Investigation of the Water Flow Into a Mesoporous Matrix From Hydrophobized Silica Gel

Abstract: In this work a generalized hydrodynamic theory for the water flow into a mesoporous matrix from hydrophobized silica gel is suggested. Although we examine a fluid dynamics problem, i.e., the motion of the water-gas-solid contact line, motivation for such research derives from the investigation of a novel principle of mechanical energy dissipation, called colloidal damper. Similar to hydraulic damper, this absorber has a cylinder-piston structure, but oil is replaced by a colloid consisted of a mesoporous matri… Show more

“…has many nano pores of 5-20 nanometer dia. in it [3,4].The coated spherical silica gel and water are inserted in a piston -cylinder unit in order to work as a damper. If compression and decompression forces are added to the piston -cylinder unit (damper), water flows into and moves out the nano pore under balance of pressure.…”

Simulation of Water Flow in a Coated Nano Pore by a Molecular Dynamics

“…has many nano pores of 5-20 nanometer dia. in it [3,4].The coated spherical silica gel and water are inserted in a piston -cylinder unit in order to work as a damper. If compression and decompression forces are added to the piston -cylinder unit (damper), water flows into and moves out the nano pore under balance of pressure.…”

Simulation of Water Flow in a Coated Nano Pore by a Molecular Dynamics

Improvement of Dynamic Characteristics of Colloidal Damper(<Special Issue>D & D 2008)