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access icon openaccess Research on key technologies in ±1100 kV ultra-high voltage DC transmission

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References

    1. 1)
      • 1. Liu, Z.: ‘Electromagnetic environment of UHV DC transmission project’ (Beijing, 2009) (in Chinese).
    2. 2)
      • 2. Huang, D., Shu, Y., Ruan, J., et al: ‘Ultra high voltage transmission in China: developments, current status and future prospects’, Proc. IEEE, 2009, 97, (3), pp. 555583.
    3. 3)
      • 3. Shu, Y., Chen, W.: ‘Research and application of UHV power transmission in China’, High Volt., 2018, 3, (1), pp. 113.
    4. 4)
      • 4. Zhang, W., Zhou, X., Guo, J., et al: ‘Feasibility of ±1000 kV ultra HVDC in the power grid of China’, Proc. CSEE, 2007, 27, (28), pp. 15(in Chinese).
    5. 5)
      • 5. Shu, Y.: ‘Present status and prospect of HVDC transmission in China’, High Volt. Eng., 2004, 30, (11), pp. 12, 20(in Chinese).
    6. 6)
      • 6. Ma, W., Fan, J.: ‘Planning and design of UHVDC transmission system’, High Volt. Eng., 2015, 41, (8), pp. 25452549(in Chinese).
    7. 7)
      • 7. Liu, Z., Shu, Y., Zhang, W., et al: ‘Study on voltage class series for HVDC transmission system’, Proc. CSEE, 2008, 28, (10), pp. 18(in Chinese).
    8. 8)
      • 8. Sun, T., Xia, J., Sun, Y., et al: ‘Research on the applicable range of AC and DC transmission voltage class sequence’. 2014 Int. Conf. on Power System Technology (POWERCON 2014), Chengdu, 20–22 October 2014, pp. 374380.
    9. 9)
      • 9. Yu, Y., Li, G., Su, Z., et al: ‘Construction of UHVDC test base station’, Electr. Power, 2006, 39, (10), pp. 1014(in Chinese).
    10. 10)
      • 10. Yu, Y., Li, G., Sun, L., et al: ‘Function and design idea of UHVDC test base’, Power Syst. Technol., 2008, 32, (7), pp. 1013, 18(in Chinese).
    11. 11)
      • 11. Zhang, W., Yu, Y., Li, G., et al: ‘Function and design of the high altitude Tibet test base’, High Volt. Eng., 2009, 35, (8), pp. 17851790(in Chinese).
    12. 12)
      • 12. Huang, D., Ruan, J.: ‘Construction of UHV AC and DC test bases in China’. 2008 IEEE/PES Transmission and Distribution Conf. and Exposition, Chicago, IL, USA, 2008, pp. 16.
    13. 13)
      • 13. Gockenbach, E.: ‘Challenges for high voltage testing of UHV equipment’. 2010 Int. Conf. on High Voltage Engineering and Application, New Orleans, LA, USA, 2010, pp. 4447.
    14. 14)
      • 14. Shu, Y., Huang, D., Ruan, J., et al: ‘Construction of UHV demonstration and test projects in China’. 2009 Asia-Pacific Power and Energy Engineering Conf., Wuhan, China, 2009, pp. 17.
    15. 15)
      • 15. Sun, L., Li, Q., Ding, Y., et al: ‘Function design and verification of UHV test hall’, Power Syst. Technol., 2015, 39, (2), pp. 356361(in Chinese).
    16. 16)
      • 16. Li, X., Zhou, P., He, H., et al: ‘Study of overvoltage and insulation coordination of UHV DC transmission line’. The 1st Int. Conf. on Electrical Materials and Power Equipment, Xi'an, China, 2017, pp. 354358.
    17. 17)
      • 17. Wang, W., Li, C., Fan, J., et al: ‘Study of UHV DC corona performance in a mini corona cage’. 2007 Electrical Insulation Conf. and Electrical Manufacturing Expo, 2007, pp. 459462.
    18. 18)
      • 18. Zhang, X., He, J., Yu, Z., et al: ‘Experimental study of transients and electrical fields caused by lightning flashover in the UHVDC converter station’. 2014 Int. Conf. on Lightning Protection (ICLP), Shanghai, China, 2014, pp. 14911495.
