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1.
光伏发电大规模并网给电网的稳定运行带来巨大挑战,光伏发电系统功率输出具有非线性、间接波动性和不确定性等特点,在未来光伏发电一体化程度极高的电力系统中,不仅要在不出现电力短缺的情况下保持供需平衡,还要尽可能多地利用光伏能源,光伏功率预测和储能装置在电力系统运行中的应用就是必不可少的一环。提出了一种基于光伏功率预测来确定和修改电池储能系统充放电时间表和热发电机组组合的方法,通过数值模拟对所提出的方法进行了评估。结果表明,该方法可以减少能量不足和光伏消减问题。 相似文献
2.
层状氧化物正极材料具有良好的结构稳定性和较高的充放电比容量,是一类理想的钠离子电池正极材料。本工作研究了层状氧化物正极材料NaNi1/3Fe1/3Mn1/3O2表面修饰对其电化学性能的影响,采用固相球磨法在正极材料表面包覆一层纳米ZrO2,采用形貌、结构、电化学方法等研究了包覆后性能改进机理。研究结果表明,ZrO2在NaNi1/3Fe1/3Mn1/3O2表面形成一层惰性保护层,有效隔开了电解液与正极材料的接触,缓解了电解液的分解速度,抑制了金属离子的溶出速度,从而显著改善了电池的循环性能以及高温性能。在ZrO2包覆修饰后,55℃下正极材料相比于未包覆的正极材料有明显提升,100次循环后容量保持率达到83.6%,高于未包覆的75.2%。此外,包覆后的NaNi1/3Fe1/3Mn1/3O2正极材料在空气环境存储后,稳定性得到明显提高。 相似文献
3.
《International Journal of Hydrogen Energy》2022,47(69):29925-29944
Lithium iron phosphate battery (LIPB) is the key equipment of battery energy storage system (BESS), which plays a major role in promoting the economic and stable operation of microgrid. Based on the advancement of LIPB technology and efficient consumption of renewable energy, two power supply planning strategies and the china certified emission reduction (CCER) model are proposed respectively. Based on it, the multi-objective planning optimization model with economic benefits, environmental benefits and power supply stability as the objective function is established for the first time, and the Newton Weighted Sum Frisch method (NWSFA) solution model is adopted. In the planning process, rain flow counting method is used to research the life of BESS, which improves the accuracy of energy storage annual cost calculation. A park in northern China is taken as a case study to demonstrate the application of this model. The simulation results show that the annual economic operating cost of BESS is decreased by 18.81%, the energy supply reliability is increased by 0.15%, and the optimal electricity price adjustment ratio of the system is 15%. 相似文献
4.
《Ceramics International》2022,48(5):6302-6312
In this study we synthesized Li-rich Li1.2Ni0.13Mn0.54Co0.13O2 (LMNCO) as a composite cathode material through a two-step spray-drying method, using transition metal (TM) acetates and citric acid (CA, as a chelating agent) at various molar ratios and then calcining at various temperatures for various periods of time. This two-step spray-drying method created hierarchical nano/micro-sphere structures of the LMNCO cathode material. The LMNCO cathode exhibited the best electrochemical performance when synthesized with a TM:CA ratio of 3:2, a calcination temperature of 900 °C, and a calcination time of 5 h. This as-prepared LMNCO composite was then modified with polyimide (PI) at various weight ratios (PI/LMNCO = 0.5, 1.0, and 1.5 wt%) to improve its electrochemical properties. Among the various structures, the LMNCO cathode material coated with 1.0 wt% of PI at a layer thickness of approximately 1.88 nm achieved the best initial discharge capacities. This modified electrode also displayed enhanced cycle stability, with over 93.3 and 87.9% of the capacity retained after 30 cycles at 0.1C and 100 cycles at 1C, respectively. In comparison, the capacity retention of the unmodified LMNCO electrode measured under the same conditions was no more than 91.3% at 0.1C and 70.1% at 1C. Thus, surface modification with PI was an effective method for improving the coulombic efficiency, discharge capacity, and long-term cycling performance of the LMNCO cathode. Such PI-coated LMNCO composite cathode materials appear to be potential candidates for use in next-generation high-performance lithium-ion batteries. 相似文献
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6.
