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3 Emerging Trends Automotive Engineering - ASME OSU CAR battery aging laboratory Image: OSU CAR Battery Systems Battery management systems are being designed to meet performance, life, and warranty goals for both batteries and their monitoring and management systems
Battery Storage is Booming - ASME U S Battery Storage Capacity (2015-2025) Gigawatts As more capacity becomes available to the grid, battery storage projects will be larger The 250-MW Gateway Energy Storage System in California began operating in 2020 and represents the beginning of large-scale battery installation, according to EIA By 2025, developers plan more than 23
Energy Storage Smooths the Duck Curve - ASME The utility turned to battery storage In January 2017, utility officials opened two 10-MW battery systems supplied by Tesla at its Mira Loma substation that can store 80 MWh of renewable energy, one of the largest battery storage projects in the country
Dawn of the Lithium-Ion Battery Era - ASME To enable market penetration, battery vendors have had to deliver systems with superior performance (cycle life, degradation, etc ) and lower costs Lithium-ion’s high energy densities, both by volume and mass, have made it the chemistry of choice for the majority of automotive applications where both size and weight are critical
10 NANOTECHNOLOGY APPLICATIONS OF NANOTECHNOLOGY - ASME battery systems, thermoelectric materials, tires with lower rolling resistance, high-efficiency low-cost sensors and electronics, and fuel additives for cleaner exhaust and extended range AUTOMOTIVE TECHNOLOGY CHEMICAL CATALYSTS COMPOSITE MATERIALS INFRASTRUCTURE SENSING WATER FILTRATION CHEMICAL DETECTION SOLAR CELLS SMART FABRICS FLEXIBLE
Ramin Salemi, Ph. D. - ASME Dr Ramin Salemi has: Considerable experience in the Computational Fluid Dynamics analysis of turbine blade cooling, polymer processing, building aerodynamics, building ventilation, automotive components and systems design, underhood airflow for off-highway vehicles, cavitation in fuel injectors and battery thermo-electrical behavior
How to Destroy Lithium-Ion Batteries? - ASME A researcher sets a battery in a steel tray bolted to a load cell that will measure the impact force at the base of the tower as a weight of at least 200 pounds is released from above The push of a button unleashes the weight Gravity takes over Wires connected to the battery and the tower measure speed, force, temperature, and voltage
New Ways to Recycle Lithium from Old Batteries - ASME The Recell model will help Argonne scientists and NEMA experts assess the amount of extractable and recyclable material in various battery systems Big Business, Little Reporting Verifying how much material from the batteries was recycled in 2020, or any of the past years, is difficult because the recycling and reuse industries can be secretive
Battery-Based Desalination Made Possible - ASME “In principle, if a battery uses some kind of material inside it to absorb sodium, there should be some means of leveraging that mechanism to do desalination,” Smith said Similar Reading: Optimized Electrodialysis for Wastewater For years Smith has been working with the dye to create a desalinating battery
Energy Storage- The Future of ASME Standards - ASME The TES Standards Committee published the second edition of TES-1, Safety Standards for Thermal Energy Storage Systems: Molten Salt in December 2023 The Committee has formed a subordinate group called the TES-2 Committee to develop the draft of TES-2, Safety Standard for Thermal Energy Storage Systems: Phase Change The TES-2 Committee is now