    19. 19)
      • 19. Zeng, R., Zhuang, C., Zhou, X., et al: ‘Survey of recent progress on lightning and lightning protection research’, High Volt., 2016, 1, (1), pp. 210.
    20. 20)
      • 20. Liao, Y., Gao, C., Li, R., et al: ‘Long front time switching impulse tests of long air gap in UHV projects at altitude of 2100 m’, IEEE Trans. Dielectr. Electr. Insul., 2014, 21, (3), pp. 982987.
    21. 21)
      • 21. Yu, X., Zhou, J., Liu, B., et al: ‘DC flashover performance of ice-covered insulator strings adopted in ±800 kV transmission lines based on up-and-down method’. 2012 Annual Report Conf. on Electrical Insulation and Dielectric Phenomena, Montreal, QC, Canada, 2012, pp. 775778.
    22. 22)
      • 22. Jiang, X., Yuan, J., Zhang, Z., et al: ‘Study on pollution flashover performance of short samples of composite insulators intended for ±800 kV UHV DC’, IEEE Trans. Dielectr. Electr. Insul., 2007, 14, (5), pp. 11921200.
    23. 23)
      • 23. Yang, Q., Li, L., Sima, W., et al: ‘Electric field calculation of 800 kV composite insulator with domain-decomposition and iterative method’. 2008 Annual Report Conf. on Electrical Insulation Dielectric Phenomena, Quebec, QC, Canada, 2008, pp. 345348.
    24. 24)
      • 24. Rao, H., Li, L., Li, R., et al: ‘Study on the external insulation performance of ±800 kV DC transmission lines at high altitudes’. 2012 Int. Conf. on High Voltage Engineering and Application, Shanghai, China, 17–20 September 2012, pp. 17.
    25. 25)
      • 25. Hu, Y., Liu, K., Wu, T., et al: ‘Influence of tower width and ion current on gap flashover characteristics of EHV/UHV AC and DC hybrid transmission lines during live-working’. 2014 Int. Conf. on Power System Technology (POWERCON 2014), Chengdu, China, 2014.
    26. 26)
      • 26. Xie, L., Zhao, L., Lu, J., et al: ‘Study on the calculation method for radio interference electromagnetic field of HVDC transmission line with finite length’, Trans. China Electrotech. Soc., 2016, 31, (1), pp. 96102(in Chinese).
    27. 27)
      • 27. Yin, H., He, J., Zhang, B., et al: ‘Finite volume-based approach for the hybrid ion-flow field of UHVAC and UHVDC transmission lines in parallel’, IEEE Trans. Power Deliv., 2011, 26, (4), pp. 28092820.
    28. 28)
      • 28. Yin, H., Zhang, B., He, J., et al: ‘Restriction of ion-flow field under HVDC transmission line by installing shield wire’, IEEE Trans. Power Deliv., 2013, 28, (3), pp. 18901898.
    29. 29)
      • 29. Li, P., Li, Z., Sun, Q., et al: ‘Research on insulation design of UHV gas-insulated metal-enclosed transmission line’, Power Syst. Technol., 2015, 39, (11), pp. 33053312(in Chinese).
    30. 30)
      • 30. Li, S., Yu, S., Feng, Y.: ‘Progress in and prospects for electrical insulating materials’, High Volt., 2016, 1, (3), pp. 122129.
    31. 31)
      • 31. Li, S., Zhou, Y., Ruan, J., et al: ‘Report on the research progress of the project on the breakdown mechanism of insulation system of EHVDC equipment under complex electric field’, Sci. Technol. Inf., 2016, 6, pp. 165166.
    32. 32)
      • 32. Li, P., Li, J., Zhang, Q., et al: ‘Negative DC flashover characteristics of alumina filled epoxy resin insulators in SF6’, Proc. CSEE, 2014, 34, (36), pp. 65236529(in Chinese).
    33. 33)
      • 33. Zheng, C., Tang, Y., Ma, S., et al: ‘A survey on typical scenarios and technology needs for HVDC participated into stability control’, Proc. CSEE, 2014, 34, (22), pp. 37503759(in Chinese).
