SGER: Light Scattering Manometer
University Of Pittsburgh, Pittsburgh PA
Investigators
Abstract
This a Small Grants for Exploratory Research (SGER) project to develop and calibrate a novel manometer that senses small, rapid pressure fluctuations in turbulent and almost laminar fluids (e. g., air or water), while introducing minimal perturbations in the flow. If successful, the instrument may find additional use in studying small pressure variations in the circulatory system, the heart, and in other biomedical settings. The new and unique technique employs a small volume of a soft clear gel containing micron-size particles chosen for their light scattering properties. Pressure fluctuations elastically compress the gel. Measured time correlations in the inter-particle separations can be directly related to the pressure experienced by the gel sensor. The manometer will be sensitive to pressure fluctuations at the sub-Pascal level (1 mm Hg = 130 Pa), and with a frequency range from dc to higher than 10 KHz. Existing (strain-gauge) pressure sensors are confined to wall regions. The proposed sensor can monitor the bulk fluid region, a great advantage for turbulence measurements. One graduate student will be supported to work on the project. The project is co-funded with the Fluid Dynamics and Hydraulics Program in the Division of Chemical and Thermal Systems in the Engineering Directorate. This a Small Grants for Exploratory Research (SGER) project to develop and calibrate a novel manometer that senses small, rapid pressure fluctuations in turbulent and almost laminar fluids (e. g., air or water), while introducing minimal perturbations in the flow. If successful, the instrument may find additional use in studying small pressure variations in the circulatory system, the heart, and in other biomedical settings. One graduate student will be supported to work on the project. The project is co-funded with the Fluid Dynamics and Hydraulics Program in the Division of Chemical and Thermal Systems in the Engineering Directorate.
View original record on NSF Award Search →