Clathrate hydrate technology for cold storage in air conditioning systems

Renewable and Sustainable Energy Reviews

Volumn 36, Issue , 2014, Pages 34-51

  Wang, Xiaolin ^a   Dennis, Mike ^a   Hou, Liangzhuo ^a  

^a AUSTRALIAN NATIONAL UNIVERSITY   (Australia)

Author keywords

Clathrate hydrate; Cold storage air conditioning system; Improvement method; System performance

Indexed keywords

AIR CONDITIONING; CARBON DIOXIDE; COLD STORAGE; COOLING SYSTEMS; HYDRATION; PHASE CHANGE MATERIALS;

CLATHRATE HYDRATE; DISSOCIATION ENTHALPIES; EQUILIBRIUM PRESSURE; HEAT TRANSFER PROPERTIES; HYDRATE STRUCTURES; IMPROVEMENT METHODS; PHASE CHANGE TEMPERATURE; SYSTEM PERFORMANCE;

GAS HYDRATES;

EID: 84899819885     PISSN: 13640321     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.rser.2014.04.032     Document Type: Review

References (167)

1. 2 hydrate slurry application in air conditioning system with cool storage J Refrig 33 3 2012 1 4 ([in Chinese])
2. Sloan E. Dendy, and Carolyn A. Koh Clathrate hydrates of natural gases 3rd ed 2007 CRC Press FL, USA 1
3. John Carroll Natural gas hydrates - a guide for engineers 2nd ed 2009 Elsevier Science & Technology MA, USA 1
4. Satoshi Takeya, and John A. Ripmeester Dissociation behavior of clathrate hydrates to ice and dependence on guest molecules Angew Chem Int Ed Engl 47 7 2008 1276 1279
5. Ali Eslamimanesh, Amir H. Mohammadi, and Dominique Richon Thermodynamic model for predicting phase equilibria of simple clathrate hydrates of refrigerants Chem Eng Sci 66 21 2011 5439 5445
6. Shunsuke Hashimoto, Hiroshi Miyauchi, and Yoshiro Inoue et al. Thermodynamic and Raman Spectroscopic studies on difluoromethane (HFC-32)+water binary system J Chem Eng Data 55 2010 2764 2768
7. Shunsuke Hashimoto, Takashi Makino, and Yoshiro Inoue et al. Three-phase equilibrium relations and hydrate dissociation enthalpies for hydrofluorocarbon hydrate systems: HFC-134a, -125, and -143a hydrates J Chem Eng Data 55 2010 4951 4955
8. L.C. Wilson, W.V. Wilding, and G.M. Wilson et al. Thermophysical properties of HFC-125 Fluid Phase Equilib 80 1992 167 177 (Pubitemid 23634150)
9. Y. Higashi Critical parameters for HFC134a, HFC32 and HFC125 Int J Refrig 17 8 1994 524 531
10. Tomohiro Ogawa, Tomonari Ito, and Kenji Watanabe et al. Development of a novel hydrate-based refrigeration system: a preliminary overview Appl Therm Eng 26 2006 2157 2167 (Pubitemid 43928770)
11. Chen Jinggui, Fan Shuanshi, and Liang Deqing Progress of cool storage technology with gas hydrate Chem Ind Eng Prog 22 9 2003 942 946 ([in Chinese]) (Pubitemid 37398735)
12. Li Gang, Xie Yingming, and Liu Daoping New type gas hydrate cool-storage media J Refrig 29 3 2008 18 23 ([in Chinese])
13. J.S. Lim, J.Y. Park, and B.G. Lee et al. Phase equilibria of 1,1,1-trifluoroethane (HFC-143a)+1,1,1,2-tetrafluoroethane (HFC-134a), and +1,1-difluoroethane (HFC-152a) at 273.15, 293.15, 303.15, and 313.15 K Fluid Phase Equilib 193 2002 29 39 (Pubitemid 34097791)
14. J.Y. Park, J.S. Lim, and B.G. Lee et al. High pressure vapor-liquid equilibria of binary mixtures composed of HFC-32, 125, 134a, 143a, 152a, 227ea and R600a (isobutane) Fluid Phase Equilib 194-197 2002 981 993 (Pubitemid 34242619)
15. Masanao Kobayashi, and Hideo Nishiumi Vapor-liquid equilibria for the pure, binary and ternary systems containing HFC32, HFC125 and HFC134a Fluid Phase Equilib 144 1-2 1998 191 202 (Pubitemid 28416137)
16. J.Y. Park, J.S. Lim, and B.G. Lee et al. Phase equilibria of CFC alternative refrigerant mixtures: 1,1,1,2,3,3,3-heptafluoropropane (HFC-227ea)+difluoromethane (HFC-32),+1,1,1,2-tetrafluoroethane (HFC-134a), and +1,1-difluoroethane (HFC-152a) Int J Thermophys 22 3 2001 901 917
17. Tomasz Gierczak, Ranajit K Talukdar, and James B Burkholder et al. Atmospheric fate and greenhouse warming potentials of HFC 236fa and HFC 236ea J Geophys Res 101 D8 1996 12,905 12,911
18. J.S. Lim, J.Y. Park, and B.G. Lee Vapor-liquid equilibria of CFC alternative refrigerant mixtures: trifluoromethane (HFC-23)+difluoromethane (HFC-32), trifluoromethane (HFC-23)+ pentafluoroethane (HFC-125), and pentafluoroethane (HFC-125)+ 1,1-difluoroethane (HFC-152a) Int J Thermophys 21 6 2000 1339 1349 (Pubitemid 32409049)
19. Liu Na, Wang Xuyang, and Li Junming Experimental investigation on heat transfer of R152a during condensation in a circular microchannel J Eng Thermophys 34 3 2013 517 521 ([in Chinese])
20. Yuko Uchida, Masahiko Yasumoto, and Yasufu Yamada et al. Critical properties of four HFE+HFC binary systems: trifluoromethoxymethane (HFE-143m)+pentafluoroethane (HFC-125),+1,1,1,2-tetrafluoroethane (HFC-134a),+1,1,1,2,3,3,3-heptafluoropropane (HFC-227ea), and +1,1,1,2,3,3-hexafluoropropane (HFC-236ea) J Chem Eng Data 49 2004 1615 1621
21. Lin Hong, Duan Yuanyuan, and Wang Zhongwei Surface tension measurements of 1,1,3,3-pentafluoropropane (HFC-245fa) and 1,1,1,3,3,3-hexafluoropropane (HFC-236fa) from 254 to 333 K Fluid Phase Equilib 214 1 2003 79 86
22. L. Zipfel, W. Krucke, and K. Borner et al. HFC-365mfc and HFC-245fa progress in application of new HFC blowing agents J Cell Plast 34 1998 511 525 (Pubitemid 128660477)
23. Li Ning, Zhang Xin, and Bai Hao et al. The study on thermal performance of power generation system using organic rankine cycle and reheating cycle system Ind Heat 41 2 2012 44 47 ([in Chinese])
24. Sergio Bobbo, Mauro Scattolini, and Laura Fedele et al. Compressed liquid densities and saturated liquid densities of HFC-365mfc Fluid Phase Equilib 222-223 2004 291 296 (Pubitemid 39119885)
25. 3 Fluid Phase Equilib 118 1996 61 76 (Pubitemid 126384687)
26. 2 hydrates in refrigeration processes Ind Eng Chem Res 43 2004 6521 6526
27. 2 mixed gas hydrates during formation and long-term storage Chem Phys Chem 6 2005 646 654
28. Sloan E. Dendy, and Carolyn A. Koh Clathrate hydrates of natural gases 3rd ed 2007 CRC Press FL, USA 78
29. 2 hydrate slurry in an experimental loop applied to secondary refrigeration Chem Eng Process 45 2006 184 192
30. 2 capture by hydrate formation in quiescent conditions: in search of efficient kinetic additives Energy Proc 4 2011 621 628
31. 2+tetra-n-butylammonium bromide aqueous solution systems under hydrate stability conditions Chem Eng Sci 84 24 2012 40 47
32. Li Xiaosen, Xu Chungang, and Chen Zhaoyang et al. Hydrate-based pre-combustion carbon dioxide capture process in the system with tetra-n-butyl ammonium bromide solution in the presence of cyclopentane Energy 36 2011 1394 1403
33. 2O) J Chem Thermodyn 43 10 2011 1475 1479
34. 2 hydrates applied to secondary refrigeration Ind Eng Chem Res 45 2006 391 397
35. 2 clathrate hydrates Chem Eng Sci 64 2009 5125 5130
36. 2 capture by hydrate crystallization - a potential solution for gas emission of steelmaking industry Energy Convers Manag 48 4 2007 1313 1322 (Pubitemid 46283110)
37. 2 hydrate formation. In: Proceedings of 8th IIR conference on phase change materials and slurries for refrigeration and air conditioning. Karlsruhe, Germany; 2009.
38. 2 hydrate formation in a continuous flow reactor Chem Eng J 172 2011 144 157
39. 2 hydrate formation in a continuous flow reactor Energy Fuels 22 2008 2649 2659
40. Li Gang, Xie Yingming, and Liu Daoping Advances of gas hydrate cool storage media selection J Refrig 29 3 2008 18 23 ([in Chinese])
41. Sebastien Bergeron, Juan G. Beltrán, and Phillip Servio Reaction rate constant of methane clathrate formation Fuel 89 2 2010 294 301
42. P. Englezos, N. Kalogerakis, and P.D. Dholabhai et al. Kinetics of formation of methane and ethane gas hydrates Chem Eng Sci 42 1987 2647 2658 (Pubitemid 18531907)
43. Moridis GJ, Seol Y, Kneafsey TJ. Studies of reaction kinetics of methane hydrate dissociation in porous media. In: Proceedings of 5th international conference on gas hydrates. Trondheim, Norway; 2005.
44. E.D. Sloan, and F. Fleyfel Hydrate dissociation enthalpy and guest size Fluid Phase Equilib 76 1992 123 140 (Pubitemid 23572220)
45. W.M. Deaton, and E.M. Frost Gas hydrates and their relation to the operation of natural-gas pipe lines US Bur Mines Monogr 8 1946 101
46. Toshiyuki Nakamura, Takashi Makino, and Takeshi Sugahara et al. Stability boundaries of gas hydrates helped by methane - structure-H hydrates of methylcyclohexane and cis-1,2-dimethylcyclohexane Chem Eng Sci 58 2 2003 269 273 (Pubitemid 36141382)
47. O. Harry, McLeod Jr, and John M. Campbell Natural gas hydrates at pressures to 10,000 psia J Pet Technol 13 6 1961 590 594
48. Donald R. Marshall, Shozaburo Saito, and Riki Kobayashi Hydrates at high pressures: part I. Methane-water, argon-water, and nitrogen-water systems AIChE J 10 2 1964 202 205
49. Shinya Nakano, Masato Moritoki, and Kazunari Ohgaki High-pressure phase equilibrium and Raman microprobe spectroscopic studies on the methane hydrate system J Chem Eng Data 44 2 1999 254 257
50. D. Avlonitis Multiphase equilibria in oil-water hydrate forming systems [M.S. thesis] 1988 Heriot-Watt University Scotland
51. G.D. Holder, and J.H. Hand Multiple-phase equilibria in hydrates from methane, ethane, propane and water mixtures AIChE J 28 3 1982 440 447 (Pubitemid 12524671)
52. Kentaro Morita, Shinya Nakano, and Kazunari Ohgaki Structure and stability of ethane hydrate crystal Fluid Phase Equilib 169 2000 167 175 (Pubitemid 32472236)
53. B. Miller, and E.R. Strong Hydrate storage of natural gas Am Gas Assoc Mon 28 2 1946 63
54. 2), and propane hydrates for desalination of sea water J Chem Eng Jpn 17 4 1984 423 429 (Pubitemid 14644751)
55. M.M. Mooijer-van den Heuvel, C.J. Peters, and J. de Swaan Arons Gas hydrate phase equilibria for propane in the presence of additive components Fluid Phase Equilib 193 1-2 2002 245 259 (Pubitemid 34097807)
56. Schneider GR, Farrar J. Nucleation and growth of ice crystals. U.S. Department of Interior, Research Development. Report no. 292; 1968. p. 37.
57. Olivier S Rouherl, and Allen J Barduhn Hydrates of iso- and normal butane and their mixtures Desalination 6 1 1969 57 73
58. S.S. Fan, D.Q. Liang, and K.H. Guo Hydrate equilibrium conditions for cyclopentane and a quaternary cyclopentane-rich mixture J Chem Eng Data 46 2001 930 932 (Pubitemid 32672392)
59. Akiya Takaji, Shimazaki Tomio, Oowa Masaru, et al. Phase equilibria of some alternative refrigerants hydrates and their mixtures using for cool storage materials. In: Proceedings of 32nd intersociety energy conversion engineering conference. Honolulu, Hawaii; 1997.
60. Lim Jong Sung, Seong Gimyeong, and Roh Hee-Kook et al. Vapor-liquid equilibria for propane (R-290)+1,1,1,2,3,3,3-heptafluoropropane (HFC-227ea) at various temperatures J Chem Eng Data 52 2007 2250 2256
61. Guo Kaihua, Shu Bifen, and Zhang Yi et al. Phase-equilibrium properly of HFC134a/HCFC141b mixed gas hydrate J Eng Thermophys 19 4 1998 480 483 ([in Chinese])
62. Wang Huaixin, Sun Junying, and Fu Li et al. Performance of HFC32/HFC143a/HFC134a as a substitute for HCFC22 in air conditioning & direct cool storage cycle J Eng Thermophys 21 2 2000 153 155 ([in Chinese])
63. Liang Deqing The thermodynamic study on the phase equilibrium of new-type cool storage media refrigerant gas hydrates [PhD. thesis] 2001 Shanghai Jiao Tong University China
64. Jashwantsinh L Thakore, and D. Holder Gerald Solid vapor azeotropes in hydrate-forming systems Ind Eng Chem Res 26 3 1987 462 469 (Pubitemid 17589978)
65. G.D. Holder, and G.C. Grigoriou Hydrate dissociation pressures of (methane+ethane+water) existence of a locus of minimum pressures J Chem Thermodyn 12 11 1980 1093 1104
66. V.K. Verma Gas hydrate from liquid hydrocarbon-water system [PhD. thesis] 1974 University of Michigan USA
67. Bing-Jing Wu, B. Robinson Donald, and Heng-Joo Ng Three- and four-phase hydrate forming conditions in methane+isobutane+water J Chem Thermodyn 8 5 1976 461 469
68. H.J. Ng, and D.B. Robinson The role of n-butane in hydrate formation Chem Eng J 22 4 1976 656 661
69. G.D. Holder, and V.A. Kamath Hydrates of (methane+cis-2-butene) and (methane+trans-2-butene) J Chem Thermodyn 16 4 1984 399 400
70. Paranjpe SG, Patil SL, Kamath VA, et al. Hydrate equilibria for binary and ternary mixtures of methane, propane, isobutane, and n-Butane: effect of salinity. In: Proceedings of 62nd SPE annual conference. Dallas, USA; 1987.
71. S.P. Godbole Dissociation pressures of propane and I-butane hydrates below the ice point [M.S. thesis] 1981 University of Pittsburgh USA
72. Sanggono Adisasmito, Robert J Frank III, and E. Dendy Sloan Jr. Hydrates of carbon dioxide and methane mixtures J Chem Eng Data 36 1 1991 68 71
73. 2-rich binary and quaternary gas mixtures in aqueous sodium chloride solutions J Chem Eng Data 44 4 1999 829 832
74. 4 mixed hydrate system J Chem Eng Jpn 29 3 1996 478 483 (Pubitemid 126596767)
75. D.B. Robinson, and B.R. Mehta Hydrates in the propane-carbon dioxide-water system J Can Pet Technol 48 1971 642 644
76. Adisasmito Sanggono, and Sloan E Dendy Jr. Hydrates of hydrocarbon gases containing carbon dioxide J Chem Eng Data 37 3 1992 343 349
77. Heng-Joo Ng, P. Petrunia Jonathan, and B. Robinson Donald Experimental measurement and prediction of hydrate forming conditions in the nitrogen-propane-water system Fluid Phase Equilib 1 4 1977-1978 283 291
78. S.P. Kang, H. Lee, and B.J. Ryu Enthalpies of dissociation of clathrate hydrates of carbon dioxide, nitrogen, (carbon dioxide+nitrogen), and (carbon dioxide+nitrogen+tetrahydrofuran) J Chem Thermodyn 33 5 2001 513 521
79. Mei Donghai, Liao Jian, and Yang Jitao et al. Hydrate formation of a synthetic natural gas mixture in aqueous solutions containing electrolyte, methanol, and (electrolyte+methanol) J Chem Eng Data 43 2 1998 178 182
80. I. Wilcox Willard, D.B. Carson, and D.L. Katz Natural gas hydrates Ind Eng Chem 33 5 1941 662 665
81. Kobayashi R, Withrow HJ, Williams GB, et al. Gas hydrate formation with brine and ethanol solutions. In: Proceedings of 13th annual convention. Tulsa, USA: Oklahoma Natural Gasoline Association of America; 1951.
82. Lapin A, Cinnamon SJ. Problem of hydrate formation in natural gas systems. In: Proceedings of liquid natural gas: its production, handling, and use. London, Britain; 1969.
83. B. Tohidi, A. Danesh, and A.C. Todd et al. Equilibrium data and thermodynamic modeling of cyclopentane and neopentane hydrates Fluid Phase Equilib 138 1997 241 250 (Pubitemid 127404715)
84. P. Zhang, Z.W. Ma, and R.Z. Wang An overview of phase change material slurries: MPCS and CHS Renew Sustain Energy Rev 14 2 2010 598 614
85. 2 syngas mixture using semi-clathrate hydrates Chem Eng Res Des 89 9 2011 1747 1751
86. 2 capture by hydrate crystallization - a potential solution for gas emission of steelmaking industry Energy Convers Manag 48 4 2007 1313 1322 (Pubitemid 46283110)
87. Mosayyeb Arjmandi, Antonin Chapoy, and Bahman Tohidi Equilibrium data of hydrogen, methane, nitrogen, carbon dioxide, and natural gas in semi-clathrate hydrates of tetrabutyl ammonium bromide J Chem Eng Data 52 2007 2153 2158 (Pubitemid 350229743)
88. 2 J Chem Thermodyn 56 2013 149 152
89. 2 hydrates in relation with refrigeration applications AIChE J 54 4 2008 1088 1095 (Pubitemid 351529955)
90. Ripmeester JA, Ratcliffe CI, McLaurin GE. The role of heavier hydrocarbons in hydrate formation. In: Proceedings of AIChE spring meeting - hydrates in the gas industry. Houston, USA; 1991.
91. J.S. Zhang, and W. Lee Jae Equilibrium of hydrogen+cyclopentane and carbon dioxide+cyclopentane binary hydrates J Chem Eng Data 54 2009 659 661
92. 2 clathrate hydrate slurries for secondary refrigeration applications. In: Proceedings of 9th IIR conference on PCMs and slurries for refrigeration and air conditioning. Sofia, Bulgaria; 2010.
93. K.K. ∅stergaard, B. Tohidi, and R. Anderson et al. Can 2-propanol form clathrate hydrates? Ind Eng Chem Res 41 2002 2064 2068 (Pubitemid 34453322)
94. Ryo Ohmura, Satoshi Takeya, and Tsutomu Uchida et al. Clathrate hydrate formed with methane and 2-propanol: confirmation of structure II hydrate formation Ind Eng Chem Res 43 2004 4964 4966 (Pubitemid 39014294)
95. Ali Eslamimanesh, Farhad Gharagheizi, and Mohammad Illbeigi et al. Phase equilibrium modeling of clathrate hydrates of methane, carbon dioxide, nitrogen, and hydrogen+water soluble organic promoters using support vector machine algorithm Fluid Phase Equilib 316 2012 34 45
96. Khalik M Sabil, Geert-Jan Witkamp, and Cor J. Peters Estimations of enthalpies of dissociation of simple and mixed carbon dioxide hydrates from phase equilibrium data Fluid Phase Equilib 290 2010 109 114
97. 2 J Therm Anal Calorim 98 2009 113 118
98. 2 from simulated flue gas by formation of TBAB or TBAF semiclathrate hydrates Energy Fuels 23 8 2009 4202 4208
99. Y. Kamata, Y. Yamakoshi, and T. Ebinuma et al. Hydrogen sulfide separation using tetra-n-butyl ammonium bromide semi-clathrate (TBAB) hydrate Energy Fuels 19 2005 1717 1722
100. A.A. Khokhar, J.S. Gudmundsson, and E.D. Sloan Gas storage in structure H hydrates Fluid Phase Equilib 150-151 1998 383 392 (Pubitemid 29149562)
101. 2 hydrate slurry in a dynamic loop applied to secondary refrigeration Chem Eng Sci 63 2008 3551 3559
102. 2 and methane hydrate formation: an experimental analysis in the bulk phase Fuel 90 2011 272 279
103. Xie Yingming, Li Gang, and Liu Daoping et al. Experimental study on a small scale of gas hydrate cold storage apparatus Appl Energy 87 2010 3340 3346
104. Praveen Linga, Rajnish Kumar, and Ju Dong Lee et al. A new apparatus to enhance the rate of gas hydrate formation: application to capture of carbon dioxide Int J Greenh Gas Control 4 4 2010 630 637
105. F. Laugier, C. Andriantsiferana, and A.M. Wilhelm et al. Ultrasound in gas-liquid systems: effects on solubility and mass transfer Ultrason Sonochem 15 2008 965 972
106. Liu Yonghong, Guo Kaihua, and Liang Deqing Study on refrigerant hydrate crystallization process in the action of ultrasonic J Eng Thermophys 24 3 2003 385 387 ([in Chinese])
107. Kazunori Okutani, Yui Kuwabara, and Yasuhiko H. Mori Surfactant effects on hydrate formation in an unstirred gas/liquid system: An experimental study using methane and sodium alkyl sulfates Chem Eng Sci 63 2008 183 194 (Pubitemid 350101466)
108. 2 removal from contaminated natural gas mixtures by hydrate formation Ind Eng Chem Res 48 12 2009 5802 5807
109. H. Ganji, M. Manteghian, and K. Sadaghiani zadeh et al. Effect of different surfactants on methane hydrate formation rate, stability and storage capacity Fuel 86 2007 434 441 (Pubitemid 44666835)
110. Bahman ZareNezhad, and Farshad Varaminian A unified approach for description of gas hydrate formation kinetics in the presence of kinetic promoters in gas hydrate converters Energy Convers Manag 73 2013 144 149
111. Li Xiaosen, Xu Chungang, and Chen Zhaoyang et al. Tetra-n-butyl ammonium bromide semi-clathrate hydrate process for post-combustion capture of carbon dioxide in the presence of dodecyl trimethyl ammonium chloride Energy 35 2010 3902 3908
112. F. Long, S. Fan, and Y. Wang et al. Promoting effect of super absorbent polymer on hydrate formation J Nat Gas Chem 19 3 2010 251 254
113. Li Jinping, Liang Deqing, and Guo Kaihua et al. Formation and dissociation of HFC134a gas hydrate in nano-copper suspension Energy Convers Manag 47 2 2006 201 210
114. Praveen Linga, Nagu Daraboina, and John A Ripmeester et al. Enhanced rate of gas hydrate formation in a fixed bed column filled with sand compared to a stirred vessel Chem Eng Sci 68 2012 617 623
115. Li Jinping, Guo Kaihua, and Liang Deqing et al. Experiments on fast nucleation and growth of HCFC141b gas hydrate in static water columns Int J Refrig 27 2004 932 939
116. Li Jinping, Liang Deqing, and Guo Kaihua et al. The influence of additives and metal rods on the nucleation and growth of gas hydrates J Colloid Interface Sci 283 2005 223 230
117. Scott D. McCallum, David E. Riestenberg, and Olga Y. Zatsepina et al. Effect of pressure vessel size on the formation of gas hydrates J Pet Sci Eng 56 2007 54 64 (Pubitemid 46488680)
118. F. Isobe, and Y.H. Mori Formation of gas hydrate or ice by direct-contact evaporation of CFC alternatives Int J Refrig 15 3 1992 137 142
119. Bi Yuehong, Guo Tingwei, and Zhu Tingying et al. Influences of additives on the gas hydrate cool storage process in a new gas hydrate cool storage system Energy Convers Manag 47 2006 2974 2982
120. Bi Yuehong, Guo. Tingwei, and Zhu Tingying et al. Influence of volumetric-flow rate in the crystallizer on the gas-hydrate cool storage process in a new gas-hydrate cool-storage system Appl Energy 78 2004 111 121
121. Lars Lundgaard, and Jorgen M. Mollerup The influence of gas phase fugacity and solubility on correlation of gas-hydrate formation pressure Fluid Phase Equilib 70 1991 199 213
122. Shahrzad Hashemi, Arturo Macchi, and Sebastien Bergeron et al. Prediction of methane and carbon dioxide solubility in water in the presence of hydrate Fluid Phase Equilib 246 2006 131 136 (Pubitemid 44080450)
123. Phillip Servio, and Peter Englezos Effect of temperature and pressure on the solubility of carbon dioxide in water in the presence of gas hydrate Fluid Phase Equilib 190 2001 127 134 (Pubitemid 33124310)
124. A.D. King Jr. The Solubility of gases in aqueous solutions of poly (propylene glycol) J Colloid Interface Sci 243 2001 457 462 (Pubitemid 33105215)
125. A.D. King Jr. The Solubility of gases in aqueous solutions of polyethylene glycols J Colloid Interface Sci 144 2 1991 579 585
126. Wei Jingjing, Xie Yingming, and Liu Daoping Applications of hydrate on cool storage and refrigeration (heat pump) system J Refrig 30 6 2009 135 142 ([in Chinese])
127. T. Mori, and Y.H. Mori Characterization of gas hydrate formation in direct-contact cool storage process Int J Refrig 12 5 1989 259 265 (Pubitemid 20690474)
128. 2 hydrate slurry. In: Proceedings of 9th IIR conference on PCMs and slurries for refrigeration and air conditioning. Sofia, Bulgaria; 2010.
129. Bi Yuehong, Guo Tingwei, and Zhang Liang et al. Experimental study on cool release process of gas-hydrate with additives Energy Build 41 2009 120 124
130. Xie Yingming, Guo Kaihua, and Liang Deqing et al. Steady gas hydrate growth along vertical heat transfer tube without stirring Chem Eng Sci 60 2005 777 786
131. Wu Jianghong, and Wang Shiping Research on cool storage and release characteristics of R134a gas hydrate with additive Energ Build 45 2012 99 105
132. Bi Yuehong, G.uo Tingwei, and Zhang Liang et al. Entropy generation minimization for charging and discharging processes in a gas-hydrate cool storage system Appl Energy 87 2010 1149 1157
133. 2 hydrate slurry flow in the presence of additives Ind Eng Chem Res 50 13 2011 8344 8353
134. Vibeke Andersson, and Jón Steinar Gudmundsson Flow properties of hydrate-in-water slurries Ann N Y Acad Sci 912 2000 322 329 (Pubitemid 30465698)
135. 2F hydrate slurry Int J Refrig 31 3 2008 371 378
136. S. Fukushima, Takao Shingo, and Ogoshi Hdiemasa et al. Development of high-density cold latent heat with clathrate hydrate NKK Tech Rep 166 1999 65 70
137. Myriam Darbouret, Michel Cournil, and Jean-Michel Rheological study of TBAB hydrate slurries as secondary two-phase refrigerants Int J Refrig 28 5 2005 663 671 (Pubitemid 40774072)
138. Hashimoto S, Kawamura K, Ito H, et al. Rheological study on tetra-n-butyl ammonium salt semi-clathrate hydrate slurries. In: Proceedings of 7th international conference on gas hydrates. Edinburgh, Scotland; 2011.
139. Claina Pascal, Delahaye Anthony, and Fournaison Laurence et al. Rheological properties of tetra-n-butylphosphonium bromide hydrate slurry flow Chem Eng J 193-194 2012 112 122
140. V.S. Yakushev, and V.A. Istomin Physics and chemistry of ice 1992 Hokkaido University Press Sapporo, Japan 136
141. Y. Paul Handa, Osamu Mishima, and Edward Whalley Highdensity amorphous ice. III. Thermal properties J Chem Phys 84 5 1986 2766 2770
142. V.P. Melnikov, A.N. Nesterov, and A.M. Reshetnikov et al. Stability and growth of gas hydrates below the ice-hydrate-gas equilibrium line on the P-T phase diagram Chem Eng Sci 65 2010 906 914
143. P. Buchanan, A.K. Soper, and H.H. Thompson et al. Search for memory effects in methane hydrate: structure of water before hydrate formation and after hydrate decomposition J Chem Phys 125 16 2005 164507 164515
144. C. Duchateau, P. Glenat, and T.E. Pou et al. Hydrate precursor test method for the laboratory evaluation of kinetic hydrate inhibitors Energy Fuels 24 2010 616 623
145. P.W. Wilson, and A.D.J. Haymet Hydrate formation and re-formation in nucleating THF/water mixtures show no evidence to support a memory effect Chem Eng J 161 2010 146 150
146. Wu Qiang, and Zhang Baoyong Memory effect on the pressure-temperature condition and induction time of gas hydrate nucleation J Nat Gas Chem 19 2010 446 451
147. Hamidreza Sefidroodi, Eirin Abrahamsen, and Malcolm A. Kelland Investigation into the strength and source of the memory effect for cyclopentane hydrate Chem Eng Sci 87 2013 133 140
148. D.L. Sun, Q. Wu, and B.Y. Zhang Influence of memory effect on induction time of gas hydrate formation J Harbin Inst Technol 12 2006 2177 2179 (Pubitemid 46236477)
149. L.C. Jacobson, W. Hujo, and V. Molinero Amorphous precursors in the nucleation of clathrate hydrates J Am Chem Soc 132 33 2010 11,806 11,811
150. 2 Phys Chem Chem Phys 9 2007 3104 3111
151. Yuan Qing, Sun Changyu, and Yang Xin et al. Recovery of methane from hydrate reservoir with gaseous carbon dioxide using a three-dimensional middle-size reactor Energy 40 2012 47 58
152. 2 Energy Convers Manag 52 2011 2682 2687
153. 13C NMR spectroscopic verification of methane-carbon dioxide replacement in natural gas hydrates Chem Eng J 225 2013 636 640
154. 16O multilayers J Phys Chem 100 1996 15460 15469 (Pubitemid 126786770)
155. 18O J Phys Chem B 101 1997 6127 6131 (Pubitemid 127578411)
156. X.P. Wang, A.J. Schultz, and Y. Halpern Kinetics of methane hydrate formation from polycrystalline deuterated ice J Phys Chem A 106 2002 7304 7309 (Pubitemid 35382573)
157. 2 Energy Convers Manag 67 2013 257 264
158. 2 hydrate J Phys Chem 95 1991 3811 3815
159. Peter Englezos Clathrate hydrate Ind Eng Chem Res 32 1993 1251 1274
160. Shuzo Yoshioki A note on transformation between clathrate hydrate structures I and II J Mol Graphics Modell 29 2010 290 294
161. Shuzo Yoshioki Identification of a mechanism of transformation of clathrate hydrate structures I to II or H J Mol Graphics Modell 37 2012 39 48
162. Lee Jong-Won, Kim. Do-Youn, and Lee Huen Phase behavior and structure transition of the mixed methane and nitrogen hydrates Korean J Chem Eng 23 2 2006 299 302
163. Faisal Al-Otaibi, Matthew Clarke, and Brij Maini et al. Kinetics of structure II gas hydrate formation for propane and ethane using an in-situ particle size analyzer and a Raman spectrometer Chem Eng Sci 66 2011 2468 2474
164. 2+tetra-n-butylammonium bromide aqueous solution Chem Eng Sci 81 2012 319 328
165. T.A. Strobel, C.A. Koh, and E.D. Sloan Hydrogen storage properties of clathrate hydrate materials Fluid Phase Equilib 261 1/2 2007 382 389 (Pubitemid 47588697)
166. S.u.n. Changyu, L.i. Wenzhi, and Yang Xin Progress in research of gas hydrate Chin J Chem Eng 19 1 2011 151 162
167. Youssef Ziad, Delahaye Anthony, and Huang Li State of the art on phase change material slurries Energy Convers Manag 65 2013 120 132