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More Than Fast, Reliable Fire Detection: Fiber-Optic Distributed Temperature Sensing (DTS) Enables Fire Prevention and Fire Monitoring Speaker: Greg McElyea Americas Business Manager

Outline... • Introduction to fiber-optic distributed temperature sensing (DTS) technology • Technology comparison from point detectors to fiber-optic linear heat detection • Optimizing fire prevention in special hazardous facilities using DTS technology • Assessing fire monitoring in disastrous scenarios, providing vital information until the fire is extinguished AP Sensing Confidential

AP Sensing – Linear Heat Series Distributed Temperature Sensing (DTS) Fiber-optic Sensor Cable for Temperature Sensing Linear Heat Series DTS Instrument AP Sensing Confidential

2 std. MM telecom fibers Typical DTS System Setup Stainless steel tube Stainless steel wires Metal Sensor Cable FRNC Outer Sheath FRNC Outer Sheath Metal-free Sensor Cable Polyamide Fibers • PC = Personal Computer with DTS Configurator • FP = Fire Panel or SCADA System • UPS = Uninterruptable Power Supply or Battery Package • DTS = Distributed Temperature Sensing instrument 2 std. MM telecom fibers AP Sensing Confidential

DTS Measurement Technology Alarm Alarm Alarm • Zone concept enables different sections with different alarm criteria (sensitivity) • Up to 256 zones per sensor cable - configurable… • 3 different alarm types, 5 different criteria per zone - programmable… 70 70 70 60 60 60 50 50 50 40 40 40 > 15 ° C Temperature [°C] 30 30 30 avg. Temp > 13 ° C 20 20 20 40s 10 10 10 0 0 0 Time [s] 120 122 124 126 128 130 132 134 136 138 140 142 120 122 124 126 128 130 132 134 136 138 140 142 Distance [m] Distance [m] 0 Exeeding a maximum temperature Exeeding the average temperature Exeeding a temperature increase > 60 ° C by > 15 ° C within a certiain time > 13 ° C / 40s r AP Sensing Confidential

DTS Measurement Principle Measurement of temperature through the evaluation of the backscattered laser light components, stokes and anti-stokes DTS Instrument Raman Stokes 70°C Laser Detector -40°C Detector Raman Anti-Stokes Temperature-dependent lattice vibration Mirrors and Filters Pulse Generator Location = 2 * tR * vL Control, Acquisition & Analysis Circuitry AP Sensing Confidential

DTS - System Characteristics • Huge local coverage of up to 2x 8km length or 96,000m² area without blind spots • Fast measurement time of 10s and short spatial resolution of 1m • Quick and reliable alarming, virtuallyfalse-alarm free through 3 different, freely programmable alarm criteria and confirmation cycles in up to 256 zones • Exact localization and size of any thermal event along the sensor cable • Simple, lightweight, flexible, robust standard sensor cable, easy to install • Passive sensor cable, usable indoor and outdoor, absolutely immune to humidity, dirt, dust, smoke, corrosion, electromagnetic fields or radiation • The sensor has extremely long lifetime and is virtually maintenance-free • Low laser power of only 17mW, class 1M laser is inherently eye-safe • Fire certifications from VdS (A1 / A2 ~ 30 ft NFPA spacing), FM under way • Certified for explosive environments ATEX zone 0, gas and dust AP Sensing Confidential

Typical Applications • Power Plants • Parking Garages • Storage Facilities • Road- & Rail Tunnels • Supply Tunnels • Conveyor Belts • Cable Trays • False ceilings / floors / voids • Production Halls • Warehouses • Cold Stores • Floating Roof Tanks • Transformator / Generators • etc. • DTS is especially well suited for Fire Prevention, Fire Detection and Fire Monitoring • over long distances or large areas AP Sensing Confidential

Classification of “Linear Heat Detection” Systems Fire Detectors Point Detectors Linear detectors Smoke Heat Heat Smoke Smoke assp. Systems Opacimeter Pressure & Resistance Maximum & Differential Optical Detectors D T S - Systems Ionisation Detectors Flame Detection Multi-Point Systems LHD-Systems AP Sensing Confidential

System Comparison * Fire Monitoring Capabilities: System is capable to withstand temperatures up to 1000°C to provide crucial information about the development of the fire. AP Sensing Confidential

Fire Prevention A fiber-optic linear temperature sensor can help to detect a potential fire in its early development phase • Real time, continuous temperature monitoring of potential fire sources • Complete local coverage of long structures (like tunnels) or large areas (like big buildings) without “blind spots” • Pin-point alarm with exact temperature and location information enables quick intervention before the outbreak of a potential fire AP Sensing Confidential

