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Emerging Nanotechnology Applications in Electrical Engineering最新文献

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Nanotechnology in Industry 纳米技术在工业中的应用
Pub Date : 1900-01-01 DOI: 10.4018/978-1-7998-8536-8.ch001
Nanotechnology development has a rapid progress for material science that effect on variant applications in our life. For this reason, we have focus on the importance of nanotechnology in electrical applications. This chapter describes the classification of nanomaterials, dielectrics, nanodielectrics and historical background of nanotechnology materials in our life. This chapter contains the concepts of nanodielectrics, nanofluids development and shed in brief on the electrical and industrial applications of nanotechnology in our life. Also, the purpose of present work is presented in this chapter.
纳米技术在材料科学领域取得了飞速的发展,影响着我们生活中的各种应用。因此,我们关注纳米技术在电气应用中的重要性。本章介绍了纳米材料的分类、电介质、纳米电介质以及纳米材料在我们生活中的历史背景。这一章包含了纳米电介质、纳米流体发展的概念,并简要介绍了纳米技术在我们生活中的电气和工业应用。此外,本章还阐述了本文的研究目的。
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引用次数: 0
Transformers Nanofluids 变形金刚纳米流体
Pub Date : 1900-01-01 DOI: 10.4018/978-1-7998-8536-8.ch006
This chapter interprets the impacts of powder nanoparticles on upgrading the electrical and physical properties of pure transformer oils and contains the new technologies for preparation transformers nanofluids. This chapter draws attention to the theories of dynamic charging and effective parameters for nanofluid polarization. Furthermore, this chapter presents recent procedures for estimation and control of nanofluids conductivity and the effects of nanoparticles on nanofluid conductivity. Moreover, this chapter demonstrates the favored methodology of nanofluid preparation and the tested high voltage breakdown. The precision of recommendation and forecast is another addition to qualitative investigations.
本章阐述了粉末纳米颗粒对提高纯变压器油的电学和物理性能的影响,并介绍了制备变压器纳米流体的新技术。本章重点介绍了纳米流体的动态充电理论和极化的有效参数。此外,本章介绍了纳米流体电导率的估计和控制的最新程序以及纳米颗粒对纳米流体电导率的影响。此外,本章还展示了纳米流体制备和高压击穿测试的常用方法。推荐和预测的准确性是定性调查的另一个补充。
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引用次数: 0
Nano-Tech OHTL Insulators 纳米技术OHTL绝缘体
Pub Date : 1900-01-01 DOI: 10.4018/978-1-7998-8536-8.ch005
This chapter detects types and structure of ceramic and polymeric insulators. It also sheds light on improving efficiency and high voltage distribution through insulators string toward utilizing nanotechnology techniques. Furthermore, this chapter takes interest in displaying the effects of nanoparticles on overhead transmission lines (OHTL) insulators and high voltage distribution on suspension insulators. The importance and features of using polymeric and non-ceramic suspension insulators have been recently detailed. Thus, this chapter tackles and designs recent models for using individual and multiple nanoparticles in polymeric OHTL suspension insulators. It draws forecasts and recommendations for developing suspension insulators by using nanotechnology techniques.
本章介绍陶瓷绝缘子和聚合物绝缘子的种类和结构。它还揭示了利用纳米技术通过绝缘体串提高效率和高电压分布。此外,本章还将展示纳米粒子对架空输电线路绝缘子的影响以及悬浮绝缘子上的高压分布。最近详细介绍了使用聚合物和非陶瓷悬浮绝缘子的重要性和特点。因此,本章处理和设计了在聚合物OHTL悬浮绝缘体中使用单个和多个纳米颗粒的最新模型。对利用纳米技术开发悬浮绝缘体提出了预测和建议。
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引用次数: 0
Treeing in NanoDielectrics 纳米电介质中的树
Pub Date : 1900-01-01 DOI: 10.4018/978-1-7998-8536-8.ch002
In electrical insulation material designing, treeing is an electrical pre-breakdown marvel in strong protection. Treeing is a typical breakdown component and wellspring of electrical deficiencies in insulation of electrical applications protection. Moreover, water treeing is a diffuse part of the way conductive 3D crest-like a shape inside the utilized dielectrics in covered or water-drenched electrical applications. Nanotechnology techniques have been enhancing the dielectric strength performance with respect to traditional dielectrics. Therefore, this chapter discusses the treeing mechanisms in theoretical models for various nanodielectrics insulation materials. Water treeing in nanodielectrics is also addressed. Furthermore, this chapter contains forecast and recommendations to enhance insulation performance of electrical applications.
