Protect Li-ion battery energy storage where and when it’s needed.
Lithium-ion (Li-ion) batteries are key to utility-scale, Battery Energy Storage Systems (BESSs). They are fundamental to the ongoing transition to greener and smarter power grids.
Without appropriate safety measures, Li-ion batteries can pose a serious fire risk: thermal runaway, an event that quickly escalates into a potentially destructive fire.
Existing fire safety standards and fire protection technologies are often not enough. They are designed to mitigate, rather than prevent fire, and are not designed to specifically detect the early signs of thermal runaway. Li-ion Tamer® overcomes these limitations.
Li-ion electrolyte solvent vapors, also known as off-gases, are the earliest signs of battery failure preceding thermal runaway. Li-ion Tamer detects these vapors, alerts BESS operators immediately, and triggers an automated response to prevent the occurrence of thermal runaway. This way, the BESS can continue delivering power safely where and when needed.
PROTECT YOUR OPERATION, PREVENT THERMAL RUNAWAY
Learn how electrolyte solvent vapor detection (off gas detection) can help you reduce the fire risks associated with Li-ion BESSs. Read our Ultimate Guide to gain valuable insight into:
- Main causes and consequences of thermal runaway
- Fire detection challenges associated with Li-ion BESSs
- How to leverage off-gas detection to help prevent thermal runaway events
GET THE GUIDE
Download the Ultimate Guide to Lithium-ion Battery Storage.
GLOBAL LI-ION BESS FAILURES
Li-ion batteries can and do cause destructive fires without proper safety measures or advanced electrolyte vapor detection technologies like Li-ion Tamer. The Electric Power Research Institute (EPRI's) BESS Failure Event Database has documented where these fires have happened globally.View the Database
LI-ION BESS FIRE RISKS AND HOW TO OVERCOME THEM
Learn more about the risks thermal runaway poses to BESSs and how to mitigate them effectively.
UNLOCK SAFER, MORE EFFICIENT POWER
Discover what happens inside a Li-ion BESS during thermal runaway and find out how an early warning can help to prevent a disaster.
XTRALIS' LI-ION TAMER GEN 3: A BETTER, SAFER WAY OF BESS FIRE DETECTION
PROTECT YOUR OPERATION, PREVENT THERMAL RUNAWAY
Learn how electrolyte solvent vapor detection (off gas detection) can help you reduce the fire risks associated with Li-ion BESSs. Read our Ultimate Guide to gain valuable insight into:
- Main causes and consequences of thermal runaway
- Fire detection challenges associated with Li-ion BESSs
- How to leverage off-gas detection to help prevent thermal runaway events
GET THE GUIDE
Download the Ultimate Guide to Lithium-ion Battery Storage.
GLOBAL LI-ION BESS FAILURES
Li-ion batteries can and do cause destructive fires without proper safety measures or advanced electrolyte vapor detection technologies like Li-ion Tamer. The Electric Power Research Institute (EPRI's) BESS Failure Event Database has documented where these fires have happened globally.View the Database
LI-ION BESS FIRE RISKS AND HOW TO OVERCOME THEM
Learn more about the risks thermal runaway poses to BESSs and how to mitigate them effectively.
UNLOCK SAFER, MORE EFFICIENT POWER
Discover what happens inside a Li-ion BESS during thermal runaway and find out how an early warning can help to prevent a disaster.
XTRALIS' LI-ION TAMER GEN 3: A BETTER, SAFER WAY OF BESS FIRE DETECTION
Managing the potential fire risk associated with BESSs is vital for creating safer and reliable operations. The optimum method to effectively address this is electrolyte vapor detection.
ELIMINATE RISKS WITH EARLY WARNING
The complex design of Li-ion BESSs presents numerous challenges to effective fire detection and suppression. The latest electrolyte solvent vapor detection can help resolve them, optimizing safety and uptime. The Li-ion Tamer® Design Guide outlines how to optimize detection tailored to individual BESS rack designs, layouts and ventilation configurations.
The Guide will help you understand:
- Key standards and regulations related to BESS fire safety
- What you need to consider to optimize electrolyte solvent vapor detection
- Common issues experienced when installing the detectors
GET THE GUIDE
Download the Xtralis Li-ion Tamer Design Guide.
KEY STEPS TO OPTIMIZING EARLY DETECTION IN BESS
From external air entry points to battery rack designs, many elements can potentially compromise electrolyte vapor detection and put a BESS at risk. Learn the main issues and discover simple steps to manage them.
