Acceleration of convective dissolution by chemical reaction in a HeleShaw cell
New laboratory experiments quantify the destabilising effect of a second-order chemical reaction on the fingering instability of a diffusive boundary layer in a HeleShaw cell. We show that, for a given chemical system, the dynamics of such a reactive boundary layer is fully determined by two dimensi...
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| Veröffentlicht in: | Physical chemistry chemical physics : PCCP 2016-08, Vol.18 (34), p.23727-23736 |
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| creator | Cherezov, Ilia Cardoso, Silvana S. S |
| description | New laboratory experiments quantify the destabilising effect of a second-order chemical reaction on the fingering instability of a diffusive boundary layer in a HeleShaw cell. We show that, for a given chemical system, the dynamics of such a reactive boundary layer is fully determined by two dimensionless groups, Da/Ra
2
, which measures the timescale for convection compared to those for reaction and diffusion, and
C
Bo
, which reflects the excess of the environmental reactant species relative to the diffusing solute. Results of a systematic study varying
C
Bo
in the range 00.1 are presented. It is shown that the chemical reaction increases the growth rate of a perturbation and favours small wavelengths compared to the inert system. A higher concentration of
C
Bo
not only accelerates the onset of convection, but crucially also increases the transport of the solute by up to 150% compared to the inert system. This increase in solute transfer has important practical implications, such as in the storage of carbon dioxide in saline aquifers.
Experimental study of the destabilising hydrodynamic effect of a second-order chemical reaction in an immiscible system. |
| doi_str_mv | 10.1039/c6cp03327j |
| format | Article |
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2
, which measures the timescale for convection compared to those for reaction and diffusion, and
C
Bo
, which reflects the excess of the environmental reactant species relative to the diffusing solute. Results of a systematic study varying
C
Bo
in the range 00.1 are presented. It is shown that the chemical reaction increases the growth rate of a perturbation and favours small wavelengths compared to the inert system. A higher concentration of
C
Bo
not only accelerates the onset of convection, but crucially also increases the transport of the solute by up to 150% compared to the inert system. This increase in solute transfer has important practical implications, such as in the storage of carbon dioxide in saline aquifers.
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2
, which measures the timescale for convection compared to those for reaction and diffusion, and
C
Bo
, which reflects the excess of the environmental reactant species relative to the diffusing solute. Results of a systematic study varying
C
Bo
in the range 00.1 are presented. It is shown that the chemical reaction increases the growth rate of a perturbation and favours small wavelengths compared to the inert system. A higher concentration of
C
Bo
not only accelerates the onset of convection, but crucially also increases the transport of the solute by up to 150% compared to the inert system. This increase in solute transfer has important practical implications, such as in the storage of carbon dioxide in saline aquifers.
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2
, which measures the timescale for convection compared to those for reaction and diffusion, and
C
Bo
, which reflects the excess of the environmental reactant species relative to the diffusing solute. Results of a systematic study varying
C
Bo
in the range 00.1 are presented. It is shown that the chemical reaction increases the growth rate of a perturbation and favours small wavelengths compared to the inert system. A higher concentration of
C
Bo
not only accelerates the onset of convection, but crucially also increases the transport of the solute by up to 150% compared to the inert system. This increase in solute transfer has important practical implications, such as in the storage of carbon dioxide in saline aquifers.
Experimental study of the destabilising hydrodynamic effect of a second-order chemical reaction in an immiscible system.</abstract><doi>10.1039/c6cp03327j</doi><tpages>1</tpages></addata></record> |
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| source | Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection |
| title | Acceleration of convective dissolution by chemical reaction in a HeleShaw cell |
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