Person:
Mulholland, James A.

Associated Organization(s)
ORCID
ArchiveSpace Name Record

Publication Search Results

Now showing 1 - 10 of 10
Thumbnail Image
Item

Comparison of alternative exposure metrics of air pollution for use in public health surveillance

2011-09-09 , Mulholland, James A. , Russell, Armistead G. , Hu, Yongtau

Thumbnail Image
Item

Polycyclic Aromatic Hydrocarbon Growth Mechanisms in Combustion Involving Cyclopentadiene and Indene

2005 , Mulholland, James A.

Thumbnail Image
Item

Air pollution and health in Atlanta

2004 , Mulholland, James A.

Thumbnail Image
Item

Sophia Extend Air Quality Data Collection and Analysis

2002-09-30 , Mulholland, James A.

Thumbnail Image
Item

Development in Real Time Detection of Trace Organics

2008-01-25 , Mulholland, James A.

Thumbnail Image
Item

Development of jet REMPI as a research tool for toxic combustion byproduct measurement: research proposal planning activities

2004 , Mulholland, James A. , Ryu, Jae-Yong , Oh, Jeong-Eun

Thumbnail Image
Item

Laboratory Study on the Transformation of Trichloroethylene under Thermal Source Zone Removal Conditions

2003-04 , Costanza, Jed , Pennell, Kurt D. , Mulholland, James A.

Removal of separate-phase organic liquids from the subsurface has been hypothesized to reduce the long-term contamination of ground-water resources. Thermal source zone treatment is one remedial method being used to recover organic liquids from the subsurface. In-situ oxidation of organic contaminants is thought to occur during thermal treatment, resulting in the formation of benign reaction byproducts including carbon dioxide and water. This work presents the results from an ongoing laboratory investigation of the chemical transformation of trichloroethylene (TCE), a common source zone contaminant, as a function of temperature. The objective of this study is to quantify the TCE degradation products formed in a laboratory-scale reactor containing three phases (air, water, and solids) heated over a temperature range from 22 to 480°C to simulate subsurface conditions under thermal source zone treatment. Preliminary experimental results show that TCE reacts to form tetrachloroethylene (PCE), an unwanted byproduct, at temperatures greater than 300°C. Future experimental efforts will focus on the effect of granular medium and moisture content on chemical transformations.

Thumbnail Image
Item

Analysis of Temporal and Spatial Variations in Atlanta Air Quality For

2005-02 , Mulholland, James A. , Marmur, Amit , Wade, Katie , Russell, Ted

Thumbnail Image
Item

Study of air quality and health in Atlanta

2004 , Mulholland, James A.

Thumbnail Image
Item

Characterization Of Chlorinated Phenol Oxidation By Products Beyond Dioxin

2002-12-31 , Mulholland, James A.