Micropollutant monitoring
With our advanced microfluidic technology, detect contaminants in real time and optimize your water resource management.
INTRODUCTION TO PANDa
A revolution in water monitoring
Micropollutant Detection Analyser
Water analysis and management face many challenges: long processing times, high costs, and a lack of responsiveness to contamination. PANDa, our autonomous microfluidic-based analyzer, changes the game by providing real-time, on-site monitoring, eliminating the need for laboratory testing.
With PANDa, detect micropollutants instantly, make informed decisions, and optimize your water resource management
Based on patented technology developed after years of R&D, field-validated, and integrating the latest advancements in analytical microfluidics.
the first Plug-and-play multi-ANalyser for Detecting micropollutants in water
For each Actor, a Solution
MUNICIPALITIES
Ensuring safe and compliant water is a major challenge for municipalities. PANDa provides continuous water quality monitoring, enabling rapid pollution detection and greater responsiveness in case of incidents. Through this proactive surveillance, municipalities strengthen health security, user confidence, and alignment with regulatory requirements for new infrastructures.
OPERATORS
Network operators need reliable tools to optimize their processes and reduce operating costs. PANDa delivers real-time analysis, helping anticipate deviations, optimize treatments, and streamline interventions. The technology becomes a true driver of operational efficiency.
INDUSTRIES
In industry, process performance directly depends on rigorous water quality management. PANDa enables continuous and precise monitoring, tailored to demanding environments, to optimize yield, reduce costs, and enhance production sustainability, while ensuring safety and regulatory compliance. This approach provides industries with more reliable control and strengthened competitiveness.
MUNICIPALITIES
Monitor, prevent, and act for water quality
Supporting municipalities in securing, complying, and sustainably managing water resources.
Monitor the quality of distributed water
Access reliable real-time data to guarantee user health and safety.
Prevent health and environmental risks
Quickly detect any contamination to protect public health and limit environmental impacts.
Anticipate regulatory changes
Stay compliant with precise, automated monitoring of critical thresholds.
Promote sustainable and responsible management
Support your water management policies with reliable indicators to better plan resource savings and preservation.
Maintain compliance
Identify stress zones and adapt your distribution policies accordingly.
Innovation and technological reliability
Benefit from standardized, traceable, and compliant technology to anticipate regulatory changes and strengthen public trust.
OPERATORS
Responsiveness, efficiency and performance in water management
Providing operational teams with the right tools to anticipate, automate and optimize network management.
Real-time data
Providing operational teams with the right tools to anticipate, automate and optimize network management.
Optimized resources
Optimize field interventions by reducing travel, lowering costs, and maximizing operational efficiency.
Automated processes
Reduce repetitive tasks through automation and improve team productivity by freeing up time for critical priorities.
Fewer corrective actions
Faster diagnostics and targeted actions help reduce corrective interventions and operational losses.
Anticipate incidents
Receive real-time alerts to respond faster and limit service interruptions or user impacts.
Reliability and traceability
Ensure complete traceability with standardized, reliable measurements to secure operations and strengthen compliance.
INDUSTRIES
Optimize performance and secure your processes
Helping industrial sites manage water efficiently for safer, compliant, and more sustainable production.
Continuous monitoring
Continuously monitor process water and discharge quality to ensure compliance and traceability.
Enhanced quality
Improve overall water quality and increase end-customer satisfaction.
Optimized treatments
Adjust treatment protocols based on real-time results to gain efficiency.
Simplified compliance
Streamline audits and avoid penalties with automated, actionable reports.
Reduced costs
Lower the consumption of reagents, energy, and water through precise, targeted monitoring.
Reliability and traceability
Ensure full traceability with standardized, reliable measurements.
HOW THE PANDa WORKS
A process in 4 key steps
PANDa relies on advanced analysis, combined with microfluidics, to detect and quantify contaminants in water in real time.
Increased accuracy
Reliable detection through continuous analysis, delivering laboratory-equivalent precision.
Field analysis
No more transportation needed, the PANDa analyzes water directly on-site, providing fast and reliable results.
Real-time data
Results are transmitted instantly. Automatic alerts trigger immediate action if thresholds are exceeded.
Automation
Analysis, and data transmission are fully automated, requiring no expertise or heavy maintenance.
APPLICATIONS OF PANDa
Versatile technology
For optimized water management
Our PANDa is designed for a wide range of applications, addressing industrial, urban, and even environmental challenges.
Industrial Surveillance
Optimize effluent control and ensure environmental compliance through rapid pollutant detection.
DIFFERENTIATION
Go beyond the limits of traditional methods
PANDa breaks down the technical barriers of traditional monitoring
Traditional heavy metal monitoring relies on manual sampling followed by laboratory analysis. This process results in significant delays, high costs, and dependence on analytical infrastructure. In cases of pollution, these constraints slow decision-making, increasing environmental and health risks.
With PANDa, these limitations are a thing of the past.
Classical Methods
PANDa – Microfluidic Technology
Manual sampling, transport and laboratory analysis
Process
Autonomous analysis, directly on site
Several days to weeks
Analysis time
Real time, continuous
Requires trained personnel
Accessibility
No training required, intuitive interface
Chemical reagents, sample transport, waste production
Environmental impact
Fewer reagents, less waste, less CO₂
Variable, depends on analysis conditions
Precision
Laboratory precision on field
Variable and expensive
Maintenance
Low maintenance, built-in self-diagnostics
