An ANSI C program that simulates the diffusion profiles of sample modulation at a membrane inlet system has been developed to study the characteristics of modulated diffusion profiles. The program produces concentration profiles within the membrane and flux values at the exit side of the membrane as a function of time. Sample concentration on the inlet side can be switched between zero and an arbitrary value with a square or asymmetric cycle. Achievement of steady-state diffusion between alternations is not required. With this computer simulation, the flux profiles of analytes through a membrane inlet have been studied as a function of diffusion coefficient, modulation frequency, and concentration. The amplitude, shape, and time lag or phas...
The numerical calculation of local mass distributions in membrane systems by computational fluid dyn...
European Union's Seventh Framework Program (FP7/2007-2013) under Grant agreement no. 608490. project...
An extension of the approach adopted in Part I was developed to improve the identification of diffus...
An ANSI C program that simulates the diffusion profiles of sample modulation at a membrane inlet sys...
Permeation parameters of several organic compounds were determined with a numerical simulation model...
Permeation parameters of several organic compounds were determined with a numerical simulation model...
Transient permeation measurements were conducted for carbon dioxide through a PDMS membrane and for ...
Transient permeation measurements were conducted for carbon dioxide through a PDMS membrane and for ...
Transient permeation measurements were conducted for carbon dioxide through a PDMS membrane and for ...
European KBBE FP7 project (262632) PTDC/MAT109973/2009Abstract: This work presents a methodology for...
The methodology and applications of membrane introduction mass spectrometry, an analytical technique...
AbstractSudden sampling introduction into a membrane inlet mass spectrometer (MIMS) considerably imp...
This paper presents a model for predicting permeate stream concentrations of a multi-stage membrane ...
Sudden sampling introduction into a membrane inlet mass spectrometer (MIMS) considerably improves th...
Sudden sampling introduction into a membrane inlet mass spectrometer (MIMS) considerably improves th...
The numerical calculation of local mass distributions in membrane systems by computational fluid dyn...
European Union's Seventh Framework Program (FP7/2007-2013) under Grant agreement no. 608490. project...
An extension of the approach adopted in Part I was developed to improve the identification of diffus...
An ANSI C program that simulates the diffusion profiles of sample modulation at a membrane inlet sys...
Permeation parameters of several organic compounds were determined with a numerical simulation model...
Permeation parameters of several organic compounds were determined with a numerical simulation model...
Transient permeation measurements were conducted for carbon dioxide through a PDMS membrane and for ...
Transient permeation measurements were conducted for carbon dioxide through a PDMS membrane and for ...
Transient permeation measurements were conducted for carbon dioxide through a PDMS membrane and for ...
European KBBE FP7 project (262632) PTDC/MAT109973/2009Abstract: This work presents a methodology for...
The methodology and applications of membrane introduction mass spectrometry, an analytical technique...
AbstractSudden sampling introduction into a membrane inlet mass spectrometer (MIMS) considerably imp...
This paper presents a model for predicting permeate stream concentrations of a multi-stage membrane ...
Sudden sampling introduction into a membrane inlet mass spectrometer (MIMS) considerably improves th...
Sudden sampling introduction into a membrane inlet mass spectrometer (MIMS) considerably improves th...
The numerical calculation of local mass distributions in membrane systems by computational fluid dyn...
European Union's Seventh Framework Program (FP7/2007-2013) under Grant agreement no. 608490. project...
An extension of the approach adopted in Part I was developed to improve the identification of diffus...