    34. 34)
      • 34. Zhou, J., Guo, J., Guo, Q., et al: ‘Security and stability study of planning UHVAC/DC hybrid transmission system’. 2011 4th Int. Conf. on Electric Utility Deregulation and Restructuring and Power Technologies (DRPT), Weihai, Shandong, China, 2011, pp. 10261030.
    35. 35)
      • 35. Zheng, B., Teng, W., Han, Y., et al: ‘Study on influence and countermeasures of coupling transformer charging inrush current to Hami-Zhengzhou UHV DC project’. 2016 IEEE PES Asia-Pacific Power and Energy Conf., Xi'an, China, 2016, pp. 10821086.
    36. 36)
      • 36. Ye, G., Zhang, Y.: ‘System static safety analysis under multi-UHVDC hierarchically infeed mode’. 11th IET Int. Conf. on AC and DC Power Transmission, Birmingham, UK, 2015, pp. 18.
    37. 37)
      • 37. Wu, D., Zhang, N., Kang, C., et al: ‘Techno-economic analysis of contingency reserve allocation scheme for combined UHV DC and AC receiving-end power system’, CSEE J. Power Energy Syst., 2016, 2, (2), pp. 6270.
    38. 38)
      • 38. Rao, H., Zhang, D., Zhao, X., et al: ‘Practice and analyses of UHVDC power transmission’, High Volt. Eng., 2015, 41, (8), pp. 24812488(in Chinese).
    39. 39)
      • 39. Cheng, C., Li, G., Cheng, X., et al: ‘Large-scale ultra high voltage direct current hydropower absorption and its experiences’, Proc. CSEE, 2015, 35, (3), pp. 549560(in Chinese).
    40. 40)
      • 40. Wang, Y., Zhang, Y.: ‘Technical characteristics and analysis of UHVDC arrester’, Electr. Equip., 2007, 8, (3), pp. 1519(in Chinese).
    41. 41)
      • 41. GB/T 311.3-2007: ‘Insulation coordination-part 3: procedures for high-voltage direct current (HVDC) converter stations’.
    42. 42)
      • 42. Chen, X., Zhang, C., Zhang, B., et al: ‘Protective characteristics of MOA configured in ±1100 kV UHVDC converter station under internal overvoltage’, Power Syst. Technol., 2015, 39, (2), pp. 362366(in Chinese).
    43. 43)
      • 43. Wang, D., Zhou, H., Deng, X.: ‘Switching overvoltage characteristics of 1100-kV UHVDC converter station’, IEEE Trans. Power Deliv., 2015, 30, (3), pp. 12051212.
    44. 44)
      • 44. Zhou, P., He, H., Dai, M., et al: ‘Selection of arresters arrangement, parameters and apparatuses insulation levels for ±1100 kV DC converter station’, High Volt. Eng., 2014, 40, (9), pp. 28712884(in Chinese).
    45. 45)
      • 45. Zhou, H., Wang, D.: ‘Overvoltage protection and insulation coordination for ±1100 kV UHVDC converter station’, Power Syst. Technol., 2012, 36, (9), pp. 18(in Chinese).
    46. 46)
      • 46. Ji, D., Liu, Z., Zhang, J., et al: ‘Research on overvoltage limitation inside ±1100 kV UHVDC converter station’, Power Syst. Technol., 2012, 36, (10), pp. 5560(in Chinese).
    47. 47)
      • 47. Zhou, H.: ‘Ultra high voltage AC/DC power transmission technology’ (Hangzhou, 2014) (in Chinese).
    48. 48)
      • 48. Li, X., Liang, M., Li, C., et al: ‘Conductor design of ±1100 kV UHVDC transmission lines based on electromagnetic environment conditions’, High Volt. Eng., 2012, 38, (12), pp. 32843291(in Chinese).
    49. 49)
      • 49. Bai, X., Li, J., Chen, Y., et al: ‘Research on electromagnetic environment of ±1100 kV UHVDC transmission lines’, Electr. Power, 2014, 47, (10), pp. 2429(in Chinese).
