems, connectivity and software to monitor the behavior of water and associated infrastructure in real time.

We design each project to measure, from a single control point to distributed networks in buildings, urban spaces and port environments, facilitating early detection of incidents and more efficient management.

How can we ensure that the water maintains the appropriate parameters?

The quality of drinking water must be monitored at strategic points to detect any deviations before they can become a health problem or affect the service.

Our solutions allow continuous monitoring of water quality in reservoirs, distribution networks, public fountains, municipal facilities and other critical points.

The data is sent to a platform from which it is possible to consult the measurements, analyze their evolution and receive alerts for anomalous values.

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How to control water consumption and detect abnormal usage?

Measuring consumption by building, zone or facility allows us to know when, where and how much is consumed.

This information helps identify continuous consumption, off-hours usage, potential internal leaks, and inefficient patterns before they lead to cost overruns or significant water losses.

Through our platform we facilitate the comparison between periods and the visualization of the consumption of different facilities from the same environment.

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How can you tell what's happening on the network before a fault occurs?

Monitoring the water network provides continuous information on its behavior and allows critical points to be identified before an incident affects the service.

By monitoring flow rates, pressure, and other hydraulic variables, managers can detect out-of-range behavior, pressure losses, potential leaks, or abnormal variations.

The data facilitates preventive network management and helps to plan maintenance activities.

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How to control water quality in ornamental fountains and ponds?

Ornamental fountains, urban ponds, and decorative water features require proper monitoring to maintain water quality and reduce potential health risks.

In these spaces, parameters such as chlorine, pH, and turbidity are primarily monitored. This information allows for the detection of conditions that may favor the proliferation of bacteria, viruses, or parasites, enabling action to be taken before the situation becomes a problem.

The data can be viewed from a centralized platform, its evolution can be monitored, and alerts can be set when measurements fall outside the established ranges.

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Water supply in ports

We develop solutions to control, automate and record the supply of water to ships from a centralized platform.

The system allows you to know which supply point is available or active, who is using the service, how much water is consumed, and when each operation begins and ends.

All activity is recorded to facilitate monitoring, traceability, and auditing of the supply.

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5G hydrogeological monitoring

Port infrastructure can be affected by variations in the water table, the influence of tides, saltwater intrusion, and changes in ground pressure.

Hydrogeological monitoring allows for a continuous view of the subsoil and the identification of changes that may affect docks, dams, esplanades and other critical infrastructure.

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5G marine hydrophones

Port activity generates underwater noise from maritime traffic, industrial operations, dredging, machinery and submerged structures.

Using marine hydrophones connected to an analysis platform, we monitor the underwater acoustic environment and facilitate the detection of anomalous patterns.

The information obtained can be used to analyze trends, assess the impact of certain activities, and generate data for environmental studies.

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