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| 阴极保护电位分布的数值计算 |
| 杜艳霞 |
| 中国石油大学(华东)油气储运专业 |
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| Numerical Calculation of Cathodic Protection Potential Distribution |
| 中国石油大学(华东)油气储运专业 |
[1]Degiorgi V G,Wimmer S A.Geometric details and modeling accu-racy requirements for shipboard impressed current cathodic protec-tion system modeling[J].Engineering Analysis with Boundary El-ements,2005,29:15-28
[2]Degiorgi V G,Thomas E D,Lucas K E.Scale effects and verifica-tion of modeling of ship cathodic protection systems[J].Engi-neering Analysis with Boundary Elements,1998,22:41-59
[3]Zamani N G.Boundary element simulation of the cathodic protec-tion system in a prototypic ship[J].Appl.Math.Comput,1988,26:119-134
[4]Bialecki R A,Ostrowski Z,Kassab A J,et al.Coupling BEM,FEM and analytic solutions in steady-state potential problems[J].Engineering Analysis with Boundary Elements,2002,26:597-611
[5]Douglas P R,Mark E O.A mathematical model for the cathodic protection of tank bottoms[J].Corros.Sci.,2005,47:849-868
[6]Santiago J A F,Tells J C F.A solution technique for cathodic pro-tection with dynamic boundary conditions by the boundary element method[J].Advances in Engineering Software,1999,30:663-671
[7]Hassanein A M,Glass G K,Buenfeld N R.Protection current dis-tribution in reinforced concrete cathodic protection systems[J].Cem.Concr.Compos.,2002,24:159-167
[8]Degiorgi V G.Evaluation of perfect paint assumptions in modeling of cathodic protection systems[J].Engineering Analysis with Boundary Elements.,2002,26:435-445
[9]Kranc S C,Alberto A S.Detailed modeling of corrosion macrocells on steel reinforcing in concrete[J].Corros.Sci.,2001,43:1355-1372
[10]Qiu F,Xu N X.Potential and current distribution on pipelines cathodically protected with ribbon sacrificial anodes[J].J.Chin.Soc.Corros.Prot.,1997,17(2):106-110(邱枫,徐乃欣.用带状牺牲阳极对埋地钢管实施阴极保护时的电位和电流分布[J].中国腐蚀与防护学报,1997,17(2):106-110)
[11]Qiu F,Xu N X.Potential distribution on cathodically protected steel pipe piles[J].J.Chin.Soc.Corros.Prot.,1997,17(1):12-18(邱枫,徐乃欣.码头钢管桩阴极保护时的电位分布[J].中国腐蚀与防护学报,1997,17(1):12-18)
[12]Qiu F,Xu N X.Potential distribution on cathodically protected external tank bottom[J].J.Chin.Soc.Corros.Prot.,1996,16(1):29-36(邱枫,徐乃欣.钢质贮罐底板外侧阴极保护时的电位分布[J].中国腐蚀与防护学报,1996,16(1):29-36)
[13]Zhang M D,Du Y L.Calculating potential distributions of ca-thodically protected subsea pipeline with finite difference method[J].J.Chin.Soc.Corros.Prot.,1994,14(1):77-81(张鸣镝,杜元龙等.有限差分法计算海底管道阴极保护时的电位分布[J].中国腐蚀与防护学报,1994,14(1):77-81)
[14]Qian H J,Liu X G,et al.Numerical simulation of cathodic pro-tection inside pipes(II)-calculating the potential distribution in-side large-size pipes by using the finite difference method[J].Chem.Eng.Mach.,1997,24(5):281-284(钱海军,刘小光,张树霞等.管内阴极保护的数值模拟(II)-有限差分法计算大口径管内的电位分布[J].化工机械,1997,24(5):281-284)
[15]Liu M,Yin Z A,et al.Calculation of potential distribution over cathodically protected inter-surface of pipe under flow condition[J].J.Dalian Univ.Technol.,1998,38(5):599-302(刘曼,殷正安,战广深.流动场管内阴极保护的电位分布计算[J].大连理工大学学报,1998,38(5):599-302)
[16]Liang X W,Wu Z Y,et al.Optimal control of current in an im-pressed cathodic protection system[J].J.Tianjin Inst.Text.Sci.Technol.,1999,18(1):37-40(梁旭魏,吴中元等.阴极保护系统中电流的优化控制[J].天津纺织工学院学报,1999,18(1):37-40)
[17]Ma W P,Zhang G Z,et al.Numerical modeling of deepwell an-ode to cathodic protection of bottom plate of tank[J].Oil Gas Stor-age and Transportation,2004,23(9):31-35(马伟平,张国忠.深井阳极对储罐底板阴极保护的数值模拟[J].油气储运,2004,23(9):31-35)
[18]Liang X W,Wu Z Y,et al.Study on the computer assistant op-timization design for the regional cathodic protection system[J]J.Tianjin Inst.Text.Sci.Technol.,1998,17(5):90-94(梁旭魏,吴中元等.油田区域性阴极保护计算机辅助优化设计研究[J].天津纺织工学院学报,1998,17(5):90-94)
[19]Meng X J,Wu Z Y,et al.Improvement of algorithm for regional cathodic protection model[J].J.Chin.Soc.Corros.Prot.,1998,18(3):221-224(孟宪级,吴中元等.区域性阴极保护数学模型算法的改进[J].中国腐蚀与防护学报,1998,18(3):221-224)
