Designed to operate in harsh and hazardous environments with no loss in performance, our industrial safety solutions and systems are used to protect some of the world’s largest and most valuable plant and machinery.
We specialise in high reliability, easy to use and low maintenance products and systems that can be rapidly deployed into your operation to improve worker safety and minimise downtime.
Real-time particulate monitoring
Using lab-grade precision laser technology, our particulate monitoring systems are five times more accurate than comparable technologies. Each device can instantly measure and classify the size of multiple particulates in real time, producing 10,000 samples every second within a range of 0.35µm and 40µm. They have no filters or pumps, dramatically improving reliability and reducing the costs of maintenance, and come with a bespoke software package or can be fed into an existing SCADA interface for greater control and visibility.
Our particulate monitoring systems are IECEx certified for Group I hazardous locations in underground mining, and we also offer a general purpose variant for use in industrial locations with non-explosive atmospheres.
With our particulate monitoring systems, organisations can monitor dust levels in real time and, as the data is timestamped, understand when and where emissions are occurring. This information will enable them to not only identify if emissions are linked to a process, or a cycle within a process, but also to determine when dust suppression systems should be activated, allowing for preventative measures, greater control and reduced costs.
Smart gas detection
For industrial operations in hazardous toxic and explosive environments, we provide robust gas detection systems, as well as portable and transportable units for personnel protection. Our wireless, fixed and transportable systems incorporate our signature ‘eModules’ which allow sensors to be calibrated in a fraction of the time it takes for traditional gas sensors. Each system can be integrated into existing infrastructure as either fixed or wireless elements, allowing organisations to create a comprehensive gas detection network from a single supplier.
Tunnel environment and machine monitoring
We also provide real-time tunnel environment monitoring and machine monitoring, both of which can be used for local monitoring and control or for relay to a central control room. Also, for tunnel boring machine operations, we have completely modular solutions that range from simple SIL 2 (Safety Integrity Level) compliant integrated gas detection systems, through to predictive maintenance and monitoring systems.
Using these solutions, organisations can monitor tunnel conditions – humidity, gas, dust, airflow – and the status of tunnel boring machines for predictive maintenance.
Mineral Processing Trial Review
Trolex’s Air XD was trialled at a mineral processing site involved in refining and packing crystalline silica and enabled the customer to monitor their milling process where respirable crystalline silica (RCS) was generated.
Process leakage identified via remote monitoring
Learn how real-time monitoring of the particulates generated by the milling process has enabled effective remote detection of process leaks, allowing this customer to protect their personnel.
Highly accurate measurement technology that brings lab-grade precision to a field-ready unit.
Intelligent and fully automated dust suppression systems with real-time data of dust levels.
Highly flexible, rapidly deployable, multi-parameter fixed gas detection systems.
Trolex specializes in highly flexible, rapidly deployable, multi-parameter environmental monitoring and control systems.
Forty-seven percent of employers think that employee wellbeing has a direct impact on their business performance – especially in hazardous industries. But what can your organisation do to proactively reduce long-term health issues in hazardous environments and gas and dust inhalation? Download our eBook, Changing the Emphasis from Worker Safety to Health, to find out more: