Experimental investigation on gas hydrate recovery using temperature separation mechanism of vortex tube

As a type of clean energy, natural gas hydrate production is currently receiving great attention. The main disadvantage of conventional thermal stimulation method is great heat loss during delivering of hot fluid. A novel hydrate recovery technique using the vortex tube temperature separation effect...

Full description

Saved in:
Bibliographic Details
Published inEnergy (Oxford) Vol. 212; p. 118749
Main Authors Liang, Fachun, Wang, Chi, Tang, Guoxiang
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 01.12.2020
Elsevier BV
Subjects
Clean energy
Compressed gas
Decomposition
Decomposition reactions
Energy separation
Gas hydrate
Gas hydrates
Heat loss
Injection
Natural gas
Recovery time
Reservoirs
Sand
Separation
Temperature
Thermal stimulation
Vortex tube
Vortices
Gas hydrate
Vortex tube
Thermal stimulation
Energy separation
Online AccessGet full text

Cover

More Information
Summary:As a type of clean energy, natural gas hydrate production is currently receiving great attention. The main disadvantage of conventional thermal stimulation method is great heat loss during delivering of hot fluid. A novel hydrate recovery technique using the vortex tube temperature separation effect is proposed in this paper. The compressed gas is tangentially injected into the vortex tube to generate hot stream to decompose solid hydrate in site. Experiments were carried out in a large-scale lab reactor (100 L) and the decomposition behavior of both sandy and sand free deposits are investigated. Experimental results show that the temperature near the hot end of vortex tube increase and the resistivity decrease gradually due to hydrate dissolve under the effect of hot tube of the vortex tube. For the sandy reservoir, the production time is 407 min and 415 L gas is recovered. As to the sand free reservoir, the recovery time is 2220 min and 238 L gas is obtained. The self-preservation behavior is observed during the decomposition process of sandy deposit. Compared with conventional heating injection techniques, the present method has the merits of no chemical injection, no moving parts, low heat loss and little maintenance. •A novel hydrate recovery technique using the vortex tube temperature separation mechanism is proposed.•Verification experiments are conducted in a large-scale reactor with multi-layer transducers.•The production performance of both sandy and sand free deposits are investigated and compared.•Self-preservation phenomenon is observed during the decomposition process of the sandy deposit.
ISSN:0360-5442
1873-6785
DOI:10.1016/j.energy.2020.118749