DEPARTMENT
OF CIVIL AND ENVIRONMENTAL ENGINEERING
ENVIRONMENTAL HYDROLOGY AND HYDRAULIC ENGINEERING
SPECIAL SEMINAR
“Movement and Remediation of
a Volatile, Multicomponent DNAPL, in a
Variably-Saturated, Heterogeneous Porous Medium”
Dr. MART OOSTROM
Chief Scientist , Hydrology Department
Environmental Technology Division
Pacific Northwest National Laboratory
Richland, WA
99352
Abstract
A two-dimensional flow cell experiment was conducted
to study the removal of the carbon tetrachloride component of a DNAPL mixture
from a layered porous medium through soil vapor extraction (SVE) with moist and
dry air. A dual-energy gamma radiation system was used at various times to
non-intrusively determine fluid saturations. The mixture, which contained the
volatile organic carbon tetrachloride, mimics the DNAPL disposed at the Hanford
Site in Washington State. The flow cell was packed
with two sloped coarse sand and two sloped silt layers in an otherwise uniform
matrix of medium-grained sand. The water table was located 2 cm from the
bottom, creating variably saturated conditions. A 500-mL spill was introduced
at the top of the flow cell from a small source area. It was observed that the
DNAPL largely by-passed the silt layers but easily moved into the coarse sand layers.
Residual DNAPL was formed in the medium-grained sand matrix. The DNAPL caused a
distinct reduction of the capillary fringe. Most of the DNAPL ended up in a
pool at the bottom of the flow cell. Through four treatments with moist air
soil vapor extraction, most residual carbon tetrachloride was removed from the
medium-grained matrix and the coarse sand layers. However, soil vapor
extraction with moist air was not able to remove the carbon tetrachloride from
the silt layers and the pool. Through a water table reduction and subsequent
soil vapor extraction with dry air, the carbon tetrachloride in the silt layers
and the pool was effectively removed. Based on gamma measurements and carbon
tetrachloride vapor concentration data, it was estimated that after the final
remediation treatment, almost 90% of the total mass was removed.
Tuesday,
February 22, 2005
4:00 p.m.
Grainger Room 234
Everyone
Welcome