Yokogawa Industry Solutions’ Post

Smouldering coal takes on average 16 to 24 minutes to erupt into a flame, which could set off a material fire or even an explosion. Our fibre optic distributed temperature sensing (DTS) will detect smouldering coal ahead of conventional gas or infrared detectors as the cable sensors are not compromised by high airflow. This advanced technology provides early warning of an impending fire, enabling you to take action and avoid an irreversible fire event. Read more in our latest blog: 🌐 https://lnkd.in/gV-YAHBp #SafetySolutions #EarlyDetection #FirePrevention

DTSX is a unique and innovative temperature monitoring system that uses fiber optic cables as temperature sensors. As one case, we introduce issues related to fire detection in tunnels. Fire detection in a tunnel is critical in preventing catastrophic damage to infrastructure, injury, death, and severe economic consequences. Therefore, it is essential to detect fires and their locations as soon as they break out. Additionally, detection systems must withstand harsh conditions of dirt, smog, corrosion, and high humidity. The capability to monitor a fire’s vector is also needed for effective firefighting. Those capabilities help to ensure safety and the optimal fire mitigation in a tunnel. The DTSX fiber-optical temperature monitoring solution accurately measures and locates any occurrence of damaging heat over the length of the fiber. Learn more > https://lnkd.in/gN37wiCy #firedetection #fiberopticcable #temperaturemonitoring #tunnel #predictivemaintenance

Lios Sensing Technology offers accurate fire detection on Conveyor Belts applications, tunnels etc Depending on application the system measures upto 1000°C, in that regard it is very ideal for hazardous environments With Lios detect you prevent a worst case scenario from happening since it's a proactive system rather than a reactive system...

These thermal images display the terminal temperature of Line T both before and after tightening over an 18-minute period, revealing a significant decrease of 5.3°C. Use this data to emphasize to your team the critical importance of ensuring secure electrical connections.

Fiber optical cables in fire alarm system

Thermal Protection for Cast Resin Transformers Monitoring Winding Temperature Many cast-resin transformers are equipped with resistance temperature detectors (RTDs) for monitoring temperatures in the low-voltage windings. RTDs, however, cannot be inadequately insulated for use in high voltage windings. OSENSA’s PWR+ cast resin fiber optic temperature sensors are inherently safe and rated for transformer monitoring up to 38kV. https://lnkd.in/gSi6ZqC6

Lios Sensing Technology offers accurate fire detection on Conveyor Belts applications, tunnels etc Depending on application the system measures upto 1000°C, in that regard it is very ideal for hazardous environments With Lios detect you prevent a worst case scenario from happening since it's a proactive system rather than a reactive system...

#125_Fire_Alarm_Circuit 1. Smoke Sensor: There are different types of smoke sensors available, such as optical smoke sensors (which use infrared light to detect smoke particles) or ionization smoke sensors. 2. Power Source: Typically, smoke detectors use batteries for power, as they need to be operational even during power outages. 3. Alarm: The alarm can be a buzzer, a speaker, or a flashing LED, depending on the design and requirements. 4. Control Circuitry: The control circuitry is responsible for processing the signal from the smoke sensor and activating the alarm. Resistors and capacitors may be used to adjust sensitivity or provide timing functions. 5. Interconnectivity: In some setups, multiple smoke detectors are interconnected so that when one detects smoke, all alarms in the system are activated. This enhances safety by ensuring that occupants are alerted even if the smoke is detected in a different area of the building. #firesafety #smoke #buildingdesign #ehs #detectors #ehsmanagement

A motion detector using a Passive Infrared (PIR) sensor detects infrared radiation emitted by humans and animals. When motion is detected, the PIR sensor generates a signal that triggers an action, such as turning on lights or activating an alarm system. PIR sensors are commonly used for security systems, automatic lighting, and energy efficiency applications due to their sensitivity to human heat signatures. They work by detecting changes in the infrared radiation patterns within their field of view, making them effective for detecting movement in indoor and outdoor environments.