In the context of the global response to climate change,effective use of new energy and building a clean and diversified energy system is one of the important goals of China′s high-quality development.The rapid development of high-capacity power batteries had made great contributions to China′s efforts to achieve "carbon peaking and carbon neutralization".However,with the retirement of a large number of power batteries,China would bear huge ecological and environmental pressure in the future.This paper discussed the current situation of the recycling of retired power batteries in China.Due to technology,cost and market reasons,the construction of the recycling system of retired power batteries in China was not perfect.We should strive for finance and policy,build a green science and technology public service platform,improve the production,education and research personnel and intellectual property protection system to build a green and environment-friendly system for the cascade utilization,disassembly and recycling of retired power batteries,and efficiently sort and recover lithium,cobalt nickel and other key raw materials could ensure the healthy and sustainable development of China′s new energy power battery and related industries,and contribute to China′s energy system in the new era. 相似文献
7.
《International Journal of Hydrogen Energy》2022,47(47):20632-20661
Achieving complete combustion of fossil fuels has long been thought of as a sufficient remedy for tackling vehicular emissions and the ensuing environmental effects. However, thanks to the increasing awareness around the climate change, the global dialogue has now shifted to realizing a carbon-free economy, which has set stricter curbs on the energy source that can power the future mobility. Therefore, the idea of “clean combustion” requires rethinking. Of the many choices for alternative clean fuels that are both energy-efficient and environment-friendly, hydrogen has always been eyed as the best clean alternative there is. This article reviews various available approaches to utilizing hydrogen for mobility applications with a discussion of their relative merits and shortcomings. In addition to well-discussed methods like fuel cell electric vehicles, hydrogen-based IC engines, and dual-fuel operation with hydrogen, this review also assesses the technical and economic feasibilities of using hydrogen in e-fuels and their implications for our existing infrastructure and future energy demands. 相似文献
8.
9.
在大规模工业生产中,动力电池零部件的激光焊接容易产生气孔、成形不良、炸孔等缺陷,大大降低车辆运行的安全性与可靠性。文中分析了动力电池中激光焊接应用的具体位置,依据不同的焊接部位分类介绍了缺陷种类,讨论了未焊透、气孔、下塌、炸孔、裂纹等缺陷的产生原因。针对电池壳体与盖板连接、电池防爆阀密封、电池注液孔密封、电池极柱焊接及极耳与汇流排连接等具体的应用场景,总结了减少缺陷、提高焊接质量的手段,主要包括工艺改进、光源特性调控、焊接顺序优化等。在此基础上,进一步介绍了智能化制造技术在动力电池激光加工中的应用,并对动力电池领域未来激光焊接技术的发展进行了展望。
创新点: (1)以焊接位置分类介绍了动力电池部件在激光焊接过程中的缺陷种类和产生原因。
(2)按照工艺、光源和焊接顺序等分类总结了减少动力电池激光焊接缺陷的主要方法。
(3)归纳了智能化激光焊接技术在动力电池中的应用,并展望了其发展前景。 相似文献
10.
新能源汽车换电站产业迅速发展,建设和使用过程中的消防安全至关重要,在储能技术和材料不断发展和突破的同时,有效的防火、灭火技术措施并没有同步跟进。本文针对新能源汽车换电站建设现状、事故特点和火灾风险进行分析,基于现有消防技术标准,提出了换电站设置的防火技术和管理措施,基于对六碳全氟酮气液双相态锂离子电池灭火剂和专用灭火系统的有效性实验和论证,提出了换电站的灭火技术措施,为新能源汽车换电站消防安全建设和管理提供了理论依据。 相似文献