Grantee Research Project Results
Final Report: Gulf Coast Hazardous Substance Research Center (Lamar University)
EPA Grant Number: R828598Center: Gulf Coast HSRC (Lamar)
Center Director: Ho, Tho C.
Title: Gulf Coast Hazardous Substance Research Center (Lamar University)
Investigators: Ho, Tho C.
Institution: Lamar University , Gulf Coast Hazardous Research Center
EPA Project Officer: Aja, Hayley
Project Period: September 1, 2000 through August 31, 2004
Project Amount: $4,749,300
RFA: Gulf Coast Hazardous Substance Research Center (Lamar University) (1996) RFA Text | Recipients Lists
Research Category: Hazardous Waste/Remediation , Targeted Research
Objective:
This final report executive summary is prepared in partial fulfilment of the requirements for the EPA Assistance Agreement R-828598-01 between Lamar University Gulf Coast Hazardous Substance Research Center (GCHSRC) and the US Environmental Protection Agency (EPA). This Agreement covers a period of four years from September 1, 2000 through August 31, 2004 and the total amount of the Agreement is $5,937,250.00. During the Agreement period, the GCHSRC has supported a total of 33 general research projects and 5 technology transfer projects that address a wide range of environmental needs associated with Gulf-Coast industries. The supported general research projects were focused in all three of the Center’s major focus areas that include site remediation, pollution prevention, and waste treatment. The supported technology transfer projects were on pilot-scale demonstrations of treatment and control technologies developed through the general research program. All the supported projects under this Agreement were carried out at the Center’s nine member universities. The list and the technical description of the supported projects are included in the final report.
Summary/Accomplishments (Outputs/Outcomes):
The Center supported projects in both General Research Program and Technology Transfer Program under this Agreement. The General Research Program funded 33 projects distributed among the nine member universities as follows: Lamar University-5; University of Houston-5; Rice University- 4; Texas A&M University-4; The University of Texas-6; Louisiana State University-4; Mississippi State University-2; University of Alabama-2; and University of Central Florida-1. The Technology Transfer Program funded 5 projects: University of Houston-1; Rice University-1; Texas A&M University-1; and University of Central Florida-2. The funded projects are listed in the section below.
While the executive summary for each funded project is available and separately reported, the significant accomplishments from the funded projects are summarized below. In general, the funded projects have achieved various degree of success in terms of the objectives, goals and milestones set up for the projects. The accomplishments related to the educational component have included the training of undergraduate students, graduate students and post-doctoral fellows; related to the technology transfer component have included theses and dissertation completion, paper publication and conference presentation; and related to the commercialization component have included patent application and the commercialization of the developed technology. Many funded projects have received substantial amount of follow-up grants as the results from the GCHSRC funding support. Specifically, the achievements for the funded projects are summarized below:
UHH687 | Improved Halogen Resistance of Catalytic Oxidation through Efficient Catalyst Testing We constructed equipment which is still available for work in this area, and disseminated the results through two theses and through presentations. The IP we developed in this area is now represented in seven issued US patents, and pending foreign counterparts, and has been widely licensed and sublicensed. The technology we worked on is now widely practiced, and is expected to reduce the costs and pollution burden of chemicals ranging from small organics to polymers. We also trained students who are continuing to work in this area, advancing the level of US technical prowess in catalysis and high- throughput screening. |
TAM696 | Phytoremediation and Bioremediation of Land Contaminated By PAHs, PCBs, and TNT The results of this research indicate that plants may not immediately enhance soil remediation of hydrocarbons in freshly contaminated soils. These results suggest that freshly contaminated soils at low initial concentration may have sufficient natural bioremediation mechanisms already in the soil and plants do not necessarily enhance remediation. However, plants may be beneficial aesthetically and also assist by stabilizing the soil and preventing transport through water and wind erosion. The project has generated 21 publications as listed in the project’s executive summary. |
LUB697 | Fundamental and Kinetic Investigation of Sorbent Technology for Optimum Mercury Emission Control The project has provided the public and the mercury research community with critically-needed scientific information regarding mercury behavior during activated carbon adsorption. The information is expected to lead to the development of an efficient mercury control technology beneficial to the environment and the society. The project has lead to additional funding of more than $600,000 from other funding agencies and generated 16 publications. |
RUH700 | Effects of Natural Cyclic Variations on Contaminated Fate and Transport The study provides the scientific community with a greater understanding of the physiochemical processes of sediment-contaminant interaction. A primary consideration in sediment clean-up is when to stop, or how clean is acceptable. Present mathematical models assume that as long as a clean-up operation continues that the contaminant concentration will be steadily reduced toward zero. Two Ph.D. students and one MS student graduated from this program. In addition, the project has generated 20 publications. |
