48 Liu S X, Pan Z Y, Zou X, et al.Depolymerization of polycarbonate in sub-critical water(in Chinese).Acta Polym Sin, 2011,(3):254-260 [柳世袭, 潘志彦, 邹霞, 等.聚碳酸酯在亚临界水中解聚的研究.高分子学报, 2011,(3):254-
[2]
49 Pan Z Y, Hu Z C, Shi Y H, et al.Depolymerization of polycarbonate with catalyst in hot compressed water in fused silica capillary and autoclave reactors.RSC Adv, 2014, 4:19992-19998
[3]
50 Liu L, Dai J J, Huang Y Y, et al.Catalytic depolymerization of polybutylene terephthalate in subcritical water(in Chinese).J Chem Eng Chin Univ, 2012, 26:524-530 [刘丽, 戴娟娟, 黄园园, 等.聚对苯二甲酸丁二醇酯在亚临界水中的催化解聚.高校化学工程学报, 2012, 26:524-
[4]
51 Pan Z Y, Shi Y H, Liu L, et al.Depolymerization of poly(butylene terephthalate) in sub- and supercritical ethanol in a fused silica capillary reactor or autoclave reactor.Polym Degrad Stab, 2013, 98:1287-1292
[5]
52 Wang M X, Pan Z Y, Dai J J, et al.Depolymerization of polyethylene terephthalate in sub- and supercritical water(in Chinese).J Chem Eng Chin Univ, 2011, 25:904-910 [王媚娴, 潘志彦, 戴娟娟, 等.超/亚临界水中聚对苯二甲酸乙二醇酯的解聚.高校化学工程学报, 2011, 25:904-
[6]
53 Liu Y P, Wang M X, Pan Z Y.Catalytic depolymerization of polyethylene terephthalate in hot compressed water.J Supercrit Fluids, 2012, 62:226-231
[7]
54 Gao J, Jin Z F, Pan Z Y.Depolymerization of poly(trimethylene terephthalate) in hot compressed water at 240-320℃.Polym Degrad Stab, 2012, 97:1838-1843
[8]
55 Huang Y Y, Jin Z F, Liu L, et al.The depolymerization of polyimide and the stability of 4,4-diaminodiphenyl ether in sub-critical water(in Chinese).Acta Sci Circumst, 2011, 31:2154-2161 [黄园园, 金赞芳, 刘丽, 等.亚临界水中聚酰亚胺的解聚及其单体稳定性的研究.环境科学学报, 2011, 31:2154-
[9]
56 Huang F, Huang Y Y, Pan Z Y.Depolymerization of ODPA/ODA polyimide in a fused silica capillary reactor and batch autoclave reactor from 320 to 350℃ in hot compressed water.Ind Eng Chem Res, 2012, 51:7001-7006
[10]
57 Liu Y P, Jin Z F, Liu L, et al.Stability of bisphenol A in high-temperature water in fused silica capillary reactor(in Chinese).CIESC J, 2011, 62:2527-2534 [柳颖萍, 金赞芳, 刘丽, 等.石英毛细管反应器内双酚A在高温水中的稳定性.化工学报, 2011, 62:2527-
[11]
58 Shen Y, Wu H Y, Pan Z Y.Co-liquefaction of coal and polypropylene or polystyrene in hot compressed water at 360-430℃.Fuel Process Technol, 2012, 104:281-286
[12]
59 Shen Y, Wu H Y, Li Y, et al.Coliquefaction of coal and polystyrene in supercritical water.Int J Green Energy, 2015, doi:10.1080/15435075.2014.961463
[13]
60 Wu H Y, Pan Z Y, Jin Z F, et al.Co-liquefaction of coal and polystyrene in supercritical water(in Chinese).J Fuel Chem Technol, 2011, 39:246-250 [吴海燕, 潘志彦, 金赞芳, 等.超临界水中煤与聚苯乙烯的共液化研究.燃料化学学报, 2011, 39:246-
[14]
61 Pan Z Y, Dong Z.Determination of chlorobenzene solubilities in subcritical water in a fused silica capillary reactor from 173 to 267℃.Ind Eng Chem Res, 2011, 50:11724-11727
[15]
62 Pan Z Y, Ma Y P, Chou I M.Solubility of 2,4-dichlorotoluene in water determined in fused silica capillary reactor by in situ Raman spectroscopy.AIChE J, 2013, 59:2721-2725
[16]
63 Zhou L, Pan Z Y, Lin C M, et al.Advances in study on solubility of inorganic salts in supercritical water(in Chinese).Mod Chem Ind, 2010, 30:33-37 [周黎, 潘志彦, 林春绵, 等.无机盐在超临界水中溶解性研究进展.现代化工, 2010, 30:33-
[17]
20 Hodes M, Griffith P, Smith K A, et al.Salt solubility and deposition in high temperature and pressure aqueous solutions.AIChE J, 2004, 50:2038-2049
[18]
21 Abdulagatov I M, Azizov N D.Experimental vapor pressures and derived thermodynamic properties of aqueous solutions of lithium sulfate from 423 to 573 K.Fluid Phase Equilib, 2004, 216:189-199
[19]
22 Pokrovski G S, Roux J, Hazemann J L, et al.An X-ray absorption spectroscopy study of argutite solubility and aqueous Ge(IV) speciation in hydrothermal fluids to 500℃ and 400 bar.Chem Geol, 2005, 217:127-145
[20]
23 Connolly J F.Solubility of hydrocarbons in water near the critical solution temperatures.J Chem Eng Data, 1966, 11:13-16
[21]
