Application of Surface Modified XLPE Nanocomposites for Electrical Insulation of High Voltage Cables- Partial Discharge Study

机译：表面改性XLPE纳米复合材料在高压电缆局部放电研究中的应用

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This paper presents the experimental results of PD test using IEC 60270 standard for 0-27.5 kV range with the PD characteristics of XLPE nanocomposites for un-modified, agglomerated and Octylsilane modified silica nanofillers using nano 1, 2, 3, 4, 5, 10 wt %. The unmodified and agglomerated nanocomposites show the lowest PD activity at nano 5 wt %. The surface modification of nanofiller helps to reduce the PD formation marginally due to improved nahofiller dispersion. Octylsilane surface modified XLPE/silica nano 3 wt % exhibits the lowest PD activity. To prove the further suitability of Octylsilane surface modified nanocomposites over unmodified and agglomerated nanocomposites, the discharge inception voltage (DIV) and breakdown voltage (BDV) have also been measured using IEC 60270 standard. The hypothetical theory has been proposed to explain the role of nanofillers in reducing PD activity and increasing DIV as well as BDV.

机译：本文介绍了使用IEC 60270标准的PD试验的实验结果0-27.5 kV范围，具有XLPE纳米复合材料的PD特性，用于使用纳米1,2,3,4,5,10的XLPE纳米复合材料的XLPE纳米复合材料的PD特性，XLPE纳米复合物改性二氧化硅纳米氧化铝wt％。未改性和附聚的纳米复合材料显示纳米5wt％的最低Pd活性。由于改善的Nahofiller分散体，纳米填充物的表面改性有助于减少PD形成。辛基硅烷表面改性XLPE /二氧化硅纳米3wt％表现出最低PD活性。为了证明辛基硅烷表面改性纳米复合材料在未改性和附聚的纳米复合材料上的进一步适用性，还使用IEC 60270标准测量放电初始电压（DIV）和击穿电压（BDV）。已经提出了假设的理论来解释纳米填充物在降低PD活性和增加者和BDV中的作用。

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《International Conference on Power Engineering Computing and Control》|2017年|591 p.|共8页
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Paramane Ashish Sharad; K. Sathish Kumar;
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Crosslinked polyethylene; nanocomposites; electrical insulation; partial discharge; morphology; surface modification;

机译：交联聚乙烯;纳米复合材料;电绝缘;局部放电;形态;表面改性;

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1. Application of surface-modified XLPE nanocomposites for electrical insulation- partial discharge and morphological study [J] . Paramane Ashish Sharad, K. Sathish Kumar Nanocomposites . 2017,第1期

机译：表面改性的XLPE纳米复合材料在电绝缘中的应用-局部放电和形态研究
2. Study on Nano-Modified Mineral Oil Surface Discharge Partial Discharge Signal Characteristics for High Voltage Transformer Applications [J] . Sankarganesh R., Shivakumar R., Chandrasekar S. Journal of computational and theoretical nanoscience . 2017,第4期

机译：高压变压器应用纳米改性矿物油表面放电局部放电信号特性研究
3. Partial Discharge Characteristics of Polymer Nanocomposite Materials in Electrical Insulation: A Review of Sample Preparation Techniques, Analysis Methods, Potential Applications, and Future Trends [J] . Wan AkmalIzzati, Yanuar Z.Arief, ZuraimyAdzis, ScientificWorldJournal . 2014,第3期

机译：电绝缘材料中聚合物纳米复合材料的局部放电特性 - 样品制备技术，分析方法，潜在应用和未来趋势的综述
4. Application of Surface Modified XLPE Nanocomposites for Electrical Insulation of High Voltage Cables- Partial Discharge Study [C] . Paramane Ashish Sharad, K. Sathish Kumar International Conference on Power Engineering Computing and Control . 2017

机译：表面改性XLPE纳米复合材料在高压电缆局部放电研究中的应用
5. A study of surface discharges during the early ageing of silicone rubber insulation using partial discharge analysis. [D] . Lopes, Ivan Jose da Silva. 2002

机译：使用局部放电分析对硅橡胶绝缘材料的早期老化过程中的表面放电进行研究。
6. Partial Discharge Characteristics of Polymer Nanocomposite Materials in Electrical Insulation: A Review of Sample Preparation Techniques Analysis Methods Potential Applications and Future Trends [O] . Wan Akmal Izzati, Yanuar Z. Arief, Zuraimy Adzis, -1

机译：聚合物纳米复合材料在电绝缘中的局部放电特性：样品制备技术分析方法潜在应用和未来趋势的综述
7. Application of surface-modified XLPE nanocomposites for electrical insulation- partial discharge and morphological study [O] . Paramane Ashish Sharad, K. Sathish Kumar 2017

机译：表面改性XLPE纳米复合材料在电绝缘局部放电和形态学研究中的应用
8. Partial Discharges and the Electrical Aging of Cross Linked Polyethene (XLPE) Cable Insulation [R] . Wolzak, G. G., VanDelaar, A. M. F. J., Steennis, E. F. 1986

机译：交联聚乙烯（XLpE）电缆绝缘的局部放电和电老化

Application of Surface Modified XLPE Nanocomposites for Electrical Insulation of High Voltage Cables- Partial Discharge Study

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