RUH703 | Enhancement of DNAPL Dissolution Rates by Dechlorinating Anaerobes The work represented fundamental scientific advance with the promise to reduce the cost of hazardous waste remediation. Experiments investigating the potential for dechlorinating anaerobes to enhance dissolution rates of PCE from a non-aqueous phase liquid (NAPL) were completed during the funding period. This project has led to the demonstration project RUH846: Quantitative Demonstration of Source-Zone Bioremediation in a Field-Scale Experimental Controlled Release System. It has also generated 12 publications. |
UTA722 | The Effects of an Oily-Phase on VOC Emissions from Industrial Wastewater It is expected that the results of this work will provide improved estimates of VOC emissions from industrial wastewater through modifications of existing models such as WATER9 and TOXCHEM+, since past work completed by Dr. Corsi and funded by the GCHSRC has lead to significant revisions to those models. Industry's reliance on WATER9 and TOXCHEM+ as alternatives to direct measurement of volatile hazardous air pollutant emissions from on-site sewers and treatment plants (required NESHAPs) is estimated to save industry tens of millions of dollars each year. This project has generated two MS theses and one publication. |
UTA724 | Mercury Removal from Stack Gas by Aqueous Scrubbing with Injection of Chlorine Oxidants This work has provided a process concept for controlling mercury emission from combustion gases, such as coal-fired poser plants. The results of this study demonstrate that mercury can be scrubbed from plant flue gas by chlorine injection in the presence of water. However, the injection of chlorine appeared to enhance mercury desorption from limestone slurry. Previous researchers have observed the mercury re-emission phenomenon. However, in this study, the injection of chlorine appeared to increase the mercury re-emission rate from limestone slurry with increasing chlorine concentration. |
UTA725 | Transport, Fate and Risk Implications of Environmentally Acceptable Endpoint Decisions This work has provided a process concept for controlling mercury emission from combustion gases, such as coal-fired poser plants. The results of this study demonstrate that mercury can be scrubbed from plant flue gas by chlorine injection in the presence of water. However, the injection of chlorine appeared to enhance mercury desorption from limestone slurry. The project has generated four publications. |
UHH725 | Transport, Fate and Risk Implications of Environmentally Acceptable Endpoint Decisions This is a collaborative study with UTA725 to develop a risk-based approach which will be a significant improvement over the current approach for estimating acceptable soil concentrations that will protect water quality uses at a downstream groundwater receptor. The work has provided a process concept for controlling mercury emission from combustion gases, such as coal-fired poser plants. The project has generated four publications. |
RUH731 | Development and Application of a Real-Time Optical Sensor for Atmospheric Formaldehyde An optical sensor has been developed capable of quantification of atmospheric levels of formaldehyde with a precision of 0.5 ppbV. Three field campaigns have been undertaken and the data have been used in follow-up research to validate the models that predict ozone and formaldehyde generation from photochemical smog reactions. The project has received a follow-up grant entitled “Postdoctoral position in environmental monitoring technology development” from the Dreyfus Foundation in July 2000 with a total funding of $96,000. The project has also led to four publications and six presentations. |
LSU734 | An Advanced System for Pollution Prevention in Chemical Complexes The study has concluded that Hierarchical Pareto Optimization can be successfully used for economic and environmental analysis of Industrial Ecosystems. This methodology provided a modular structure for the entire analysis, which makes it very flexible. A case study conducted during this research work shows that the EPA LCA methodology TRACI can be used successfully to analyze the environmental impacts of an industrial ecosystem. The study has generated nine publications/presentations. |
LUB734 | An Advanced System for Pollution Prevention in Chemical Complexes This is a collaborative study of LSU734 to develop an Advanced System for Pollution Prevention in collaboration with engineering groups at IMC Agrico Monsanto Enviro Chem and Motiva (Star/Texaco) Enterprise and to ensure it meets the needs of the chemical and petroleum refining industries. The study has concluded that Hierarchical Pareto Optimization can be successfully used for economic and environmental analysis of Industrial Ecosystems. This methodology provided a modular structure for the entire analysis, which makes it very flexible. A case study conducted during this research work shows that the EPA LCA methodology TRACI can be used successfully to analyze the environmental impacts of an industrial ecosystem. The study has generated nine publications/presentations. |
LUB744 |
The study has concluded that the mechanisms for NLO to benefit may be three-fold: First, NLO would contribute to PCO by transmission, i.e., as a waveguide to transmit the light energy into the inner layers. Second, it may be due to the perovskite or ferroelectric behavior (net electric dipole moment) that impedes electron-hole recombination. Three, other electrical, magnetic, and optical properties such as electric field-induced scattering may enhance light utilization within the catalyst. This research has led to the external grant: "Super-Porous Titania/NLO-Coated Fiber Optic Photoreactor for Environmental Applications" from ARP/ATP Texas Higher Education Coordinating Board, 003581-0019-1999, $154,000, 2000-2003. The study has also led to seven publications/presentations. |
LUB749 |
The project has provided the public and the particulate matter research community with scientific insights regarding PM behaviour in Southeast Texas. The information is critically needed in the effective management of PM pollution leading to a cleaner environment. The accomplishments of the project have included seven additional funded projects from the Texas Commission on Environmental Quality, the Texas Air Research Center, and the Department of Agriculture through Sul-Ross University worth $722,050. In addition, eleven papers describing the project results have been published, presented or accepted for presentation. |