在电气绝缘材料设计中,树形结构是电气预击穿中具有强保护作用的奇迹。树形结构是典型的击穿元件,是电气设备绝缘保护中电气缺陷的根源。此外,在覆盖或浸水的电气应用中,水树是导电3D波峰状介质内部的扩散部分。纳米技术已经大大提高了传统电介质的介电强度。因此,本章讨论了各种纳米介电绝缘材料理论模型中的树形机制。纳米电介质中的水树也得到了解决。此外,本章包含预测和建议,以提高电气应用的绝缘性能。
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引用次数: 0
Nano-Tech Power Capacitors 纳米技术电力电容器
Pub Date : 1900-01-01 DOI: 10.4018/978-1-7998-8536-8.ch004
This chapter sheds light on AC and DC power capacitors and the recent impacts of nanoparticles on enhancing capacitive charge in power capacitors. In addition, this chapter displays theories and effective parameters of nano-tech power capacitors. Lab-test measurements have been carried out for variant sorts and concentrations of organic and inorganic nanoparticles during different frequencies (10mHz – 10MHz) and temperatures (20°C-80°C). Moreover, this chapter reviews the ideal sorts and concentrations of nanoparticles for upgrading the capacitive charging on insulation of power capacitors. Thus, the novel nanodielectrics have been designed and fabricated for upgrading the electrical execution of multi-section metalized film capacitors.
本章重点介绍了交流和直流功率电容器,以及纳米颗粒在增强功率电容器电容电荷方面的最新影响。此外,本章还介绍了纳米技术功率电容器的原理和有效参数。在不同频率(10mHz - 10mHz)和温度(20°C-80°C)下,对不同种类和浓度的有机和无机纳米颗粒进行了实验室测试测量。此外,本章还综述了提高电力电容器绝缘电容充电性能的纳米粒子的理想种类和浓度。因此,设计和制造了新型纳米电介质,以提高多段金属化薄膜电容器的电气性能。
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引用次数: 0
Nano-Tech Transformer Cores 纳米技术变压器铁芯
Pub Date : 1900-01-01 DOI: 10.4018/978-1-7998-8536-8.ch008
This chapter describes optimal characterization of composites and nanocomposites materials that handle traditional transformer cores to design transformer core materials. It attempts to offer new designs for new transformer cores to control the magnetization parameters. This chapter draws attention to theories and effective nanoparticle structure that tackle the characteristics of transformer cores. It further sheds light on the effects of nanoparticles on magnetization loss of transformer core by using individual and multiple magnetic nanocomposites. The forecasting and recommendations of the magnetic characterization are also presented for 1-phase and 3-phase transformer cores.
本章描述了复合材料和纳米复合材料的最佳表征,以处理传统的变压器铁芯来设计变压器铁芯材料。它试图为新的变压器铁芯提供新的设计来控制磁化参数。本章着重介绍了解决变压器铁心特性的理论和有效的纳米颗粒结构。通过使用单个和多个磁性纳米复合材料,进一步揭示了纳米颗粒对变压器铁心磁化损耗的影响。并对单相和三相变压器铁心的磁特性进行了预测和建议。
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引用次数: 0
Nano-Tech Power Cables 纳米电缆
Pub Date : 1900-01-01 DOI: 10.4018/978-1-7998-8536-8.ch003
This chapter explores the novel nano-metric present-day materials considering power law Profile PLP for redesigning the electrostatic field circulation in the insulation of power cables assessed for scrutinizing charge simulation method (CSM). Moreover, this chapter presents a deep study for using individual and multiple nanodielectrics in power cables manufacturing. An investigation on dielectric strength and partial discharges in the nanodielectrics of power cables is also presented. Furthermore, it offers a detailed theory and effective parameters of partial discharge in nanodielectrics of power cables. Finally, forecast and recommendations are offered for manufacturers to fabricate high quality commercial nano-tech power cables.
