Thermal runaway

Empowering the Future: Global Electric Vehicle Insulation Market Analysis: BCC Research

Retrieved on: 
Tuesday, February 6, 2024
Policy, COVID-19, ESG, Table, Electronics, IEA, Research, Wind, Explosion, Fire, International Energy Agency, Transport, Environment, Climate change, Safety, Material, Longevity, Temperature, Carbon, Investment, Thermal runaway, EVS, Renewable energy

BOSTON, Feb. 6, 2024 /PRNewswire/ -- "According to the latest research study, the demand for Global Electric Vehicle Insulation Market grow from $3.1 billion in 2023 and is estimated to increase from $9.1 billion in 2028, at a compound annual growth rate (CAGR) of 24.4% from 2023 to 2028."

Key Points: 
  • The Global Electric Vehicle Insulation Market is all about making electric cars better.
  • Unveiling emerging technologies, ESG considerations, and regulatory landscapes, our report is your guide to understanding the electric vehicle insulation market.
  • Stay ahead of the curve with our comprehensive and accessible report on the electric vehicle insulation market.
  • Driving forces behind the global electric vehicle insulation market's growth comprise:
    Investments in EVs-have witnessed a substantial uptick as the world pivots towards sustainable mobility.

UPDATE: SimpliPhi Power Passes UL 9540A Fire Safety Testing at Cell, Battery and Unit Level – Demonstrating High Degree of Safety

Retrieved on: 
Thursday, December 16, 2021
Lithium, Fire, Solution, DC, AC, Central Library (Brooklyn Public Library), Briggs, Thermal runaway, BMS, Death, Cell, Explosion, AHJ, Safety, U.S. Consumer Product Safety Commission, NRTL, Electronics, Growth, Parkerizing, Access, Chemistry, Temperature, LFP, UL, CEO, Authority, Goal, C&I, PHI, Consumer Product Safety Improvement Act, Battery management system, GLOBE, Bloomberg L.P., CA, Battery, Compliance, Architecture, Renewable energy, Electric battery, Unit

These test results affirm the inherent safety and performance advantages of using SimpliPhi Powers award-winning energy storage systems designed and built with the lithium ferro phosphate (LFP) battery chemistry in Oxnard, California.

Key Points: 
  • These test results affirm the inherent safety and performance advantages of using SimpliPhi Powers award-winning energy storage systems designed and built with the lithium ferro phosphate (LFP) battery chemistry in Oxnard, California.
  • Although we attained UL 9540A PHI battery module fire-safety testing as of June 2021, we werent satisfied with only module level testing.
  • SimpliPhi products, manufactured in California, have over a decade of demonstrated safety and performance due to their proprietary manufacturing processes, materials and inherently safe chemistry.
  • Von Burg reinforces, "Safety and transparency by battery manufacturers are critical to the growth of the energy storage market.

SimpliPhi Power Passes UL 9540A Fire Safety Testing at Cell, Battery and Unit Level – Demonstrating High Degree of Safety

Retrieved on: 
Thursday, December 16, 2021
Lithium, Fire, Solution, DC, AC, Central Library (Brooklyn Public Library), Briggs, Thermal runaway, BMS, Death, Cell, Explosion, AHJ, Safety, U.S. Consumer Product Safety Commission, NRTL, Electronics, Growth, Parkerizing, Access, Chemistry, Temperature, LFP, UL, CEO, Authority, Goal, C&I, PHI, Consumer Product Safety Improvement Act, Battery management system, GLOBE, Bloomberg L.P., CA, Battery, Compliance, Architecture, Renewable energy, Electric battery, Unit

These test results affirm the inherent safety and performance advantages of using SimpliPhi Powers award-winning energy storage systems designed and built with the lithium ferro phosphate (LFP) battery chemistry in Oxnard, California.