LSU753 | Adsolubilization and Photocatalysis in a Semiconducting Monolithic Reactor for Wastewater Treatment The results have showed the optical fiber monolithic reactors are promising. Modeling efforts are currently progressing in order to allow the scale-up of this process. The long term operation (60 hrs) only showed a slight decrease of the removal efficiency of the phenanthrene and DCB which suggested it had no significant impact on the fate of titania film on the cordierite ceramic monolith or the quartz optical fiber. The titania film did not degrade after prolonged use in the reactor. This project has produced five peer-reviewed publications and five conference presentations during the three years of funding. It is also the basis for 1 Ph.D. thesis which will be defended this summer. The project has produced data and ideas that have formed the basis for one proposal that is currently under review by the NSF. Another proposal is being submitted to ONR. |
LSU754 | Remote Detection of Gas Emissions in Industrial Processes The automatic gas detection phase methods have been developed for automatically detecting a target gas in a hyperspectral image. The best method for actual testing is to detect weak signals by first applying a clustering algorithm to segment the image into different regions before applying the detection filter. The project has led to one conference presentation. |
LSU759 |
The research has shown that the combinations of 77%:20%:3%, 72%:25%:3%, 67%:30%:3%, 63%:35%:2% PG: Class C fly ash: Portland type II cement composites met the 2.0×10-13 m2·s-1 criteria for effective calcium and sulfate diffusion coefficients. This research has provided baseline data, which allowed the research team to solicit additional funds from the Florida Institute of Phosphate Research (FIPR). A small grant of $10,000 was received from FIPR to investigate the regulatory permitting process through USEPA for the use of phosphogypsum in the environment. If the LSU research team is successful in getting a permit approved (or waived), FIPR will fund a larger grant (approximately $350K) to investigate the use of the stabilized phosphogypsum as fill material in coastal protection devices. Several manuscripts are being prepared from the project. |
MSU761 | Development of a Phytologically-based Biosorptive Water Treatment Process This project has yielded results that indicate great potential for this process to effectively treat contaminated fluids at a reduced cost. Particularly of interest is the simplicity of the process in terms of its operation which should provide small companies with an additional option for treating their waste streams. MSU has filed for a patent for the process that was further developed under this funding. KenGro Inc. (Charleston, MS) working in collabortion has received an USEPA SBIR for commercialization of this process. MSU has also received $60K and $40K, respectively, for development of this process from the Mississippi Water Resources Research Institute and the USDA, respectively. One MS thesis has been completed using the support from this project. Another student will finish his thesis within the next couple of months (he was partially funded by the GCHSRC funding). Both will continue their professional development within the field of environmental engineering. The study has also generated six publications. |
RUH766 | Chlorinated Solvent Impact and Remediation Strategies for the Dry Cleaning Industry The findings from our research show that enhanced bioremediation and bioaugmentation may be viable options for decreasing source longevity and potentially overall exposure to chlorinated solvents with shorter plume lengths. This treatment option is also low maintenance and requires minimal equipment when a long-term electron donor such as Hydrogen Release Compound is used in sufficient quantities. Furthermore, our study reassures the public that huge quantities of methane will not be produced nor will there be the need to have the direct injection of hydrogen gas through these techniques and thus preventing potential explosive hazards. Additional funding has been received from the Advanced Technologies Program of the State of Texas by collaborators on this project, Dr. Herb Ward and Dr. Joseph Hughes. This project has produced a MS thesis and two presentations. One manuscript is under preparation for potential publication. |
TAM769 | Soil/Sediment Remediation by Hot Water Extraction Combined with In-Situ Wet Oxidation The goal of this project is to determine the conditions where the combined extraction/oxidation process would be effective. The outcome of this study will provide the fundamental data needed to evaluate the potential for using hot water, with or without combined oxidation, for remediation of contaminated solids at a large scale. The outcome of the project will serve the basis for a new technology which would be a more feasible alternative to current technologies of incineration, thermal desorption, and solvent extraction. |
TAM771 |
The project has already synthesized the polymer with the NASI group replaced by a catalyst precursor and a diazo dye which gives the polymer a red color. It has been shown that these products are soluble in scC02 and dye substituted polymer gives an orange/yellow colored solution. In order to evaluate whether the dye is active, we dissolved the polymer in scC02 in the presence of an organic base, diethylamine. The azo dye, in a basic solution, would have a yellow color, and we have observed that the color does indeed change to yellow from orange/yellow. Hence we have qualitatively shown that the polymer/catalyst is soluble in carbon dioxide and that the functionalized sites are exposed in solution and are available for reaction. |