GORE STREET CAPITAL CUSTOMER SUCCESS STORY
Learn how renewable energy investment manager Gore Street Capital successfully reduced thermal runaway risk at a large BESS facility in Germany, securing favorable insurance coverage and ensuring compliance with future regulations.
AENTRON CUSTOMER SUCCESS STORY
Discover how aentron, a developer and manufacturer of turnkey energy storage systems for industry and mobility applications, used Li-ion Tamer detection to optimize the safety of its solutions.
ELIMINATE RISKS WITH EARLY WARNING
The complex design of Li-ion BESSs presents numerous challenges to effective fire detection and suppression. The latest electrolyte solvent vapor detection can help resolve them, optimizing safety and uptime. The Li-ion Tamer® Design Guide outlines how to optimize detection tailored to individual BESS rack designs, layouts and ventilation configurations.
The Guide will help you understand:
- Key standards and regulations related to BESS fire safety
- What you need to consider to optimize electrolyte solvent vapor detection
- Common issues experienced when installing the detectors
GET THE GUIDE
Download the Xtralis Li-ion Tamer Design Guide.
KEY STEPS TO OPTIMIZING EARLY DETECTION IN BESS
From external air entry points to battery rack designs, many elements can potentially compromise electrolyte vapor detection and put a BESS at risk. Learn the main issues and discover simple steps to manage them.
GORE STREET CAPITAL CUSTOMER SUCCESS STORY
Learn how renewable energy investment manager Gore Street Capital successfully reduced thermal runaway risk at a large BESS facility in Germany, securing favorable insurance coverage and ensuring compliance with future regulations.
AENTRON CUSTOMER SUCCESS STORY
Discover how aentron, a developer and manufacturer of turnkey energy storage systems for industry and mobility applications, used Li-ion Tamer detection to optimize the safety of its solutions.
Li-ion Tamer helps you protect people, property and your brand from the risks associated with thermal runaway, allowing ongoing reliable power supply.
SEE LI-ION TAMER IN ACTION
Check out how Li-ion Tamer electrolyte vapor detection helps protect a typical containerized BESS against the catastrophic effects of thermal runaway.
CHOOSE TO MAKE GREEN POWER, SAFE POWER
The Li-ion Tamer GEN 3 system provides the earliest possible warning of thermal runaway, enabling users to reduce the risk and create safer and more efficient operations.
SEE LI-ION TAMER IN ACTION
Check out how Li-ion Tamer electrolyte vapor detection helps protect a typical containerized BESS against the catastrophic effects of thermal runaway.
CHOOSE TO MAKE GREEN POWER, SAFE POWER
The Li-ion Tamer GEN 3 system provides the earliest possible warning of thermal runaway, enabling users to reduce the risk and create safer and more efficient operations.
PROTECT YOUR OPERATION, PREVENT THERMAL RUNAWAY
Learn how electrolyte solvent vapor detection (off gas detection) can help you reduce the fire risks associated with Li-ion BESSs. Read our Ultimate Guide to gain valuable insight into:
- Main causes and consequences of thermal runaway
- Fire detection challenges associated with Li-ion BESSs
- How to leverage off-gas detection to help prevent thermal runaway events
GET THE GUIDE
Download the Ultimate Guide to Lithium-ion Battery Storage.
GLOBAL LI-ION BESS FAILURES
Li-ion batteries can and do cause destructive fires without proper safety measures or advanced electrolyte vapor detection technologies like Li-ion Tamer. The Electric Power Research Institute (EPRI's) BESS Failure Event Database has documented where these fires have happened globally.View the Database
LI-ION BESS FIRE RISKS AND HOW TO OVERCOME THEM
Learn more about the risks thermal runaway poses to BESSs and how to mitigate them effectively.
UNLOCK SAFER, MORE EFFICIENT POWER
Discover what happens inside a Li-ion BESS during thermal runaway and find out how an early warning can help to prevent a disaster.
XTRALIS' LI-ION TAMER GEN 3: A BETTER, SAFER WAY OF BESS FIRE DETECTION
PROTECT YOUR OPERATION, PREVENT THERMAL RUNAWAY
Learn how electrolyte solvent vapor detection (off gas detection) can help you reduce the fire risks associated with Li-ion BESSs. Read our Ultimate Guide to gain valuable insight into:
- Main causes and consequences of thermal runaway
- Fire detection challenges associated with Li-ion BESSs
- How to leverage off-gas detection to help prevent thermal runaway events
GET THE GUIDE
Download the Ultimate Guide to Lithium-ion Battery Storage.
