Effects of pH on Dielectric Relaxation of Montmorillonite, Allophane, and Imogolite Suspensions

The role of temperature on the low-frequency dielectric dispersion is analyzed for moderately polydisperse suspensions of spherical ethylcellulose latex particles. The study is carried out in the 10 -50°C temperature range for two different electrolyte concentrations, namely, 5 ؋ 10 ؊5 and 10 ؊4 M N

In this article, a systematic numerical study is described of the effect of the polydispersity of suspensions of spherical particles on their dielectric behavior, in both the frequency and time domains, starting from the model proposed by DeLacey and White (J. Chem. Soc., Faraday Trans. 2 77, 2007 (

Continuous column adsorption of lead (Pb) and cadmium (Cd) was studied using pH adjustment and calcium-saturated montmorillonite in a short stainless steel column. Changing either pH or ¯ow rate, while keeping inlet concentration of the ions constant, led to considerable changes in ef¯uent concentra

A mathematical model is proposed and compared with experimental data for the migration of heavy metal ions (Pb and Cd) during the ¯ow of aqueous solutions through calcium-saturated montmorillonite packing. The main system parameters are pH, ¯ow rate and concentration. It is assumed that the liquid p

## Synopsis Dipole relaxation dielectric loss behavior of a fiberglass-epoxy composite has been studied following submersion in polar and nonpolar organic solvents as well as in acidic and basic aqueous solutions. Certain adsorbed organic solvents, such a s 1,2-dichloroethane, had little influence