TAM774 | The Feasibility of Electorphoretic Repair of Impoundment Leaks The objectives of this study were to evaluate the effects of solution chemistry and clay particle properties on the performance of electrophoretic repair of clay liners leaks through modeling and experiment. The project has developed, tested and modelled an in situ technique to repair leaky clay liners. Its final report is available online. The code will also be available online. The project is working on submitting peer-reviewed paper on the research to disseminate our findings. |
MSU777 | Surfactant Enhanced Photo-oxidation of Wastewaters This study was a joint effort between researchers at The University of Alabama and Mississippi State University. The researchers at Alabama were charged with developing an understanding of the mechanisms and kinetics involved with the photo-oxidation of organics dissolved in water. The Mississippi State University researchers were to develop a reactor for continuous treatment of wastewaters based on data obtained at Alabama. Our contribution to the public knowledge was that "the incorporation of the TiO2 into a meso-porous silica matrix is a promising technique for immobilizing the TiO2 in wastewater treatment. This eliminates the need for separation of the TiO2 powder from the wastewater." Three technical presentations of this study have been made at various conferences. |
UAL777 | Surfactant Enhanced Photo-oxidation of Wastewaters It has became apparent that the colloidal nature of the TiO2 particles represented a significant problem, both in data analysis and in successful implementation of a process based on the use of such materials. A further goal of the project became to support the TiO2 particles in a mesoporous matrix which would retain of the photoactivity of the TiO2 particles, while avoiding the need to separate out the TiO2 particles after the photodegradation reaction was complete. Mesoporous matrices were of further interest as the pores were of a scale to exclude other solutes such as humic acids that might be present and could adversely affect the photodegradation of the pollutants. Accomplishments from the work include six publications cited. An outgrowth of the work was a successful NSF travel proposal by the graduate student who worked on the project. |
UAL778 | Stationary Power Generation Via Solid Oxide Fuel Cells: A Response to Pollution and Global Warming The overall objective of the project is to make stationary power generation by SOFCs a major component of the all-methane economy which would (1) reduce C02 emissions by >60% thereby stabilizing the concentration of C02 in the atmosphere (a significant factor in global warming) and (2) provide the United States with an approximate annual savings of $69 billion on its fuel bill. Students working on this project have taken part in a new paradigm in higher education where, regardless of background, scientists and engineers work side-by-side with common goals and more broadly defined interests. |
UCF786 | Photocatalytic Recovery of Sulfur and Hydrogen From Hydrogen Sulfide This project served the public interest by developing technologies whereby the emission of air pollutants from oil refineries, sewage treatment plants, and municipal landfills can be reduced. It also expanded our supply of natural gas by enabling the exploitation of gas wells that were formerly considered to be too sour to be of economic value. It also helped lower the cost of making clean diesel and gasoline by recycling process hydrogen within the petroleum refinery. The project has produced one patent entitled “Closed Cycle Photocatalytic Process for Decomposition of Hydrogen Sulfide to its Constituent Elements,” Clovis A. Linkous and Nazim Z. Muradov, US 6,572,829 B2, June 3, 2003. A potential 2nd patent entitled “UV Photochemical Option for Closed Cycle Decomposition of Hydrogen Sulfide to its Constituent Elements,” is being reviewed. The project has also produced six publications/presentations. |
UHH787 | Biosurfactant Produced from Used Vegetable Oil for Removal of Metals From Wastewaters and Soils The project has concluded that used vegetable oil can be used to produce biosurfactant andthis biosurfactant could be used to remove lead and other metal contaminants from contaminated water and soil. The performance of the biosurfactant was better than other surfactants. Hence used vegetable oil from homes and restaurants can be recycled and used to treat metal contaminated water and soil. The project has generated two publications |
UHH789 | Genetic Engineering of Enzymatic Cyanide Clearance The project has successfully completed all three project objectives including the analysis of the candidate enzymes with respect to their kinetic profiles and their response range to pH, temperature, metal inhibition and stability. This project has produced four publications/presentations. In addition, the project has an ongoing collaboration with a small Houston company, EcoShield, to test the use of our enzyme system to for the cleanup of cyanide contaminated waster water from industrial sites. If effective our process will reduce the costs of waste water cleanup, reduce the danger of shipping such waste water for chemical remediation, and most importantly have resources available for the immediate cleanup of any environmental cyanide spills before significant spreading occurs. |
UHH791 | Characterizing the Intrinsic Remediation of MTBE at Field Sites A database of 127 sites has been assembled for leaking petroleum storage tank (LPST) sites contaminated with MTBE using the Texas Commission of Environmental Quality (TCEQ) site records. A large percentage (61%) of the sites in the database were located along the Gulf Coast. The remaining sites cover most areas across Texas and therefore represent several geologies and lithologies. The 127 sites had mostly shallow groundwater (less than 30-ft (9.1-m) below ground surface) and the impacted water zone was not a drinking water source. The monitoring well networks at the 127 sites consisted of 12 monitoring wells on average but ranged from a minimum of 6 to a maximum of 64 wells. The project has resulted in four peer reviewed publications and numerous presentations and conference proceedings papers. Two students received their master’s degrees as a result of the project funding and are currently employed in the private sector. The project has also helped a post-doctoral researcher re-enter the workforce after a parenting leave. |
