[1] Modell M. Processing methods for the oxidation of organic in supercritical water[P] . US 4 338 199. 1982
[2] 张丽, 韩恩厚, 关辉, 等. 超临界水氧化环境中材料腐蚀的研究现状[J] . 材料导报, 2001, 15( 5) : 8- 10
[3] Franck E U. High-Pressure Electrochemistry in Aqueous Solutions[C] .Houston: NACE, 19761109- 121
[4] Haor L, Gallagher J S, Kell G S. NBSPNRC Steam tables[M] . New York:Hemisphere Publish Crop., 1984134- 35
[5] Tester J W, Holgate H R, Armellini F J, et al. Emerging technologies for Waste Management ó [A] . In: ACS Symposium series[C] . Washing-ton, D. C. 1993. 518- 534
[6] 李锋, 赵建夫, 李光明, 等. 超临界水氧化技术的研究与应用进展[J] . 工业用水与废水, 2001, 32( 6) : 8- 10
[7] 向波涛, 王涛, 杨基础, 等. 一种新兴的高效废水处理技术))) 超临界水氧化[J] . 化工进展, 1997, 16( 3) : 39- 44
[8] 黄汉生1 处理城市污水污泥的超临界水氧化法[J] . 工业用水与废水, 2001, 32( 6) :38
[9] Latanision R M,Shaw R W. Corrosion in supercritical water systems[A] .In: MIT. The Energy Laboratory, workshop Summary [R] . Bostom, MA: Massachusetts Institute of Technology, 1993.14- 22
[10] Kritzer P, Boukis N, Dinjus E. Investigations of the corrosion of reactor materials during the process of supercritical water oxidation ( SCWO )[A] . In:Goi A. Proceedings of the SixthMeeting on Supercritical Fluids[C] .Nottingham,UK, 1999.433- 438
[11] Kritzer P, Boukis N, Dinjus E.Factors controlling corrosion in high-tem-perature water. A contribution to the dissociation and solubility date in-fluencing corrosion procession[J] . J. Supercritical Fluids, 1999, 15( 3) :205- 227
[12] Kritzer P, Boukis N, Dinjus E. Review of the corrosion of nicke-l base a-l loys andstainless steels in strongly oxidizing pressurizedhigh-temperature solution at sub- and supercritical temperature[J] . Corrosion, 2000, 56 (11) : 1 093- 1 104
[13] Boukis N, Friedrich C, Dinjus E. Titaium as reactor material for SCWO applications[C] . Corrosion . 98,Houston,TX, paper No. 417:7- 12
[14] Kritzer Peter, Dinjus Eckhard. An assessment of supercritical water ox-i dation( SCWO) ))) Existing problems, possible solutions and new reac-tor concepts[J] .Chemical Engineering Journal,2001, 83( 3) :207- 214
[15] Kriksunov L B,MacDonald D D. Corrosion in supercritical water oxida-tion systems: a phenomenological analysis[J] . J. Electrochem. Soc.,1995, 142( 12) : 4 069- 4 078
[16] Latanision R M, Corrosion science, corrosion engineering, and ad- vanced technologies[J] . Corrosion, 1995, 51( 3) : 270- 271
[17] Kritzer P, Boukis N, Dinjus E. Change of Corrosion Phenomena in Sub-and Supercritical Water[C] . Eurocorr . 97,Trondheim, Norway, 1997:229- 231
[18] Kritzer P, Boukis N, Dinjus E.Transpassive dissolution of nicke-l base a-lloys and stainless steels in oxygen- and chloride- containing high-temper-ature water[J] . Mater. Corros., 1997, 48( 12) : 799- 805
[19] Kritzer P, Boukis N, Dinjus E. Corrosion of alloy 625 in aqueous chlo-ride and oxygen containing solutions[J] . Corrosion, 1998, 54( 10) : 824- 834
[20] Kritzer P,Boukis N,Dinjus E. Corrosion of alloy 625 in high temperature sulfate solution[J] . Corrosion, 1998, 54(9) : 689- 699
[21] Kritzer P, Boukis N, Dinjus E. Corrosionof alloy 625( NiCr22Mo9Nb;
2.4856) in high-temperature, high-pressure aqueous solution of phosphoric acid and oxygen. Corrosion at sub-and supercritical temperatures[J] .Mater. Corros., 1998, 49( 11) : 831- 839
[22] Kritzer P. Die Korrosion der Nicke-l Basis-Legierung 625 unterhydrother-malen Bedingungen[R] . Karlsruhe: Forschungszentrum Karlsruhe Gm-bH,1998. 180- 181
[23] Mitton D B,Yoon JH, Latanision R M. Overview of corrosion phenomenain SCWO systems for hazardous waste destruction [J ] . Zaryo-to-KanKyo ))) Corros. Eng., 2000, 49( 2) :130- 141
[24] Fodi S,Konys J,Hausselt J, et al. Corrosion of hightemperature alloys insupercritical water oxidation systems[C] . Corrosion. 98, Houston, TX,paper No.416, 1998:10- 17
[25] Armellini F J, Tester J M. Experimental methods for studying salt nucle-ation and growth from supercritical water[J] . J. Supercritical Fluids,1991, 4(3) : 254- 260
[26] Armellini F J, Tester J M. Precipitation of sodium chloride and sodium sulfate in water from sub- to supercritical conditions: 150- 550; 100- 300 bar[J] . J.Supercritical fluids, 1994, 7(2) : 147- 159
[27] Rogak S N, Teshima P. Deposition of sodium sulfate in a heated flow ofsupercritical water[J] . AIChE J.,1999, 45(2) : 240- 247
[28] Oelkers E H, Helgeson H C. Multiple ion association in supercritical aqueous solutions of single electrolytes[J] .Science, 1993, 261( 5 051) :888- 896
[29] Whiting P,Metha A H. Supercritical water oxidation of organics using a mobile surface[P] .US 5 543 057, 1996
[30] Barner H E, Huang C Y, Johnson T, et al. Supercritical water oxidation:an emerging technology[J] . J. Hazardous Mater., 1992, 31(1) : 1- 4
[31] LaRoche H L,WeberM,TreppC. Design rulesforthe wallcooled hydro-thermal burner ( WHB) [J] . Chem. Eng. Technol., 1997, 20( 3) : 208 - 211
[32] McGuinness T C. Supercritical water oxidation reactor apparatus andmethod[P] . US 5 384 051, 1995
[33] Muggenburg H H, Rousar D C, Young M F. SCWO reactor with wallconduits for boundary flow control[P] .US 5 387 398, 1995
[34] SchmiederH, Dinjus E,Goldacker H, et al. Experience with supercriticaloxidation for hazardous waste treatment[A] . In: Reverchon E. Proceed- ings of the Fourth Italian Conference on SCF andTheirApplications[C] .Capri, Italy, 199716- 12 |