期刊
APPLIED ENERGY
卷 181, 期 -, 页码 299-309出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.apenergy.2016.08.023
关键词
Hydrate dissociation; Scaling criterion; Depressurization; Different scales; Experiment
资金
- National Natural Science Foundation of China [51676190, 51406210]
- National Science Fund for Distinguished Young Scholars of China [51225603]
- International SAMP
- T Cooperation Program of China [2015DFA61790]
- Pearl River SAMP
- T Nova Program of Guangzhou [201610010164]
- Key Laboratory of Gas Hydrate Chinese Academy of Sciences [Y607ja1001]
Three high pressure reactors with different inner volumes, which are named as the Pilot-scale Hydrate Simulator (PHS), the Cubic Hydrate Simulator (CHS), and the Small Cubic Hydrate Simulator (SCHS), are applied for investigating hydrate dissociation by depressurization method. The volume of the PHS, the CHS, and the SCHS are 117.80 L, 5.80 L, and 0.73 L, respectively. Meanwhile, the model of scaling criterion for hydrate dissociation by the depressurization method is developed as well. The scaling criteria are verified and modified by the hydrate dissociation experiments with different scales. Finally, the gas production from a field scale hydrate reservoir (FSHR) is predicted by scaling the experimental results using the modified scaling criteria. The results indicate that the ratios of gas production in the depressurizing (DP) stage are similar to the ratios of inner volume, which verify the scaling criteria in the DP stage. However, the scaling criteria for the experiments in the constant-pressure (CP) stages need to be modified by the experimental results. The correction factor is 0.89. By using the modified scaling criteria, the gas production behavior, the hydrate dissociation process, and the heat transfer process in a larger scale hydrate reservoir can be predicted. The maximum deviations between the calculated value and experimental result are less than 16%, which can be accepted. In the FSHR with the diameter of 50 m and the length of 60 m, the predicted results indicate that 3.74 x 10(6) m(3) of gas are produced in 120 h (5 days) during the DP stage, and 1.94 x 10(6) m(3) of gas are produced in 1.86 x 10(5) h (7750 days) during the CP stage. (C) 2016 Elsevier Ltd. All rights reserved.
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