With the advancement of technology, we provide the energy storage and the use of portable energy commonly with Lithium-Ion (Li-ion) batteries.
Li-ion batteries are included in the energy storage systems, electric vehicles and many technological products for which portable energy is required. While using Li-ion batteries for lower carbon emissions, it is necessary to take into consideration certain risks.
The batteries which are not located in a proper storage or which are transported without taking sufficient safety measures have risk of damage and fire at high level. The gases which are released from a battery which has been damaged by mechanical, electrical or thermal causes may cause a rapidly rising and destructive fire by leading to an exothermic reaction after reaching a specific density.
The fire detection systems cannot detect gas leakage from damaged Li-ion batteries because no heat or smoke has been emitted yet. We can detect this gas mixture which also cannot be detected by other gas detection systems well in advance with Li-ion Tamer.
Li-ion Tamer has 3 reference sensors and 12 calibration-free detection sensors. While the reference sensors are positioned at the locations where there are fresh air inlets, the detection sensors are positioned close to the rack, cabinet, return grills or points where detection is required. By this means, leakage is detected by determining the difference between two air qualities.
It is ensured that the necessary measures are taken before the occurrence of fire by transmitting the details of the alarm generated as a result of the detection to the other systems via digital relay output, RS232-ModBus or TCP-IP.
Li-ion Tamer meets NFPA 855 4.2.9.2, NFPA 855 9.3, UL 2075 and IEC 610101 standards.