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A simplification of gas clathrate hydrate thermochemistry using the Thermodynamic Difference Rule (TDR). Part 2. General Hydrates
Jenkins HDB
Journal of Chemical Thermodynamics, 117, 242, 2018 |
| 62 |
A simplification of gas clathrate hydrate thermochemistry using the Thermodynamic Difference Rule (TDR). Part 4. Further extension of the TDR to temperatures other than 298 K and validation of the similarity found between inorganic hydrate and clathrate hydrate TDR equations
Jenkins HDB
Journal of Chemical Thermodynamics, 119, 13, 2018 |
| 63 |
Effects of a naturally derived surfactant on hydrate anti-agglomeration using micromechanical force measurement
Li M, Dong S, Li B, Liu C
Journal of Industrial and Engineering Chemistry, 67, 140, 2018 |
| 64 |
Dynamics of Hydrate Formation and Deposition Under Pseudo Multiphase Flow
Zhao JF, Wang B, Sum AK
AIChE Journal, 63(9), 4136, 2017 |
| 65 |
Universal Correlation for Gas Hydrates Suppression Temperature of Inhibited Systems: I. Single Salts
Hu Y, Lee BR, Sum AK
AIChE Journal, 63(11), 5111, 2017 |
| 66 |
An innovative approach to enhance methane hydrate formation kinetics with leucine for energy storage application
Veluswamy HP, Kumar A, Kumar R, Linga P
Applied Energy, 188, 190, 2017 |
| 67 |
Preferential enclathration of CO2 into tetra-n-butyl phosphonium bromide semiclathrate hydrate in moderate operating conditions: Application for CO2 capture from shale gas
Li Z, Zhong DL, Lu YY, Yan J, Zou ZL
Applied Energy, 199, 370, 2017 |
| 68 |
Semiclathrate hydrate process for pre-combustion capture of CO2 at near ambient temperatures
Zheng JJ, Zhang P, Linga P
Applied Energy, 194, 267, 2017 |
| 69 |
Effect of guest gas on the mixed tetrahydrofuran hydrate kinetics in a quiescent system
Veluswamy HP, Kumar A, Premasinghe K, Linga P
Applied Energy, 207, 573, 2017 |
| 70 |
Modeling phase equilibrium with a modified Wong-Sandler mixing rule for natural gas hydrates: Experimental validation
Thakre N, Jana AK
Applied Energy, 205, 749, 2017 |