Fire Prevention – Coal Conveyor Belts Example 1: Coal Conveyor Belts in Power Plants • Real time, continuous temperature monitoring of potentially hot running rollers and smoldering fires • Complete local coverage of long conveyor belts or a chain of multiple conveyor belts without “blind spots” • Early alarming with exact location information enables an early exchange of hot rollers or the extinction of smouldering fires caused e.g. by self-ignition of lignite dust • Alarm temperature has to be set relative to different day and night environmental temperatures • No way to detect fires with DTS on a fast moving belt (10…20ft/sec) ! AP Sensing Confidential

Fire Prevention – Cable Trays and Power Cables Example 2: Cable Trays, Cable Tunnels, Power Cables... • Real time, continuous temperature monitoring of cable trays, cable tunnels and power cables heating up under high current load • Complete local coverage of long cable trays or cable tunnels without “blind spots” • Early alarming with exact location information enabling the decrease of electrical current, the exchange of bad joint and splices, etc. • Local coverage can be increased by meandering the sensor cable • The temperature difference and the temperature delay between conductor and outside of the cable has to be considered 1m – 1,5m AP Sensing Confidential

Fire Prevention – Pipe and Tube Leakage Example 3: Leakage of Inflammable Liquids or Gases from Pipes and Tubes • Real time, continuous temperature monitoring of potentially leaking tubes and pipes, e.g. hydraulic oil • Complete local coverage of long pipes and tubes without “blind spots” • Early alarming with exact location information enables an early sealing of the leak and removal of a potential fire load In case of a gas pipe leakage a cold spot occurs (Joule Thomson effect). Leakages in a liquid pipe are typically recognized by a hot spot. AP Sensing Confidential

3D Visualization with AP Sensing’s Asset viewer AP Sensing Confidential

Tunnel Fire Tests in Sweden, Norway, Switzerland AP Sensing Confidential

Fire Monitoring - What does DTS Provide? T Radiation Heat Point of Fire • DTS provides: • Precise localization of the fire (2-4m) • Dynamic fire/smoke size assessment • Dynamic fire/smoke spreading assessment Convection Heat Smoke A A DTS Real Time Data X T Tunnel Wind Low wind speed B B High wind speed Smoke Spreading X DTS Real Time Data DTS reliably detects and localizes radiation and convection heat even under unfavorable conditions like wind AP Sensing Confidential

Fire Monitoring - Hidden Diesel Fire (HRR = 7.4MW) AP Sensing Confidential

Fire Monitoring - Hidden Diesel Fire (HRR = 7.4MW) OK to enter area “HotFoam” suppression Fire Monitoring 6 minutes Alarm after 50 seconds AP Sensing Confidential

Fire Monitoring – Functional Integrity of the Sensor Cable During the Fire Is Key! • Functional integrity tested and approved by IEC- standards • Temperature 750°C • Duration 2 hours • Result passed • The functional integrity over an extended period of time allows fire monitoring • and provides crucial information about fire / smoke development. AP Sensing Confidential

DTS - System Advantages • Huge local coverage without blind spots • Exact localization and size of an event • Quick and reliable alarming, safe against false-alarms • Low maintenance cost, simple installation, long lifetime • Passive sensor cable, insensitive to harsh environments, immune to interference • No laser safety problems AP Sensing Confidential

Reference Examples AP Sensing Confidential

References from the Mine to the Grid … Mining Storage Power Plant Power Transmission • Mining: Underground conveyer belt monitoring in ATEX Zone 0 (M1) / CH4 conditions • Storage: smoldering fire detection and hot spot localization • Power Plant: conveyer belts; storage facilities • Power Transmission: Power Cable Monitoring & Fire Detection (buried, ducts, overhead lines) AP Sensing Confidential

Germany: RAG – Conveyor Beltin Coal Mine • 5 Conveyers in coal mine with up to 8km of sensing cable on one conveyor • Zone 0 operation for instrument and sensor cable – Certification from Dekra/Exam • Approval from German Government to run system even under CH4 alarm and fiber break conditions for the time until sensor cable is repaired. • Further conveyers to be installed in the coming years AP Sensing Confidential

Spain: La Medusa – Dockside Coal Storage • Coal storage monitoring for smoldering fires • Capacity of 100.000 tons of coal • Fire on November 14th 2007, extinguishing took 4 days • 3 sensor cable rings are embedded in the wall • Dual ended configuration AP Sensing Confidential

Italy: ENEL – Brindisi – Coal Conveyor Belts in Power Plant • Smoldering fire detection underneathfully covered coal conveyor beltsin coal power plant • Total of 12.5km of sensor cable • Fully integrated into SCADA system • 2 controllers with 4 channels each • Loop configuration to continue monitoring even in case of cable break. AP Sensing Confidential

Thank you for your attention!Greg McElyea Americas Business ManagerOffice: 214-550-0677Cell: 214-471-3460Email: greg.mcelyea@apsensing.com AP Sensing Confidential 30

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