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Liquid Electrolytes in Electric Vehicle (EV) Battery Production
Global sales of electric cars accelerated quickly in 2020, rising by 43% to more than 3 million units whereas the overall car industry declined by 20%. The rise in electric car sales is being driven by government policies to reduce carbon emissions and two additional factors: 1. Electric cars continue to improve their technical performance in terms of autonomy, 2. There are more and more private and public recharging facilities in urban and rural areas
Global sales of electric cars accelerated quickly in 2020, rising by 43% to more than 3 million units whereas the overall car industry declined by 20%. The rise in electric car sales is being driven by government policies to reduce carbon emissions and two additional factors: 1. Electric cars continue to improve their technical performance in terms of autonomy, 2. There are more and more private and public recharging facilities in urban and rural areas
Lithium Hydroxide processing plant for EV Battery Production
The market demand for Lithium and other Li-ion battery raw materials has grown signifi cantly for the last decade. For a large number of applications, from electric vehicles to portable electronic devices, lithium-ion battery assembles have become the energy storage solution of choice. Lithium ion (Li-ion) battery cells are lightweight compared to other battery technology, which, combined with their relatively high energy density, makes them appropriate and potentially cost-effective for transport applications.
The market demand for Lithium and other Li-ion battery raw materials has grown signifi cantly for the last decade. For a large number of applications, from electric vehicles to portable electronic devices, lithium-ion battery assembles have become the energy storage solution of choice. Lithium ion (Li-ion) battery cells are lightweight compared to other battery technology, which, combined with their relatively high energy density, makes them appropriate and potentially cost-effective for transport applications.
Case Study: Condensate Stabilizer Protection
Case Study: Read how Pall PhaseSep colaescers have proven to be effective in protecting condensate stabilizers
Case Study: Read how Pall PhaseSep colaescers have proven to be effective in protecting condensate stabilizers
Case Study: Steam Cracker Protection
Case Study: Read how Pall PhaseSep colaescers ensure feedstock contaminants are removed to protect Steam Cracker in ethylene production plants
Case Study: Read how Pall PhaseSep colaescers ensure feedstock contaminants are removed to protect Steam Cracker in ethylene production plants