[20]Machczynski W.Computer simulation of cathodic protection of un-derground conductors of arbitrary[A].Corrosion Asia'94[C].Sin-gapour,1994,1098-1
[21]Li X Y,Weng Y J.Calculating potential distribution on exterior of tank bottoms by analytical algorithm[J].Acta Pet.Sin.,1998,19(3):98-114(李相怡,翁永基.金属储罐底板外侧阴极保护电位分布的解析计算法[J].石油学报,1998,19(3):98-114)
[22]Morgan,John.Cathodic Protection[M]Texas:National Associa-tion of Corrosion Engineers,1987,159-161
[23]Uhlig H H,Weng Y J.Corrosion and Corrosion Control(the Third Edition)[M].Beijing:Petroleum Industry Publishing Company,1985,516(Uhlig H H著,翁永基译.腐蚀与腐蚀控制(第三版)[M].北京:石油工业出版社,1985,516)
[24]Emenike C O.Mathematical modeling of cathodic protection sys-tems for oil and gas facilities[J].Anti-Corrosion Methods and Materials,1995,42(4):6
[25]Glass G K,Buenfeld N R.On the current density required to protect steel in atmospherically exposed concrete structure[J].Corros.Sci.,1995,37(10):1643-1646
[26]Glass G K,Buenfeld N R,Hassanein A M.Monitoring the pas-sivation of steel in concrete induced by cathodic protection[J].Corros.Sci.,1997,39(8):1451-1458
[27]Ashworth V.Cathodic Protection-Theory and Practice[M].Lon-don:Ellis Horwood Limited,1986,31
[28]Thompson N G.Exploring the complexity of the mechanism of ca-thodic protection[A].Corrosion/94(NACE)[C].Baltimore,1994,580
[29]Tighe-Ford D J,Botten R A,et al.Study of design criteria for ship impressed-current cathodic protection by stylized modeling[J].Corros.Prev.Control,1990,37(2):5-11
[30]Chen S W,Hartt W H.Cathodic polarization characteristic of steel in sea water and a new approach for cathodic protection system design[J].Corros.Sci.Prot.Technol.,1996,8(1):17-25(陈绍伟,Hartt W H.钢在海水中的阴极极化特点及阴极保护系统设计中的新途径[J].腐蚀科学与防护技术,1996,8(1):17-25)
[31]Emenike C O.Mathematical modeling of cathodic protection sys-tems for oil and gas facilities[J].Anti-Corrosion Methods and Materials,1995,42(4):6
[32]Doig P,Flewitt P E J.A finite difference numerical analysis ofgalvanic corrosion[J].Electrochem.J.Soc.,1979,126(12):2057-2063
[33]Strommen R,Arild R.Computerized techniques applied in design of offshore cathodic protection systems[J].Mater.Performance,1981,20(4):15-20
[34]Helle H P E,Beek G H M,Ligtelijin J T.Numerical determina-tion of potential distributions and current densities in multi-elec-trode systems[J].Corrosion,1981,37(9):522-530
[35]Kasper R G,April M G.Electro galvanic finite element analysis of partially protected marine structures[J].Corrosion,1983,39(5):181-188
[36]Munn R S.A Mathematical model for a galvanic anode cathodic protection system[J].Mater.Performance,1982,21(8):29-36
[37]Chin D T,Sabde G M.Current Distribution and electrochemical environment in a cathodically protected crevice[J].Corrosion,2000,56(3):229-237
[38]Chin D T,Sabde G M.Modeling transport process and current distribution in a cathodically protected crevice[J].Corrosion,2000,56(8):783-793
[39]Cherry B W,Foo M,Siauw T H.Boundary element method analy-sis of the potential field associated with a corroding electrode[J].Corrosion,1986,42(11):654-662
[40]Brichau F,Deconinck J.A numerical model for cathodic protec-tion of buried pipes[J].Corrosion,1994,50(1):39-49
[41]Liu X D,Lin X,et al.Numerical calculation of electric field of12kV/31.5kA vacuum circuit breaker arc chamber[J].J.Shenyang Univ.Technol.,2003,25(4):294-298(刘向东,林莘等.12kV/31.5Ka真空断路器灭弧室电场的数值计算[J].沈阳工业大学学报,2003,25(4):294-298)
[42]Yu H L,Cui Q L,et al.Analysis of3D thermo-electric field po-tential for300kA aluminum electrolysis cell using ANSYS[J].Non-Ferrous Mining and Metallurgy,2004,20(3):30-32(喻海良,崔青玲等.300Ka铝阳极电解槽三维电热场电位AN-SYS分析[J].有色矿冶,2004,20(3):30-32)
[43]Lu B X,Wang Z Z,et al.Voltage response analysis for fault transmission line[J].J.North China Electric Power University,2002,29(2):31-33(卢斌先,王泽忠等.故障传输线的电压响应分析[J].华北电力大学学报,2002,29(2):31-33) |
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