Plastic lithium ion energy/power systems are key to integrated and affordable hybrid automotive solutions

Gateway to the New Millennium. 18th Digital Avionics Systems Conference. Proceedings (Cat. No.99CH37033) Pub Date : 1999-10-24 DOI:10.1109/DASC.1999.863654

D. Ahrens, B.T. Hanauer, J. E. Waters

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引用次数: 1

Abstract

If Hybrid Electric Vehicles are going to be successful, practical energy/power solutions must be implemented. One major cost driver on any hybrid application is the energy storage system, and the greater the power or energy storage requirements, the greater the cost. In addition, the energy storage system can be a major integration challenge as it often consumes highly valued vehicle space. The packaging, maintenance, safety and mass issues of the energy storage system must also be considered, as they all impact vehicle integration requirements. With the advent of Plastic Lithium Ion (PLI) technology, energy storage systems can be minimized, thus reducing the impact of cost, mass and volume to the hybrid vehicle platform. In addition, PLI technology provides packaging flexibility for optimum vehicle integration. By leveraging creativity, plastics engineering, and systems integration, PLI technology holds the key to practical and affordable Hybrid Electric Vehicles.

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塑料锂离子能源/动力系统是集成且经济实惠的混合动力汽车解决方案的关键

如果混合动力汽车要取得成功，就必须实施切实可行的能源/电力解决方案。任何混合应用的一个主要成本驱动因素是能量存储系统，功率或能量存储要求越大，成本就越高。此外，储能系统可能是一个主要的集成挑战，因为它经常消耗非常宝贵的车辆空间。储能系统的包装、维护、安全和质量问题也必须考虑，因为它们都会影响车辆的集成要求。随着塑料锂离子(PLI)技术的出现，储能系统可以最小化，从而减少成本、质量和体积对混合动力汽车平台的影响。此外，PLI技术为优化车辆集成提供了包装灵活性。通过利用创造力、塑料工程和系统集成，PLI技术是生产实用且经济实惠的混合动力汽车的关键。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Gateway to the New Millennium. 18th Digital Avionics Systems Conference. Proceedings (Cat. No.99CH37033)

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