UTA799 | Water Conservation/Recycling/Reuse and Waste Reduction in Semiconductor Manufacturing The primary goal of this proposed research is to extend the work with the microchip manufacturing plants to investigate both treatment options and waste reduction options for currently non-recyclable wastestreams to make them recyclable. We believe that several types of wastes fit this description, and that creative and inexpensive treatment and/or minor modification of waste generating processes can be developed to accomplish this goal. The results will lead to a reduction in the use of natural resources, a reduction in the generation of hazardous wastes, and an increase in the economic potential of the region. |
UTA801 | Building Defined Mixed Cultures to Biodegrade Diverse Mixtures of Chlorinated Solvents The goal of this research is to identify a culture of organisms that could degrade TCA with a rate significant enough that a practical hollow fiber membrane bioreactor (HFMB) system could be designed. Batch kinetic experiments performed in this research measured pseudo-first-order rate constants ranging from 0.15 to 1.19 L/mg-day, which was found sufficient to sustain reasonable removal in a bioreactor. The major accomplishment from this project is the education of a Master’s student who is now out in practice working for a consulting engineering firm. This project allowed him to develop expertise with biological treatment systems, which are widely used in practice for hazardous waste treatment. A Master’s thesis has also been produced that characterized the cometabolic degradation kinetics of 1,1,1-trichloroethane by a butane-degrading bacteria. |
UTA802 | Studies of Catalytic Materials Employed in the Hydroprocessing of Halogenated Organics The project has studied the reaction of chlorinated methanes with the clean, oxygen pre-covered, and hydrogen pre-covered Ir(110) and Ir(111) surfaces. In these studies we discovered that most of these chlorinated methanes dissociatively chemisorb readily on both surfaces over a wide temperature range. Further, carbon tetrachloride reacts with adsorbed oxygen and adsorbed hydrogen on the Ir(110) surface and chlorine from the decomposed molecule poisons these surface reactions and additional adsorption. Small amounts of methane are made in the reaction of carbon tetrachloride with the hydrogen pre-covered Ir(110) surface. In addition, the project has also synthesized a planar model catalyst composed of a single crystalline sample of titania (TiO2(110)) decorated with gold nanoclusters and we have begun reaction studies with this sample. The project has generated eleven publications/presentations. |
LUB810 | Application of Total Cost Assessment to Process Design in the Chemical Industry The objective of this project is to demonstrate the incorporation of the spreadsheet version of CWRT's Total Cost Assessment tool with SYNPHONY, combining a new methodology for optimal chemical complex configuration. Further, it would determine the feasibility of incorporating intangible costs with SYNPHONY, a methodology for determining the optimal chemical complex configuration. The societal costs of "harmless odors" have been developed by Beth R. Beloff and Earl R. Beaver as part of the overall CWRT Total Cost Assessment program. Harmless odors have been used as the example for trial incorporation of intangible costs in this project. |
TAM705 | A Pilot Plant for Producing Mixed Ketones from Waste Biomass The pilot plant is nearly completed. The project is still working on it. A major oil company likes this technology and is helping the project build a small demonstration plant. Eventually, the process will be commercialized on a large scale and will produce fuels and chemicals from biomass. This has the following benefits: (1) wastes are eliminated from the environment, (2) biofuels address global warming, (3) less dependency on foreign fuels, (4) cleaner burning fuels, and (5) lower energy prices. Nine patents have been issued related to the project. Many more are pending. |
UCF743 | Field Demonstration of Ultrasound Enhancement of Permeable Treatment Walls - Phase II The results of this project have demonstrated the use of ultrasound to maintain the reactivity of zero-valent iron used in the subsurface to treat contaminated groundwater. As a result of this funding Environmental Technologies acquired the rights to use ultrasound for this purpose. Ultrasound reduces the cost and increases the efficiency of an important groundwater remediation tool, zero-valent iron. The project has received a patent: Quinn, J. W., Ruiz, N. E., Reinhart, D. R., Geiger, C. L., Clausen, C. A., Enhancement of Zero-Valent Metal Treatment of Contaminated Groundwater by the Use of Ultrasound, US Patent No. 6,013,232. The project has also generated fifteen publications. |
UCF807 |
The project is to provide technical support to help transfer the Hydrogen Peroxide Injection technology to industry faster than would otherwise be possible by marketing efforts from EKA Chemicals alone. Discussions were held with our industrial partner, EKA Chemicals, about travelling with them to meet some potential adopters of the hydrogen peroxide technology. However, EKA has not been able to arrange any visits yet. Along the more traditional lines of technology transfer, Drs. Cooper and Clausen continue to work on technical papers to be submitted for publication in peer-reviewed journals. The project has worked with several industries to inform them of the technology. There was some interest but no adoptions of the technology. More engineers are now aware of this technology. The project has generated five publications. |
