Ocean Engineering Equipment and Technology ›› 2015, Vol. 2 ›› Issue (1): 64-71.
• Orginal Article • Previous Articles
Shu-bin WANG1, Ying LIU1, Hai-liang CAO1, Long-chuan GUO1, Jue WANG2, Chun-li ZHU2, Jia TIAN2
Received:
2015-11-27
Online:
2015-02-20
Published:
2016-03-31
CLC Number:
Shu-bin WANG, Ying LIU, Hai-liang CAO, Long-chuan GUO, Jue WANG, Chun-li ZHU, Jia TIAN. Simulation Study on Power Line Carrier Communication Design for Subsea Production Control System[J]. Ocean Engineering Equipment and Technology, 2015, 2(1): 64-71.
Table 3
Transmission characteristic of the downlink communication among infield umbilical cables
调制方式 | 路 径 | 带宽 /kHz | 传输速率 /(bit·s-1) |
---|---|---|---|
4QAM | SEM1→B→A→C→SEM5 | 5.6927 | 45044 |
SEM1→B→A→D→SEM7 | 9.0350 | 71491 | |
SEM5→C→A→B→SEM1 | 5.7427 | 45440 | |
SEM5→C→A→D→SEM7 | 20.4940 | 162162 | |
SEM7→D→A→B→SEM1 | 9.4555 | 74818 | |
SEM7→D→A→C→SEM5 | 16.0150 | 126721 |
[1] | Lim J S, Barker G L.Deepwater multiwell subsea production system[C]. OTC, 1986: 5092. |
[2] |
陈家庆. 海洋油气开发中的水下生产系统(一)[J]. 石油机械, 2007, 35(5): 54.
doi: 10.3969/j.issn.1001-4578.2007.05.017 URL |
[3] |
王玮, 孙丽萍, 白勇. 水下油气生产系统[J]. 中国海洋平台,2009, 24(6): 41.
doi: 10.3969/j.issn.1001-4500.2009.06.008 URL |
[4] | Bavidge M.Husky Liwan deepwater subsea control system[C]. OTC, 2013: 23960. |
[5] | Corneliussen S.KOS 200, the subsea control system for the Millenium[C]. SCADA, 2002: 111. |
[6] | Carlson B C.API offshore standards activities: subsea production systems[C]. OTC, 1986: 5242. |
[7] | Vichitrananda V, Simms N, Sumner J.Subsea processing in remote marginal fields[C]. SPE, 2012: 153345. |
[8] | Nelson S G.AKPO: the subsea production system[C]. OTC, 2010: 20993. |
[9] | 苏峰, 刘鸿雁, 王强. 电力/信号传输技术在水下生产系统的应用[J]. 石油化工自动化, 2008(5): 29. |
[10] | 张理. 水下生产控制系统设计探讨[J]. 中国造船,2010, 51(A02): 185. |
[11] | Hesbol S, Hprten V, Steigen V. Power line communication device for subsea well: USA, US2010/0052940 A1[P]. 2010-03-04. |
[12] | Horten V, Steigen V. Modem in particular for subsea power line communication: USA, 8279614[P].2012-10-02. |
[13] | Brekke E, Horten V, Steigen V. Method and modem for subsea power line communication: USA, 8199798[P].2012-06-12. |
[14] |
Zimmermann M, Dostert K.A multipath model for the powerline channel[J]. IEEE Trans Communications, 2002, 50(4): 553.
doi: 10.1109/26.996069 URL |
[15] | Philipps H.Modelling of powerline communication channels[C]. Powerline Communications and Its Applications, 1999: 14. |
[16] | Anatory J, Theethayi N, Thottappillil R, et al.The effects of interconnections and branched network in the broadband powerline communications[C]. International Gathering of Radio Science, 2005. |
[17] | Meng H, Chen S, Guan Y L, et al.A transmission line model for high-frequency power line communication channel[C]. International Conference on Power System Technology, 2002, 2: 1290. |
[18] | Guezgouz D, Lebunetel J C, Raingeaud Y.Electromagnetic compatibility between power line communication and powers converters[C]. IECON, 2009: 4098. |
[19] |
郭宏,高欢.水下生产系统脐带缆温度场与载流量分析的有限元方法[J].电线电缆,2013(3):5.
doi: 10.3969/j.issn.1672-6901.2013.03.002 URL |
[20] | 张力军, 钱学荣, 张宗橙. 通信原理[M].北京: 高等教育出版社, 2008. |
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