Monday, August 16, 2021

Visible Notification – One Strobe or Four?

Visible Notification – One Strobe or Four? 

NFPA 72, National Fire Alarm and Signaling Code, covers notification requirements in Chapter 18.     Audible notification (horns, speakers, chimes) are performance based. NFPA 72 requires 15dBA above average ambient for public mode notification but does not state specific device spacing or sound level requirements. As long as the minimum sound level requirements are met, the code is not concerned with how many devices are used or how they are spaced to meet the requirements.

Visible notification requirements in Chapter 18 are prescriptive. Using the tables in Chapter 18, the design determines strobe candela intensity requirements based the location of the strobe (wall or ceiling) and size of the room. If wall mount strobes are used, candela requirements are based on whether one or four strobes are used. If ceiling mount strobes are used, candela requirements are based on ceiling height.

Examples of the tables are below:

Since the Code permits multiple methods of achieving the visible notification requirements, it becomes the designer’s decision of what method to use.  

Let’s take a sample room – 50’ x 50’.  According to the tables, our options are using 1 or 4 wall mount strobes, or one ceiling mount strobe. If we use wall mount, we can use 4 – 30cd strobes, or 1-94cd strobe. If we use ceiling mount, we 1-95cd strobe for a ceiling up to 30 feet.

If the designer considers labor costs, it basically costs four times the labor to install 4 wall mount strobes, versus 1 wall or ceiling mount. The counter-argument may be that 30cd strobes have a lower current draw than a 94/95cd strobe.

However, a single strobe (wall or ceiling mount) may be the most economical option. Here’s why:
A typical 30cd strobe draws around 75ma, and since four are required, the total draw to cover the room is 300ma (4 x 75ma). However, a single 95cd strobe draws around 150ma. Single wall mount strobe at 95cd draws half the current of 4 – 30cd strobes and requires one-quarter the labor (1 device vs. 4) to install.
The above example also works for a single ceiling mount strobe as well. A 50’ x 50’ room requires a 95cd ceiling mount strobe for a ceiling up to 30’. The typical current draw of a 95cd ceiling strobe is around 175ma. More than a wall mount, but still significantly less than 4-30cd wall mount strobes.

Edwards Genesis LED G4 Series horns and LED strobes feature a sleek low profile design and energy-efficient technology that makes them less expensive to install and operate by reducing overhead. Field-configurable sound output levels provide the flexibility modern life safety projects demand, while the Genesis LED control protocol keeps multiple strobes on compatible NAC circuits synchronized to well within NFPA 72 requirements. Operating current for Horns is 18-20mA. SSA Integrate is authorized to provide service support of Edwards’s series panel with field devices.


Sunday, August 1, 2021

Flame Detector Testing

Flame Detector Testing

Most fire detection technology focuses on detecting heat, smoke (particle matter) or flame (light) – the three major characteristics of fire. All of these characteristics also have benign sources other than fire, such as heat from steam pipes, particle matter from aerosols, and light from the sun. Other factors further confound the process of fire detection by masking the characteristic of interest, such as air temperature, and air movement.

In addition, smoke and heat from fires can dissipate too rapidly or accumulate too slowly for effective detection. In contrast, because flame detectors are optical devices, they can respond to flames in less than a second. This optical quality also limits the flame detector as not all fires have a flame. As with any type of detection method its use must match the environment and the risk within the environment.

Typical applications for optical flame detectors are;

§  Wherever highly combustible materials are involved

§  Where there is a need for instantaneous response to flame

§  Wherever unsupervised areas require automated fire protection

§  Where there is a large capital investment to be protected

Portable UV/IR Flame Detector Test Lamp
Portable UV/IR Flame Detector Test Lamp
Examples of actual installations are;

§  Gasoline transport loading terminals

§  Pipeline pumping stations

§  Refineries

§  Aircraft hangers

§  Automotive paint spray booths

§  Munitions production facilities

§  Jet engine test cells

§  Offshore drilling and production platforms

Before starting the job, take the proper work permit and inform to all the respective departments. Then do force the respective logics or interlocks if any (like fire suppression systems activation etc)

§  Prior to testing of Flame Detector we should check LED Visibility of the Flame Detector. It should be blinking green. This can be seen on the flame Detector.

§  Check the + 24 Volts DC Supply of the Flame Detector between + and – terminal of the Flame Detector.

§  Take UV / IR Testing Torch for testing of Flame Detector.

§  Before applying UV / IR rays to the Flame Detector, clean the detectors display by cotton cloth. It should be always cleaned for detecting the UV / IR rays. Otherwise Fault LED indication appears.

§  Apply the UV /IR rays from UV / IR torch to the Flame detector.

§  Resolution can be adjusted for the torch for checking the detector from short and long distance.

§  After 3 seconds alarm appears and hooter is activated.

§  Flame detectors Red LED indication will be ON (steady Red).

§  Acknowledge the Flame detector’s alarm & silence the hooter.

§  Note down the alarm tag and descriptions from the HMI or workstation. The alarm details must match with the flame detector tag number and installed location.

§  Confirm the flame detector activation status from the respective graphics page. You have to visually identify the color change signals of the respective flame detector on the graphics.

§  Remove the UV / IR test torch.

§  Reset the alarm of the Flame Detector. Now Red LED Indication is off.

§  Now the Flame Detector is working OK and Green LED indication is blinking.

§  Repeat the above procedure for all the remaining flame detectors.

§  Normalize the forced interlocks or logics if any.

§  Close the work permit.

Note: The mentioned voltages, terminals, LED colors may vary as per the vendor or model of the Flame Detector.