UHH809 | Evaluating Source Grouting and ORC for Remediating MTBE Sites The goal of the project is to study the effectiveness of oxygen releasing compounds (ORC) as a source of oxygen when injected in slurry form directly into the soil matrix. In addition to the field injection study, laboratory oxygen release studies were completed to determine the levels of oxygen that can be released from ORC as well as the longevity of ORC as an oxygen source. The project has resulted in four peer reviewed publications and numerous presentations and conference proceedings papers. Three students received their master’s degrees as a result of the project funding and are currently employed in the private sector. The project has also helped a post-doctoral researcher re-enter the workforce after a parenting leave. Technically, the project resulted in simple modeling tools that could be used to design delivery systems for the Oxygen Releasing Compound remediation technology. |
RUH846 |
Anaerobic in situ bioremediation of a DNAPL source-zone has been quantitatively demonstrated using a commercially available slow-release electron donor. The presence of chlorinated solvent DNAPLs and their limited dissolution rates have controlled the effectiveness of pump-and-treat systems to date. Reductive dechlorination by subsurface microorganisms under anaerobic conditions has been shown to increase the rate of DNAPL dissolution by a factor of 10 or more. In commercial applications the increased costs will be the costs of hydrogen addition to support reductive dechlorination. The cost savings will be highly site specific, but a reduction in pumping time by half could save millions of dollars at each site. Alternative technologies (e.g., solvents/surfactants, thermal methods) for removal or destruction of DNAPLs are also highly site specific, but range from $300 to $600 per cubic yard of source-zone treated. |
For other GCHSRC activities during the report period, the Environmental Protection Agency conducted a scientific and institutional peer review of the Gulf Coast Hazardous Substance Research Center at Lamar University on April 17-19, 2001. The panel conducted the review with the goal of helping the Center utilize the established strengths currently existing and demonstrated. According to the panel these strengths include: (1) participation of some world class research faculty at several universities; (2) some industrial applications and recognition as evidenced by pilot programs and industry matching funds; (3) at some universities there has been excellent leveraging of the Center’s research funds to secure other funding; and (4) training of graduate students and the Masters and Doctoral levels. Based on the productivity demonstrated by the Center the review panel stated that funding should be continued subject to availability of resources. A Post Award Monitoring Site Review was also conducted by EPA representatives on February 20 and 21, 2002. The purpose of this visit was to review the administrative and financial aspects as outlined under subpart C of CFR 40 Part 30 and 40 and to also monitor the Center’s adherence to the terms and conditions of the award. The results of this review were very positive. An additional recommendation made by the panel was that the Center should make a concerted effort to develop forums for interactions between the Principal Investigators (PIs) on prospective and funded research projects.
Based on the panel recommendation to develop a forum for interaction of PIs the Center reviewed its active projects and selected oxidation/ catalysis as the topic for the initial program. The Center had projects on oxidation/catalysis at eight of the nine affiliated universities. On August 1, 2001 PIs from the eight universities met at Lamar University to discuss their research projects and exchange data and ideas for ongoing and future work on this technology.
During the report period the Center revised the Quality Assurance Management Plan that was approved by the National Center for Environmental Research and Quality Assurance in 1997 to create a Quality Management Plan (QMP). The goal of this QMP is to assure that data collected for the characterization of environmental processes and conditions are of the appropriate type and quality for their intended use and that environmental technologies are designed, constructed, and operated according to defined expectations. It is the policy of the Gulf Coast Hazardous Substance Research Center to implement and fully support accepted standards for practicing quality assurance and quality control in all research conducted under its auspices. The Center follows guidance provided by the Office of Information’s Quality Staff. The United States Environmental Protection Agency Project Officer approved the most updated version of QMP in January 2003.
An annual site visit was made to each member university to monitor research projects and conduct laboratory inspections as required by the Center’s Policy Manual to the Grants Administration Division. During the site visit the principal investigator or graduate students working on the project made presentations and updated the status of the research effort. In addition quality assurance audits were conducted on selected projects to assure compliance with the approved quality assurance project plans. The audits also involved laboratory inspections for health and safety related issues.
The Center conducted an Industrial Needs Workshop (INW) during the Agreement period. The topic area of the workshop was Treatment of Chlorinated Solvents, MTBE, Perchlorates, and TNT. The workshop was held on September 22, 2000. The details of the workshop are provided at the Center homepage at http://dept.lamar.edu/gchsrc/ under the Workshops link. In addition to access to all sponsored projects (with abstracts and publications) the homepage has links to other Hazardous Substance Research Centers and related environmental sites. Center newsletters, important dates, workshops, member universities, science advisory council, principal investigators, and staff are available under appropriate tabs. The Center receives numerous requests to make presentations on the research program from local and state environmental organizations as well as the media. Presentations to environmental managers from local industries and community action panels are typical examples. We also participated in technology development forums organized by our Representative Congressman Nick Lampson. The Center provides technical advice to citizen inquires on a wide range of environmental issues.