本章探讨了考虑幂律剖面PLP的新型纳米材料,用于重新设计用于审查电荷模拟方法(CSM)评估的电力电缆绝缘中的静电场循环。此外,本章还介绍了在电力电缆制造中使用单个和多个纳米电介质的深入研究。本文还对电力电缆纳米介质的介电强度和局部放电进行了研究。给出了电力电缆纳米介质局部放电的详细理论和有效参数。最后,对制造商制造高质量的商用纳米电缆提出了预测和建议。
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引用次数: 0
Nano-Magnetic Materials 源材料
Pub Date : 1900-01-01 DOI: 10.4018/978-1-7998-8536-8.ch007
The utilization of traditional magnetic materials and magnetic composite materials have been developing quickly in recent decades. The build of magnetic properties has been created, with pursuing the inclusion of a few diverse nanoparticles to formulate magnetic nanocomposite crystalline core. This chapter contains theories and characterization of magnetic nanocomposites that are compared with variant traditional magnetic materials. Finally, this chapter sheds light on regulations, forecast, and recommendations for manufactures for using new multi-nanocomposites magnetic materials in electrical applications.
近几十年来,传统磁性材料和磁性复合材料的应用得到了迅速发展。磁性的构建已经被创造出来,通过追求包含一些不同的纳米颗粒来形成磁性纳米复合晶体核心。本章包含磁性纳米复合材料的理论和表征,并与各种传统磁性材料进行了比较。最后,本章阐明了在电气应用中使用新型多纳米复合磁性材料的法规、预测和建议。
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引用次数: 1
Electronic NanoDielectrics 电子NanoDielectrics
Pub Date : 1900-01-01 DOI: 10.4018/978-1-7998-8536-8.ch009
This chapter describes properties of electronic materials (electrical, mechanical, magnetic properties, optical transparency, luminescence). As a progress in technology, it has been detailed the properties of nanodielectrics electronic materials and the fabrication procedures of conducting nanodielectrics. Furthermore, this chapter presents the effects of nanoparticles in optical light nanodielectrics as an effect of nanotechnology on industrial applications. Finally, this chapter draws attention to the suggested investment procedures for industrial electronic materials in the future.
介绍电子材料的电性能、机械性能、磁性能、透光性和发光性能。随着技术的进步,本文详细介绍了纳米介电材料的性质和导电纳米介电材料的制备方法。此外,本章还介绍了纳米粒子在光学光纳米电介质中的作用,作为纳米技术在工业应用中的作用。最后,本章提出了未来工业电子材料投资的建议程序。
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引用次数: 0
Nano-Tech Electronic Applications 纳米技术电子应用
Pub Date : 1900-01-01 DOI: 10.4018/978-1-7998-8536-8.ch010
This chapter contains the theories and effective parameters for developing the electronic applications by using nanotechnology techniques. This chapter sheds light on developing characterization of surface plasmon resonance (SPR) sensor, organic light emitting diode (OLED), thin-film transistors (TFTs), compact microstrip patch antenna, semiconductors, resistive memories, memory ram, chemical sensors, biosensors, and super capacitors. Furthermore, this chapter contains the detailed literature of the effects of different types and concentrations of nanoparticles for developing characterization of electronic applications. Finally, this chapter draws attention to the recommendations for investment in electronic applications by using nanotechnology techniques.
本章包含了利用纳米技术开发电子应用的理论和有效参数。本章重点介绍了表面等离子体共振(SPR)传感器、有机发光二极管(OLED)、薄膜晶体管(TFTs)、紧凑型微带贴片天线、半导体、电阻式存储器、存储器、化学传感器、生物传感器和超级电容器的发展特性。此外,本章还详细介绍了不同类型和浓度的纳米粒子对电子应用表征的影响。最后,本章提请注意利用纳米技术投资电子应用的建议。
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引用次数: 0
期刊
Emerging Nanotechnology Applications in Electrical Engineering
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