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Detección de metano

El sistema de detección de metano a bordo de un UAV permite un escaneo remoto rápido para la detección y localización de fugas. Un dron es compacto y fácil de transportar y desplegar. El sistema con Laser Falcon puede utilizarse para diversos tipos de inspección, como instalaciones de gas, tuberías y vertederos.

Descubra la tecnología de detección de metano basada en drones de SPH Engineering »»»

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    1,805.00 USD - 1,805.00 USD
    1,805.00 USD
    1,805.00 USD - 1,805.00 USD
    1,805.00 USD

    Formación: Detección de fugas de metano mediante dron

    SPH Engineering

    Entrenamiento único en su tipo para aprender a usar el detector de metano Laser Falcon para estudios con drones.Los estudiantes deben tener el cono...

    Ver todos los detalles
    1,805.00 USD - 1,805.00 USD
    1,805.00 USD
    1,805.00 USD - 1,805.00 USD
    1,805.00 USD

Info

Our methane detection systems have been field-validated across diverse industrial environments, from oil and gas facilities to landfills and biogas operations. Each system features carefully selected components that work in perfect harmony: high-sensitivity methane sensors capable of detecting concentrations as low as 1 ppm, the SkyHub onboard computer for reliable data acquisition and real-time transmission, and comprehensive software for both flight planning and gas plume visualization.

The aerial approach to methane leak detection revolutionizes traditional inspection methods. Surveys that once took days can now be completed in hours, while accessing locations that would be dangerous or impossible to reach on foot. Real-time data transmission allows immediate response to detected leaks, while comprehensive mapping capabilities provide clear documentation for regulatory compliance and maintenance planning.

Whether you're conducting pipeline right-of-way inspections, monitoring landfill emissions, or performing regular facility checks, our methane detection systems deliver the sensitivity, reliability, and operational efficiency that environmental professionals demand.

Frequently Asked Questions

What types of methane sensors are available for drone integration?

We offer several methane detector options optimized for different applications, including the Laser Falcon 2 (TDLAS technology with high sensitivity and mehane-specific detection), the Falcon Plus (compact TDLAS sensor for general leak detection), and the FluX Aero Methane Sniffer (for quantitative concentration measurements). Each sensor is carefully integrated with appropriate UAV platforms to ensure optimal detection capabilities.

How sensitive are the drone-mounted methane detectors?

Our systems can detect methane concentrations as low as 1 ppm, with the ability to locate and characterize leaks from safe standoff distances of up to 60 meters. This exceptional sensitivity allows for the detection of even small leaks while maintaining a safe distance from potential hazards.

How does aerial methane detection compare to traditional ground methods?

Depending on the type of methane detection method, our drone-mounted systems can cover 50+ ha/day. This efficiency translates to significant cost savings, especially for large inspection areas like pipeline corridors or landfills. Additionally, drones can access areas that would be difficult or dangerous for ground personnel.

What data outputs do the methane detection systems provide?

Our systems provide real-time methane concentration readings with GPS coordinates, allowing immediate response to detected leaks. Post-flight processing generates comprehensive reports with leak locations, estimated concentrations, and visual mapping of gas plumes overlaid on site imagery. This documentation is valuable for regulatory compliance, maintenance planning, and emissions monitoring.

Can these systems be used in hazardous environments?

Yes, our drone-mounted methane detection systems are specifically designed for use in potentially hazardous environments. By conducting surveys from the air, operators can detect leaks without entering dangerous areas, significantly improving safety while maintaining detection effectiveness.

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