In summary, the Center has successfully accomplished its mission and fulfilled its obligations under this Assistance Agreement R-828598-01 with the US EPA during the Agreement period from September 1, 2000 through August 31, 2004. The Center was awarded $4,749,800 on this grant. We spent $4,735,478 conducting and supporting 38 research projects over the four-year grant period. The Center also supplied an additional $1,813,661 of matching funds.
List of Projects in General Research Program and Technology Transfer Program:
The General Research Program funded 33 projects with this Agreement. The funded projects are listed below:
UHH687 |
Richard Willson James T. Richardson |
Improved Halogen Resistance of Catalytic Oxidation through Efficient Catalyst Testing |
TAM696 |
Malcolm Drew M Yavuz Corapcioglu Clyde Munster Robert Rhykerd |
Phytoremediation and Bioremediation of Land Contaminated By PAHs, PCBs, and TNT |
LUB697 |
Thomas C. Ho |
Fundamental and Kinetic Investigation of Sorbent Technology for Optimum Mercury Emission Control |
RUH700 |
M. B. Tomson Amy Kan |
Effects of Natural Cyclic Variations on Contaminated Fate and Transport |
RUH703 |
Joseph B. Hughes |
Enhancement of DNAPL Dissolution Rates by Dechlorinating Anaerobes |
UTA722 |
Richard L. Corsi |
The Effects of an Oily-Phase on VOC Emissions from Industrial Wastewater |
UTA724 |
Gary T. Rochelle |
Mercury Removal from Stack Gas by Aqueous Scrubbing with Injection of Chlorine Oxidants |
UTA725 |
Raymond C. Loehr |
Transport, Fate and Risk Implications of Environmentally Acceptable Endpoint Decisions |
UHH725 |
Hanadi Rifai |
Transport, Fate and Risk Implications of Environmentally Acceptable Endpoint Decisions |
RUH731 |
Matt P. Fraser |
Development and Application of a Real-Time Optical Sensor for Atmospheric Formaldehyde |
LSU734 |
Ralph W. Pike |
An Advanced System for Pollution Prevention in Chemical Complexes |
The Technology Transfer Program funded 5 projects with this Agreement and they are listed below:
TAM705 |
Mark Holtzapple |
A Pilot Plant for Producing Mixed Ketones from Waste Biomass |
UCF743 |
Deborah Reinhart |
Field Demonstration of Ultrasound Enhancement of Permeable Treatment Walls - Phase II |
UCF807 |
Christian Clausen |
|
UHH809 |
Deborah Roberts |
Evaluating Source Grouting and ORC for Remediating MTBE Sites |
RUH846 |
Joe Hughes |
Conclusions:
The future activities of the Center are to continue to promote research excellence in all three of the Center’s focus areas and at all nine of the Center’s member universities under separate current and future cooperative agreements with the US EPA.
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Adams WA, Bakker MG, Macias T, Jefcoat IA. Synthesis and characterization of mesoporous silica films encapsulating titanium dioxide particles:photodegradation of 2,4-dichlorophenol. Journal of Hazardous Materials 2004;112(3):253-259. |
R828598 (Final) R828598C777 (Final) |
Exit Exit Exit |
|
Al-Rayes AW, Kinney KA, Seibert AF, Corsi RL. Load dampening system for vapor phase bioreactors. Journal of Environmental Engineering 2001;127(3):224-232. |
R826694C629 (Final) |
Exit |
|
Carr CS, Hughes JB. Enrichment of high-rate PCE dechlorination and comparative study of lactate, methanol, and hydrogen as electron donors to sustain activity. Environmental Science & Technology 1998;32(2):1817-1824. |
R828598C703 (Final) |
Exit Exit |
|
Carr CS, Hughes JB. Response to 'Comment on 'Enrichment of high-rate PCE dechlorination and comparative study of lactate, methanol, and hydrogen as electron donors to sustain activity''. Environmental Science & Technology 1999;33(15):2683-2684. |
R828598C703 (Final) |
Exit Exit |
|
Carr CS, Garg S, Hughes JB. Effect of dechlorinating bacteria on the longevity and composition of PCE-containing nonaqueous phase liquids under equilibrium dissolution conditions. Environmental Science & Technology 2000;34(6):1088-1094. |
R826694C703 (2000) R826694C703 (Final) R822721C703 (1999) R828598C703 (Final) |
Exit Exit Exit |
|
Chang Y-Y, Corapcioglu MY. Plant-enhanced subsurface bioremediation of nonvolatile hydrocarbons. Journal of Environmental Engineering-ASCE 1998;124(2):162-169. |