    50. 50)
      • 50. Zhang, B., Mo, J., Yin, H., et al: ‘Calculation of ion flow field around HVdc bipolar transmission lines by method of characteristics’, IEEE Trans. Magn., 2015, 51, (3), p. 7204604.
    51. 51)
      • 51. Yang, Y., Liu, Y., Wu, G., et al: ‘Analysis of ground total electric field of ±1100 kV DC transmission line’, High Volt. Eng., 2015, 41, (5), pp. 16441650(in Chinese).
    52. 52)
      • 52. Lu, H.: ‘Simulation of the electric field on the surface of the sub-conductor of ±1100 kV UHVDC transmission lines’. 2016 IEEE PES Asia-Pacific Power and Energy Conf., Xi'an, China, 2016, pp. 19701973.
    53. 53)
      • 53. Liu, Y., Guo, J., Lu, J.: ‘A high voltage direct current transmission line audible noise calculation method’, China: ZL 201210185387.3, 2013(in Chinese).
    54. 54)
      • 54. Zhao, L., Lu, J., Cui, X., et al: ‘The altitude effect and correction of audible noise for HVDC transmission lines’, IEEE Trans. Power Deliv., 2017, 32, (4), pp. 19541963.
    55. 55)
      • 55. Zhao, L., Cui, X., Xie, L., et al: ‘Altitude correction of radio interference of HVDC transmission lines part II: measured data analysis and altitude correction’, IEEE Trans. Electromagn. Compat., 2017, 59, (1), pp. 284292.
    56. 56)
      • 56. China Electricity Council. DL/T 275-2012: ‘The limits of electromagnetic environment limits at ±800 kV UHV DC converter station’ (China Electric Press, Beijing, 2012).
    57. 57)
      • 57. TBEA Shenyang Transformer Group Co., Ltd.: ‘Feasibility report on research of ±800 kV converter transformer's key technologies’, 23 June 2017. Available at http://www.docin.com/p-642528714.html.
    58. 58)
      • 58. Zhang, T., Nie, D., Ma, W.: ‘Design of ±1100 kV UHVDC converter transformers’, High Volt. Eng., 2012, 38, (12), pp. 32403243(in English).
    59. 59)
      • 59. Jiang, T., Cavallini, A., Montanari, G.C., et al: ‘The role of HVDC voltage waveforms on partial discharge activity in paper/oil insulation’. 2012 Annual Report Conf. on Electrical Insulation and Dielectric Phenomena, Piscataway, NJ, USA, 2012, pp. 424427.
    60. 60)
      • 60. Zhao, W., Qi, G., Li, W.: ‘Research on the main insulation structure of converter transformer applied to ±1100 kV DC transmission project’, Electr. Manuf., 2014, 5, pp. 4244(in Chinese).
    61. 61)
      • 61. Zhang, X., Tan, J., Niu, W., et al: ‘Bushing design of converter transformer's valve side’, High Volt. Eng., 2012, 38, (2), pp. 393399(in Chinese).
    62. 62)
      • 62. Sun, Y., Yuan, M.: ‘Solving problems in transporting ±1100 kV converter transformers by design method’, Electr. Manuf., 2012, 7, pp. 5256(in Chinese).
    63. 63)
      • 63. Sun, B.: ‘Disposition principle of smoothing reactors in UHV DC system’, Electr. Eng., 2009, 11, pp. 67, 40(in Chinese).
    64. 64)
      • 64. Zhu, H., Jiang, Z.: ‘The insulation performance analysis of UHV DC bushing under temperature’. 2016 IEEE Int. Conf. on Electronic Information and Communication Technology (ICEICT 2016), Harbin, China, 2016, pp. 236239.
    65. 65)
      • 65. Luo, X., Hu, W., Xu, T., et al: ‘Air gap flashover characteristics and selection of gap distances for ±1100 kV DCU-shaped wall bushing’, High Volt. Eng., 2017, 43, (3), pp. 946952(in Chinese).
    66. 66)
      • 66. Zhang, S., Peng, Z., Liu, P., et al: ‘Design and dielectric characteristics of the ±1100 kV UHVDC wall bushing in China’, IEEE Trans. Dielectr. Electr. Insul., 2015, 22, (1), pp. 409419.
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