Hydrus-1D Projects – Transport of Nanotubes
- Project Group: Nanotubes
- Description: Examples demonstrating the use of HYDRUS-1D to simulate transport and retention of functionalized multi-walled carbon nanotubes in saturated quartz sand (from Kasel et al. 2013).
- Availability: Download HYDRUS projects now (17 MB)
Selected Runs (a complete list of HYDRUS runs is given in the attached file - PDF)
Project
|
Description
|
240_0.01mg_M1
|
240 µm sand, Co = 0.01 mg/L, Attachment and detachment (M1), Figures 3a and 4a.
|
240_0.01mg_M2
|
240 µm sand, Co = 0.01 mg/L, Langmuirian blocking (M2), Figures 3a and 4a.
|
240_0.01mg_M3
|
240 µm sand, Co = 0.01 mg/L, Depth-dependent retention (M3), Figures 3a and 4a.
|
240_0.01mg_M4
|
240 µm sand, Co = 0.01 mg/L, Blocking and depth-dependent retention (M4), Figures 3a and 4a.
|
350_1mg_M4
|
350 µm sand, Co = 1 mg/L, Blocking and depth-dependent retention (M4), Figures 6a, 6b, 7a, and 7b.
|
240_1mg_M4
|
240 µm sand, Co = 1 mg/L, Blocking and depth-dependent retention (M4), Figure 7a and Figure 7b.
|
607_1mg_M4
|
607 µm sand, Co = 1 mg/L, Blocking and depth-dependent retention (M4), Figures 7a and 7b.
|
Kasel, D., S. A. Bradford, J. Šimůnek, M. Heggen, H. Vereecken, and E. Klumpp, Transport and retention of multi-walled carbon nanotubes in saturated porous media: Effects of input concentration and grain size, Water Research, 47(2), 933-944, 2013.