24 Ni L, Wang X B, Zhang L, et al.Study on critical solution temperature of water-phenol by means of cloud point(in Chinese).J Jiangsu Univ Nat Sci Ed, 2006, 27:364-367 [倪良, 王学宝, 张莉, 等.浊点法研究水-苯酚系统的临界溶解温度.江苏大学学报(自然科学版), 2006, 27:364-
[22]
25 Shvedov D, Tremaine P R.The solubility of sodium sulfate and the reduction of aqueous sulfate by magnetite under near-critical conditions.J Solut Chem, 2000, 29:889-904
[23]
26 Xiang B T, Wang T, Chen Z.The solubility of sodium sulfate in supercritical water(in Chinese).Chem Eng, 2001, 29:72-74 [向波涛, 王涛, 陈跖.超临界水中硫酸钠溶解度研究.化学工程, 2001, 29:72-
[24]
27 Khan M S, Rogak S N.Solubility of Na2SO4, Na2CO3 and their mixture in supercritical water.J Supercrit Fluids, 2004, 30:359-373
[25]
28 Higashi H, Iwai Y, Matsumoto K, et al.Measurement and correlation for solubilities of alkali metal chlorides in water vapor at high temperature and pressure.Fluid Phase Equilib, 2005, 228:547-551
[26]
29 Leusbrock I, Metz S J, Rexwinkel G, et al.Quantitative approaches for the description of solubilities of inorganic compounds in near-critical and supercritical water.J Supercrit Fluids, 2008, 47:117-127
[27]
30 Leusbrock I, Metz S J, Rexwinkel G, et al.The solubility of magnesium chloride and calcium chloride in near-critical and supercritical water.J Supercrit Fluids, 2010, 53:17-24
[28]
31 Leusbrock I, Metz S J, Rexwinkel G, et al.The solubilities of phosphate and sulfate salts in supercritical water.J Supercrit Fluids, 2010, 54:1-8
[29]
32 Haruki M, Iwai Y, Nagao S, et al.Measurement and correlation of phase equilibria for water+ hydrocarbon systems near the critical temperature and pressure of water.Ind Eng Chem Res, 2000, 39:4516-4520
[30]
33 Andersson T A, Hartonen K M, Riekkola M L.Solubility of acenaphthene, anthracene, and pyrene in water at 50℃ to 300℃.J Chem Eng Data, 2005, 50:1177-1183
[31]
34 Takebayashi Y, Sue K, Yoda S, et al.Solubility of terephthalic acid in subcritical water.J Chem Eng Data, 2012, 57:1810-1816
[32]
35 Miller D J, Hawthorne S B.Method for determining the solubilities of hydrophobic organics in subcritical water.Anal Chem, 1998, 70:1618-1621
[33]
36 Karásek P, Planeta J, Roth M.Solubility of solid polycyclic aromatic hydrocarbons in pressurized hot water at temperatures from 313 K to the melting point.J Chem Eng Data, 2006, 51:616-622
[34]
37 Miller D J, Hawthorne S B.Solubility of liquid organics of environmental interest in subcritical(hot/liquid) water from 298 K to 473 K.J Chem Eng Data, 2000, 45:78-81
[35]
38 Sue K, Usami T, Arai K, et al.Quinacridone solubility in hot-compressed water.J Chem Eng Data, 2007, 52:714-717
[36]
39 Zhang D, Montanés F, Srinivas K, et al.Measurement and correlation of the solubility of carbohydrates in subcritical water.Ind Eng Chem Res, 2010, 49:6691-6698
[37]
40 Srinivas K, King J W, Howard L R, et al.Solubility and solution thermodynamic properties of quercetin and quercetin dihydrate in subcritical water.J Food Eng, 2010, 100:208-218
[38]
41 Srinivas K, King J W, Howard L R, et al.Solubility of gallic acid, catechin, and protocatechuic acid in subcritical water from 298.75 to 415.85 K.J Chem Eng Data, 2010, 55:3101-3108
[39]
42 Liu H C, Pan Z Y.Visual observations and Raman spectroscopic studies of supercritical water oxidation of chlorobenzene in an anticorrosive fused-silica capillary reactor.Environ Sci Technol, 2012, 46:3384-3389
[40]
43 Jin J J, Wang J L, Shen Y, et al.Visual and Raman spectroscopic observations of hot compressed water oxidation of guaiacol in fused silica capillary reactors.J Supercrit Fluids, 2014, 95:546-552
[41]
44 Chen Y J, Jin Z F, Pan Z Y.In situ Raman spectroscopic study of hydrolysis of carbon tetrachloride in hot compressed water in a fused silica capillary reactor.J Supercrit Fluids, 2012, 72:22-27
[42]
45 He W J, Jin Z F, Wang J L, et al.Decomposition of 1,1,1-trichloroethane in hot compressed water in anti-corrosive fused silica capillary reactor and Raman spectroscopic measurement of CO2 product.Chem Eng Sci, 2013, 94:185-191
