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1、电池在电动车中的应用,1、电动车概念, 最早的电动车特点:电路原理型车辆。 现代电动车的特点:集能源、管理、新材料、控制、力学 等于一体的综合技术体,电力机车 有轨无轨电车 电动汽车 电动船 电动摩托 电动自行车 电动三轮车,有线型,无线型,。,最早的电动车,SUZUKI: Every EV,TOYOTA: RAV4 EV,NISSAN: Altra EV,NISSAN: Hypermini EV,TOYOTA: e-com EV,HANDA: City Pal EV,TOYOTA: Prius HEV,HONDA: Insight HEV,NISSAN: Tino HEV,HINO,TOYO
2、TA,TOYOTA,HINO,GM: Hydrogen 1 FCEV,2、各类电动车结构及对电池的要求 纯电动车,电 机,BEV动力结构图,蓄电池,管理控 制单元,HEV结构,燃 油 发动机,发 电 机,电 机,DC/AC转换,蓄电池,多能源 管理,电池管理,电机管理,发电机管理,A 串联结构,特点: 以电池为主、发动机为辅,电池需较大容量和输出功率。,燃油发动机,变速传动机构,电机/发电机,电机管理,DC/AC转换,蓄电池,多能源 管理系统,电池管理系统,B 并联式结构,特点:发动机动力为主,电池/电机动力为辅, 电池以输出功率为第一要求。,发动机,电机,电机管理,发电机,DC/AC转换,蓄
3、电池,多能源管理,电池管理,C THS结构,减速齿轮,燃 料,重整器,燃料 电池堆,DC/AC转换 控制单元 DC/DC转换,电池,电池管理,D FCEV结构,电 机,二、电动车用动力电池,1、BEV电池要求, 电池比能量要求尽可能高; 电池输出比功率达到200W/kg以上; 能适应快速充电; 适应温度范围广(-30 - 65) 电池组寿命长; 电池单体性能一致性好; 安全可靠性高。,2、HEV电池要求, 电池的输入比功率高; 电池输出比功率高(大于500W/kg); 电池具有适中的比能量; 电池动态充放电特性好; 电池单体性能一致性好; 电池组寿命长; 电池适应温度范围广; 电池的安全可靠性
4、高。,ZEBRA,NI-MH,3、主要的动力电池种类, 铅酸电池 金属氢化物镍电池 锂离子电池 镉镍电池 钠-氯化镍电池 锌-空气电池 燃料电池,二、当前动力电池发展的几个关键技术问题,1、提高电池的比能量特性; 2、提高电池输出比功率特性; 3、提高电池输入比功率特性; 4、提高电池低温性能; 5、提高电池高温充电性能; 6、开发电池寿命快速预测技术; 7、电池性能一致性标准及判断方法; 8、电池管理技术; 9、电池设计技术; 10、电池制造新工艺; 11、动力电池专用材料的开发。,GM and A123Systems to Co-Develop Lithium-Ion Battery Ce
5、ll for Chevrolet Volt,General Motors and A123Systems will co-develop cells with A123Systems nanophosphate battery chemistry for use in GMs electric drive E-Flex system. (Earlier post.) The agreement is expected to expedite the development of the batteries for both electric plug-in vehicles and fuel
6、cell variants of the E-Flex architecture. A123Systems currently manufactures more than ten million cells annually, making it the worlds largest producer of batteries with nanophosphate chemistry. Most of these cells are used in rechargeable power tools. In May, A123Systems introduced its automotive-
7、class, large-format 32-series Li-Ion cells specifically designed for Hybrid Electric Vehicle (HEV) and Plug-in Hybrid Electric Vehicle (PHEV) use. The 32-series lineup initially consists of two cells with custom nanophosphate electrode designs, based on the same proven chemistry as the mass-produced
8、 ANR26650M1 cell: the 32113 M1Ultra and 32157 M1HD.,Breakthrough battery technology will drive future automotive propulsion, and the company that aligns with the best strategic partners will win. Thats what is so important about this deal. Whether youre talking about the Chevy Volt, a fuel cell or e
9、ven a plug-in hybrid such as our planned Saturn Vue, we need to understand the fundamental battery cell performance. Bob Lutz, GM vice chairman of Global Product Development,GMs View on Battery Technologies for Hybrids, Plug-Ins and E-Flex,Energy and Power requirements for full hybrids (two-mode), p
10、lug-in hybrids, and E-Flex range-extended EVs.,Battery technology and vehicle requirements.,Electrovaya Delivers Plug-in Escape Hybrid to NYSERDA; Application of New MN-Series Li-Ion Cells,Electrovayas subsidiary Electrovaya Company, located in Ballston Spa, New York, has delivered a converted Ford
11、Escape SUV Plug-in Hybrid Electric Vehicle (PHEV) to the New York State Energy Research and Development Authority (NYSERDA). Electrovaya is using its new MN Series Lithium Ion SuperPolymer cellsa lithiated manganese oxide-based systemto build a 12 kWh pack that augments the original NiMH pack in the
12、 Escape. Electrovayas testing indicates 130 mpg equivalency from the converted PHEV. The MN cells offer up to 50% higher energy density with comparable safety characteristics to Electrovayas Phosphate Series, according to Gitanjali DasGupta, Electrovayas Project Manager, Electric Vehicle Program. Th
13、e MN-Series has an energy density of up to 210 Wh/kg versus the Phosphate wSeries, which offers up to 140 Wh/kg. On a cell-level, the MN-Series offers a volumetric energy density of up to 425 Wh/L. On a system-level, the prismatic large-format construction enables a volumetric saving of up to 22% as
14、 compared to cylindrically constructed cellsa volumetric saving common to prismatic cells. The battery pack will recharge from 0% to 80% in less than 2 hours at 220V; a complete recharge (0% to 100%) is approximately 4 hours. A full charge at 120V is overnight. This is the first Ford Escape to be co
15、nverted to a PHEV by Electrovaya and to be operated and tested by NYSERDA as part of the $10-million New York State Plug-in Hybrid Electric Vehicle (PHEV) Technology Initiative aimed at converting the States 500-plus standard hybrids to plug-in capability.,Lithium Technology Corporation Showcases Ne
16、w Battery Pack for Plug-in Retrofit,The LTC PHEV pack for the Prius. Click to enlarge.,The LTC Prius PHEV,Lithium Technology Corporation (LTC) has retrofit a Toyota Prius to a plug-in hybrid using a battery pack based on LTCs new product line of large-format lithium iron phosphate (LiFePO4) cells, t
17、he largest cells of their kind in the world. The 7 kWh battery pack, comprising 63 of LTCs 3.2V, 35Ah iron phosphate cells, could support fuel economy of up to 125 miles per gallon, the company extrapolated, based on the performance of a smaller 2.2 kWh li-ion pack used in the Zytek smart for four conversion in the UK. LTC cells use LiFePO4 licensed technology, developed by Prof. John Goodenough with the University of Texas and supplied by Phostech.,
