Among various new energy automobiles, pure electric vehicles (PEVs) are widely developed by considering the advances in energy-saving capability, zero-emissions, reliability enhancement
Power battery is the key to the widespread use of pure electric vehicles. In this paper, patent mining and data analysis technology are adopted to summarize the development trend and main patentee of battery electric vehicle power battery patent technology. Combined with the patent text, the key technologies in the field of battery electric vehicle power battery in
The successful global diffusion of Tesla electric cars suggests that pure Li-Ion battery electric vehicles (BEVs) dominate other potential technologies (Long et al., 2019). Fuel cells are a relatively expensive, yet developing alternative power source for electrical vehicles. While BEV technology has received initial market validation, fuel cell vehicle (FCV) technology
The working principle of pure electric vehicle utilizes use of an electric machine (electric motor) utilizing an energy source (battery) by replacing the internal combustion engine (ICE) and the associated fuel tank, and the energy source of the vehicle gets recharged as they are used to regain their energy source [32,33,34,35].
When making pCAM, our fully patented processes emit up to 85% less CO2 than standard refining methods leading to electric vehicle (EV) batteries made with PBT''s cathode material being less CO2 intensive. PBT unlocks the value of previously less-viable nickel sources.
The company is in the business of manufacturing electric scooters and motorcycles under the brand "PURE EV". The company has set up a dedicated EV and battery manufacturing unit measuring over 1 lakh sqft and having a dedicated facility for R&D for EV powertrain development and testing. PURE is currently one of the leading EV2W brands in
Power battery is the key to the widespread use of pure electric vehicles. In this paper, patent mining and data analysis technology are adopted to summarize the development trend and
pure Electric vehicle power battery technology has entered a stage of rapid development. China''s development in the field of pure electric vehicle power battery technology is obviously later than that of foreign countries, but in recent years, the number of patent applications and authorizations in China has been roughly the same as the world
The research results show that China has entered a period of rapid technological development in the field of battery electric vehicle power battery, and its
Power battery is the key to the widespread use of pure electric vehicles. In this paper, patent mining and data analysis technology are adopted to summarize the development trend and main...
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The power characteristics and life-cycles of various types of lithium-ion batteries depending on the chemical nature of their electrodes are considered, using the example of commercial vehicles''—Tesla, Nissan Leaf, Porsche Taycan, Zeekr, and Chevrolet Volt—strategic technologies for the placement and packaging of batteries, and battery
Connecting pure electric vehicles to the smart grid (V2G) mitigates the impact on loads during charging, equalizes the load on the batteries, and enhances the reliability of the grid, managing these energy demands more intelligently and enabling better power delivery without compromising powertrain efficiency, effectively alleviating the energy
In this study, the characteristics and typical models of energy sources of pure electric vehicles are firstly described. Then the existing pure electric vehicle types are depicted
Other battery manufacturers such as Catl are also rumoure d to be developing batteries based on LMFP technology. 3) Solid state batteries. Solid state batteries have the potential to offer better energy density, faster charging times, a wider operating temperature range and a simpler, more scalable manufacturing process. There have been several
In the near future, electric vehicles will dominate the clean vehicle market. As shown in Table 4.1.1, the current major battery technology used in EVs is Li-ion batteries because of its mature technology. Due to the potential of obtaining higher specific energy and energy density, the adoption of Li-ion batteries is growing fast in EVs
In this study, the characteristics and typical models of energy sources of pure electric vehicles are firstly described. Then the existing pure electric vehicle types are depicted and the environmental impacts of the typical pure electric vehicles are evaluated.
The research results show that China has entered a period of rapid technological development in the field of battery electric vehicle power battery, and its innovation subjects are mainly enterprises. The key technologies mainly focus on three aspects: battery heating, battery cooling and charging methods.
Pure electric vehicle or battery electric vehicles utilize the electrical energy stored in batteries as a source of energy and their motor drive system translates output power of battery into rotational energy of wheel, so it
Power battery is the key to the widespread use of pure electric vehicles. In this paper, patent mining and data analysis technology are adopted to summarize the development trend and main...
Presently most hybrid or pure electric vehicles are equipped with Lithium-Ion (Li-Ion) batteries because of their high energy density and convenient recharging (Dogger et al.,
When making pCAM, our fully patented processes emit up to 85% less CO2 than standard refining methods leading to electric vehicle (EV) batteries made with PBT''s cathode material being less CO2 intensive. PBT unlocks the value of
Presently most hybrid or pure electric vehicles are equipped with Lithium-Ion (Li-Ion) batteries because of their high energy density and convenient recharging (Dogger et al., 2011). Along with Li-Ion rechargeable batteries, major automakers have also invested in fuel cell technologies as an alternative ( Jeffries, 2011 ).
The power characteristics and life-cycles of various types of lithium-ion batteries depending on the chemical nature of their electrodes are considered, using the
Connecting pure electric vehicles to the smart grid (V2G) mitigates the impact on loads during charging, equalizes the load on the batteries, and enhances the reliability of the
Power battery is the key to the widespread use of pure electric vehicles. In this paper, patent mining and data analysis technology are adopted to summarize the development trend and main patentee of battery electric vehicle power battery patent technology.
Among various new energy automobiles, pure electric vehicles (PEVs) are widely developed by considering the advances in energy-saving capability, zero-emissions, reliability enhancement and cost-effectiveness. To enhance the performance of PEVs, various optimizations strategies are proposed in prior arts to guarantee mechanical and electric
Fig. 1 shows the global sales of EVs, including battery electric vehicles (BEVs) and plug-in hybrid electric vehicles (PHEVs), as reported by the International Energy Agency (IEA) [9, 10].Sales of BEVs increased to 9.5 million in FY 2023 from 7.3 million in 2002, whereas the number of PHEVs sold in FY 2023 were 4.3 million compared with 2.9 million in 2022.
The working principle of pure electric vehicle utilizes use of an electric machine (electric motor) utilizing an energy source (battery) by replacing the internal combustion engine
Pure electric vehicle or battery electric vehicles utilize the electrical energy stored in batteries as a source of energy and their motor drive system translates output power of battery into rotational energy of wheel, so it can drive the operation of the electric vehicle [ 26, 27, 28, 29, 30, 31 ].
The working principle of pure electric vehicle utilizes use of an electric machine (electric motor) utilizing an energy source (battery) by replacing the internal combustion engine (ICE) and the associated fuel tank, and the energy source of the vehicle gets recharged as they are used to regain their energy source [ 32, 33, 34, 35 ]. Figure 1.
The architecture of the EV battery packs is determined by the location of the modules in the electric vehicle. The safety and reliability of the battery depends on the architecture of the battery in emergency situations. The utilized EV architectures of batteries are shown in Figure 4. Figure 4.
Even though hybrid and pure electric cars have been commercialized for years, mainstream adoption of these technologies remains unforeseeable. The successful global diffusion of Tesla electric cars suggests that pure Li-Ion battery electric vehicles (BEVs) dominate other potential technologies ( Long et al., 2019 ).
A neural network as one kind of intelligent controls was developed and used by Moreno et al. for the energy management of a battery/SC combined vehicle. The simulation results displayed the effectiveness of the method in decreasing the variability of the battery current and reducing the energy consumption.
In the future, a transition to solid-state electrolytes is also being considered, which will increase the safety of batteries, and nanostructured materials, which will improve the reaction surface and increase durability, which are especially important for multiple charging and discharging cycles [40, 41, 42, 43].
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