Key Points: 
  • These test results affirm the inherent safety and performance advantages of using SimpliPhi Powers award-winning energy storage systems designed and built with the lithium ferro phosphate (LFP) battery chemistry in Oxnard, California.
  • Although we attained UL 9540A PHI battery module fire-safety testing as of June 2021, we werent satisfied with only module level testing.
  • SimpliPhi products, manufactured in California, have over a decade of demonstrated safety and performance due to their proprietary manufacturing processes, materials and inherently safe chemistry.
  • Von Burg reinforces, "Safety and transparency by battery manufacturers are critical to the growth of the energy storage market.

Solid Ultrabattery Releases Preliminary Test Data on the Safety of its Lithium-Metal Battery Solid State Electrolyte

Retrieved on: 
Tuesday, July 6, 2021
Chemistry, Battery electricity), Physical sciences, Battery, Separator, Lithium-ion battery, Lithium, Thermal runaway

The CMC-1 SSE was thermal tested against a commercial polymeric separator which is typically found in todays competitor lithium-ion battery technology.

Key Points: 
  • The CMC-1 SSE was thermal tested against a commercial polymeric separator which is typically found in todays competitor lithium-ion battery technology.
  • The commercial polymeric membrane was observed losing structural integrity at 120C and subsequently appeared to disintegrate by 200C.
  • A higher level of product safety can be realized as this configuration will substantially lower the probability of thermal runaway.
  • The CMC-1 SSE batteries will enable battery pack designers to employ lower cost thermal management strategies for failsafe operation of our lithium metal battery.

Huawei SmartLi UPS Wins Finalist in "Best of Show Award" at Interop Tokyo 2021

Retrieved on: 
Tuesday, April 20, 2021
Chemistry, Physical sciences, Natural sciences, Lithium, Huawei, Interop, Uninterruptible power supply, Thermal runaway

b'TOKYO, April 20, 2021 /PRNewswire/ -- On April 14, at Interop Tokyo 2021, Huawei SmartLi UPS Wins Finalist in "Best of Show Award".

Key Points: 
  • b'TOKYO, April 20, 2021 /PRNewswire/ -- On April 14, at Interop Tokyo 2021, Huawei SmartLi UPS Wins Finalist in "Best of Show Award".
  • Additionally, SmartLi takes active current equalization technology that enable hybrid use of old and new batteries.
  • Huawei introduced the SmartLi UPS to the exhibition area to supply power to onsite demonstration devices, ensuring the interconnection of devices from multiple vendors in the exhibition area.
  • At Interop Tokyo 2021, Huawei SmartLi UPS has showed its strength.\nHuawei SmartLi UPS using Lithium Iron Phosphate, which is more stable and it eliminates routine inspection, generates no oxygen and fire in the case of thermal runaway, and hence it is more reliable.

Blackstone’s Solid-State Battery Project Receives Grant from Innosuisse

Retrieved on: 
Monday, December 7, 2020
Other Energy, Mining, Minerals, Manufacturing, Energy, Natural Resources, Other Manufacturing, Battery electricity), Physical sciences, Natural sciences, Rechargeable batteries, Solid-state battery, Electric battery, Solid-state electrolyte, Battery, Thermal runaway, Electrolyte, : Swiss Federal Laboratories for Materials Science and Technology (Empa), : Bern University of Applied Sciences (BFH)

The project aims to develop solid-state electrolytes and the grant will be used to co-finance a sophisticated manufacturing simulation of 3D-printed solid-state batteries.

Key Points: 
  • The project aims to develop solid-state electrolytes and the grant will be used to co-finance a sophisticated manufacturing simulation of 3D-printed solid-state batteries.
  • A solid-state battery can provide repeated, reliable and safe discharges without the potential risk of thermal runaway, explosion or outgassing during frequent use.
  • This means that it can be used within areas and constructions that were previously unthinkable for other battery types.
  • Combined with Blackstone's access to battery materials, these disruptive ventures form a solid basis for the company to deliver competitive cell production in Europe.

NeoVolta NV14 Outshines the Competition with Safety, Performance and Compatibility

Retrieved on: 
Wednesday, November 11, 2020
Battery types, Physical sciences, Chemistry, Rechargeable batteries, Lithium-ion batteries, Chemical elements, Phosphates, Grid energy storage, Lithium iron phosphate, Thermal runaway, Lithium, Electric battery

Its innovative NV14 system uses lithium iron phosphate chemistry, which is cobalt-free and does not have the same thermal runaway concerns.