GLOBAL LI-ION BESS FAILURES
Li-ion batteries can and do cause destructive fires without proper safety measures or advanced electrolyte vapor detection technologies like Li-ion Tamer. The Electric Power Research Institute (EPRI's) BESS Failure Event Database has documented where these fires have happened globally.View the Database
LI-ION BESS FIRE RISKS AND HOW TO OVERCOME THEM
Learn more about the risks thermal runaway poses to BESSs and how to mitigate them effectively.
UNLOCK SAFER, MORE EFFICIENT POWER
Discover what happens inside a Li-ion BESS during thermal runaway and find out how an early warning can help to prevent a disaster.
XTRALIS' LI-ION TAMER GEN 3: A BETTER, SAFER WAY OF BESS FIRE DETECTION
Managing the potential fire risk associated with BESSs is vital for creating safer and reliable operations. The optimum method to effectively address this is electrolyte vapor detection.
ELIMINATE RISKS WITH EARLY WARNING
The complex design of Li-ion BESSs presents numerous challenges to effective fire detection and suppression. The latest electrolyte solvent vapor detection can help resolve them, optimizing safety and uptime. The Li-ion Tamer® Design Guide outlines how to optimize detection tailored to individual BESS rack designs, layouts and ventilation configurations.
The Guide will help you understand:
- Key standards and regulations related to BESS fire safety
- What you need to consider to optimize electrolyte solvent vapor detection
- Common issues experienced when installing the detectors
GET THE GUIDE
Download the Xtralis Li-ion Tamer Design Guide.
KEY STEPS TO OPTIMIZING EARLY DETECTION IN BESS
From external air entry points to battery rack designs, many elements can potentially compromise electrolyte vapor detection and put a BESS at risk. Learn the main issues and discover simple steps to manage them.
GORE STREET CAPITAL CUSTOMER SUCCESS STORY
Learn how renewable energy investment manager Gore Street Capital successfully reduced thermal runaway risk at a large BESS facility in Germany, securing favorable insurance coverage and ensuring compliance with future regulations.
AENTRON CUSTOMER SUCCESS STORY
Discover how aentron, a developer and manufacturer of turnkey energy storage systems for industry and mobility applications, used Li-ion Tamer detection to optimize the safety of its solutions.
ELIMINATE RISKS WITH EARLY WARNING
The complex design of Li-ion BESSs presents numerous challenges to effective fire detection and suppression. The latest electrolyte solvent vapor detection can help resolve them, optimizing safety and uptime. The Li-ion Tamer® Design Guide outlines how to optimize detection tailored to individual BESS rack designs, layouts and ventilation configurations.
The Guide will help you understand:
- Key standards and regulations related to BESS fire safety
- What you need to consider to optimize electrolyte solvent vapor detection
- Common issues experienced when installing the detectors
GET THE GUIDE
Download the Xtralis Li-ion Tamer Design Guide.
KEY STEPS TO OPTIMIZING EARLY DETECTION IN BESS
From external air entry points to battery rack designs, many elements can potentially compromise electrolyte vapor detection and put a BESS at risk. Learn the main issues and discover simple steps to manage them.
GORE STREET CAPITAL CUSTOMER SUCCESS STORY
Learn how renewable energy investment manager Gore Street Capital successfully reduced thermal runaway risk at a large BESS facility in Germany, securing favorable insurance coverage and ensuring compliance with future regulations.
AENTRON CUSTOMER SUCCESS STORY
Discover how aentron, a developer and manufacturer of turnkey energy storage systems for industry and mobility applications, used Li-ion Tamer detection to optimize the safety of its solutions.
Li-ion Tamer helps you protect people, property and your brand from the risks associated with thermal runaway, allowing ongoing reliable power supply.
SEE LI-ION TAMER IN ACTION
Check out how Li-ion Tamer electrolyte vapor detection helps protect a typical containerized BESS against the catastrophic effects of thermal runaway.
CHOOSE TO MAKE GREEN POWER, SAFE POWER
The Li-ion Tamer GEN 3 system provides the earliest possible warning of thermal runaway, enabling users to reduce the risk and create safer and more efficient operations.
SEE LI-ION TAMER IN ACTION
Check out how Li-ion Tamer electrolyte vapor detection helps protect a typical containerized BESS against the catastrophic effects of thermal runaway.
CHOOSE TO MAKE GREEN POWER, SAFE POWER
The Li-ion Tamer GEN 3 system provides the earliest possible warning of thermal runaway, enabling users to reduce the risk and create safer and more efficient operations.