[43]
46 Pan Z Y, Chou I M, Burruss R C.Hydrolysis of polycarbonate in sub-critical water in fused silica capillary reactor with in situ Raman spectroscopy.Green Chem, 2009, 11:1105-1107
[44]
47 Huang Y Y, Liu S X, Pan Z Y.Effects of plastic additives on depolymerization of polycarbonate in sub-critical water.Polym Degrad Stab, 2011, 96:1405-1410
[45]
5 Kruse A, Dinjus E.Hot compressed water as reaction medium and reactant:Properties and synthesis reactions.J Supercrit Fluids, 2007, 39:362-380
[46]
6 Ma C Y, Jiang A X, Peng Y L, et al.Corrosion of titanic alloy steels in chlorine wastewater solution by supercrical water oxidation(in Chinese).J Yunnan Univ Nat Sci Ed, 2006, 28:274-276 [马承愚, 姜安玺, 彭英利, 等.钛合金在超临界水氧化含氯废水介质中腐蚀的研究.云南大学学报(自然科学版), 2006, 28:274-
[47]
7 Fredenslund A, Jones R L, Prausnitz J M.Group-contribution estimation of activity coefficients in nonideal liquid mixtures.AIChE J, 1975, 21:1086-1099
[48]
8 Galia A, Argentino A, Scialdone O, et al.A new simple static method for the determination of solubilities of condensed compounds in supercritical fluids.J Supercrit Fluids, 2002, 24:7-17
[49]
9 Chandler K, Eason B, Liotta C L, et al.Phase equilibria for binary aqueous systems from a near-critical water reaction apparatus.Ind Eng Chem Res, 1998, 37:3515-3518
[50]
10 Rojas A, Gros H P, Mabe G, et al.Liquid-liquid equilibrium for the ethanol + wate r+ propylene and 2-propanol + water + propylene systems from subcritical to near-critical conditions.J Chem Eng Data, 1999, 44:693-695
[51]
11 Kayan B, Yang Y, Lindquist E J, et al.Solubility of benzoic and salicylic acids in subcritical water at temperatures ranging from 298 to 473 K.J Chem Eng Data, 2010, 55:2229-2232
[52]
12 Carr A G, Mammucari R, Foster N R.Solubility, solubility modeling, and precipitation of naproxen from subcritical water solutions.Ind Eng Chem Res, 2010, 49:9385-9393
[53]
13 Carr A G, Mammucari R, Foster N R.Solubility and micronization of griseofulvin in subcritical water.Ind Eng Chem Res, 2010, 49:3403-3410
[54]
14 Carr A G, Branch A, Mammucari R, et al.The solubility and solubility modelling of budesonide in pure and modified subcritical water solutions.J Supercrit Fluids, 2010, 55:37-42
[55]
15 Teoh W H, Mammucari R, Vieira de Melo S A B, et al.Solubility and solubility modeling of polycyclic aromatic hydrocarbons in subcritical water.Ind Eng Chem Res, 2013, 52:5806-5814
[56]
16 Huang P, Yang R, Qiu T, et al.Solubility of fatty acids in subcritical water.J Supercrit Fluids, 2013, 81:221-225
[57]
17 Kapalavavi B, Ankney J, Baucom M, et al.Solubility of parabens in subcritical water.J Chem Eng Data, 2014, 59:912-916
[58]
18 Moore R C, Mesmer R E, Simonson J M.Solubility of potassium carbonate in water between 384 and 529 K measured using the synthetic method.J Chem Eng Data, 1997, 42:1078-1081
[59]
19 Hurst W S, Hodes M S, Bowers W J, et al.Optical flow cell and apparatus for solubility, salt deposition and Raman spectroscopic studies in aqueous solutions near the water critical point.J Supercrit Fluids, 2002, 22:157-166
[60]
1 Ikushima Y, Hatakeda K, Sato O, et al.Noncatalytic organic synthesis using supercritical water:The peculiarity near the critical point.Angew Chem Int Ed, 1999, 38:2910-2914
[61]
2 Tollb?ck J, Bigatá M B, Crescenzi C, et al.Feasibility of analyzing fine particulate matter in air using solid-phase extraction membranes and dynamic subcritical water extraction.Anal Chem, 2008, 80:3159-3167
[62]
3 Kamali H, Ghaziaskar H S.Pressurized hot water extraction of benzoic acid and phthalic anhydride from petrochemical wastes using a modified supercritical fluid extractor and a central composite design for optimization.J Supercrit Fluids, 2010, 54:16-21
[63]
4 Dinjus E, Kruse A.Hot compressed water—A suitable and sustainable solvent and reaction medium? J Phys Condens Matter, 2004, 16:S1161-S1169