Key Points: 
  • Its innovative NV14 system uses lithium iron phosphate chemistry, which is cobalt-free and does not have the same thermal runaway concerns.
  • Solar batteries come with all kinds of specifications, but these are the two most important performance indicators.
  • The NeoVolta NV14s high capacity of 14.4 kWh can power a home longer than most competitors due to higher capacity.
  • The NeoVolta NV14 allows homeowners to save on their utility bill and still have battery power for a grid outage.

Soteria Battery Innovation Group Signs Exclusive License and Option for a Battery Safety Technology by Oak Ridge National Laboratory

Retrieved on: 
Wednesday, September 30, 2020
Science and technology in the United States, Articles, Chemical reaction engineering, Electronic engineering, Hazards, Thermal runaway, Oak Ridge National Laboratory, Science and technology

The technology complements Soteria's existing battery safety technology.

Key Points: 
  • The technology complements Soteria's existing battery safety technology.
  • This can minimize the associated generated heat and avoid thermal runaway, or uncontrolled increasing temperature, thus rendering the battery safe.
  • "This technology can dramatically improve battery safety upon mechanical, thermal and electrical damage," said ORNL's Jianlin Li, a principle investigator of the technology.
  • Soteria's consortium consists of over 70 participants including Oak Ridge National Laboratory, NASA, Mercedes, DuPont, Motorola, Bosch and Applied Materials.

KULR Technology Group Discusses Second-Quarter Results

Retrieved on: 
Thursday, August 20, 2020
Physical sciences, Chemistry, Natural sciences, Lithium-ion battery, OTC Markets Group, Thermal runaway, KULR-TV, Lithium

SAN DIEGO, Aug. 20, 2020 (GLOBE NEWSWIRE) -- KULR Technology Group, Inc. (OTCQB: KULR) (the Company or KULR), a leading developer of next-generation thermal management technologies, has made its Second Quarter 2020 shareholder update and management's discussion of the recently filed financial results, conducted at 4:30pm EDT on August 18, 2020, available for replay at https://kulrtechnology.com/category/presentations .

Key Points: 
  • SAN DIEGO, Aug. 20, 2020 (GLOBE NEWSWIRE) -- KULR Technology Group, Inc. (OTCQB: KULR) (the Company or KULR), a leading developer of next-generation thermal management technologies, has made its Second Quarter 2020 shareholder update and management's discussion of the recently filed financial results, conducted at 4:30pm EDT on August 18, 2020, available for replay at https://kulrtechnology.com/category/presentations .
  • KULR was also awarded a patent on its Thermal Runaway Shield, which reduces hazardous risks associated with thermal runaway in lithium-ion battery packs.
  • Announced licensing agreement with Americase for use of KULRs PPR technology and supply of core materials for Americases patent-pending battery bag.
  • KULR Technology Group, Inc. (OTCQB: KULR) develops, manufactures and licenses next-generation carbon fiber thermal management technologies for batteries and electronic systems.

UL Fire Safety Testing Confirms Cadenza Innovation’s Battery Design Prevents Thermal Propagation in Grid Energy Storage Applications

Retrieved on: 
Wednesday, August 5, 2020
Physical sciences, Chemistry, Natural sciences, Fire prevention, Chemical reaction engineering, Electronic engineering, Hazards, Thermal runaway, Supercell, Fire safety, Helium

Specifically, UL9540A evaluates the fire safety hazards associated with propagating thermal runaway and the amount of flammable gases created during such thermal runaway.

Key Points: 
  • Specifically, UL9540A evaluates the fire safety hazards associated with propagating thermal runaway and the amount of flammable gases created during such thermal runaway.
  • The Cadenza supercell, when subjected to the UL9540A test, does not exhibit cell to cell fire propagation seen in other systems.
  • In addition, the volume of flammable gases is significantly reduced when compared to other battery systems in the industry.
  • Notably, the supercells unique design helps reduce the balance of system costs which, in turn, paves the way for more cost-effective energy storage installations.