R828598C696 (Final) R825414 (Final) |
Exit |
|
Chen DH, Ye X, Li K. Oxidation of PCE with a UV LED photocatalytic reactor. Chemical Engineering & Technology 2005;28(1):95-97. |
R828598 (Final) R828598C744 (Final) CR831276 (Final) R831276C004 (2004) |
Exit |
|
Chen J, So S, Lee H, Fraser MP, Curl RF, Harman T, Tittel FK. Atmospheric formaldehyde monitoring in the Greater Houston area in 2002. Applied Spectroscopy 2004;58(2):243-247. |
R828598 (Final) |
Exit |
|
Chen W, Kan AT, Fu G, Vignona LC, Tomson MB. Adsorption-desorption behaviors of hydrophobic organic compounds in sediments of Lake Charles, Louisiana, USA. Environmental Toxicology and Chemistry 1999;18(8):1610-1616. |
R828598 (Final) R828598C700 (Final) R822721C700 (1999) R825513C016 (Final) R825513C024 (Final) |
Exit |
|
Chen W, Kan AT, Tomson MB. Irreversible adsorption of chlorinated benzenes to natural sediments: implications for sediment quality criteria. Environmental Science & Technology 2000;34(3):385-392. |
R828598 (Final) R828598C700 (Final) R822721C700 (1999) R825513C024 (Final) R826694C700 (1999) R826694C700 (Final) |
Exit |
|
Chen W, Kan AT, Fu G, Tomson MB. Factors affecting the release of hydrophobic organic contaminants from natural sediments. Environmental Toxicology and Chemistry 2000;19(10):2401-2408. |
R828598 (Final) R826694C700 (1999) R826694C700 (Final) |
Exit |
|
Chen W, Kan AT, Newell CJ, Moore E, Tomson MB. More realistic soil cleanup standards with dual-equilibrium desorption. Ground Water 2002;40(2):153-164. |
R826694C700 (Final) R828773 (2004) R828773 (Final) R828773C001 (2004) R828773C004 (2002) R828773C004 (2004) R831718 (Final) |
Exit Exit Exit |
|
Collins MM, Cooper CD, Dietz JD, Clausen III CA, Tazi LM. Pilot-scale evaluation of H2O2 injection to control NOx emissions. Journal of Environmental Engineering 2001;127(4):329-336. |
R828598 (Final) R828598C807 (2001) |
Exit |
|
Cooper CD, Clausen III CA, Pettey L, Collins MM, de Fernandez MP. Investigation of ultraviolet light-enhanced H2O2 oxidation of NOx emissions. Journal of Environmental Engineering 2002;128(1):68-72. |
R828598 (Final) R828598C807 (2001) |
Exit |
|
Cope N, Hughes JB. Biologically-enhanced removal of PCE from NAPL source zones. Environmental Science & Technology 2001;35(10):2014-2021. |
R826694C703 (2001) R826694C703 (Final) R828598C703 (Final) |
Exit Exit Exit |
|
Coute N, Ortego Jr JD, Richardson JT, Twigg MV. Catalytic steam reforming of chlorocarbons: trichloroethane, trichloroethylene and perchloroethylene. Applied Catalysis B: Environmental 1998;19(3-4):175-187. |
R822721C633 (1999) |
Exit |
|
Coute N, Richardson JT. Catalytic steam reforming of chlorocarbons:polychlorinated biphenyls (PCBs). Applied Catalysis B: Environmental 2000;26(4):265-273. |
R826694C633 (Final) |
Exit |
|
Coute N, Richardson JT. Steam reforming of chlorocarbons:chlorinated aromatics. Applied Catalysis B: Environmental 2000;26(3):217-226. |
R826694C633 (Final) |
Exit |
|
Friedfeld S, Fraser M, Lancaster D, Leleux D, Rehle D, Tittel F. Field intercomparison of a novel optical sensor for formaldehyde quantification. Geophysical Research Letters 2000;27(14):2093-2096. |
R828598 (Final) R826694C731 (2000) |
Exit Exit |
|
Friedfeld S, Fraser M, Ensor K, Tribble S, Rehle D, Leleux D, Tittel F. Statistical analysis of primary and secondary atmospheric formaldehyde. Atmospheric Environment 2002;36(30):4767-4775. |
R828598 (Final) |
Exit Exit Exit |
|
Geiger CL, Ruiz NE, Clausen CA, Reinhart DR, Quinn JW. Ultrasound pretreatment of elemental iron:kinetic studies of dehalogenation reaction enhancement and surface effects. Water Research 2002;36(5):1342-1350. |
R828598 (Final) R828598C743 (2001) |
Exit Exit Exit |
|
Gutierrez E, Miller TC, Gonzalez-Redondo JR, Holcombe JA. Characterization of immobilized poly-L-aspartate as a metal chelator. Environmental Science & Technology 1999;33(10):1664-1670. |
R822721C651 (1999) |
Exit |
|
Hertwig T, Xu A, Nagy A, Pike R, Hopper J, Yaws C. A prototype system for economic, environmental and sustainable optimization of a chemical complex. Clean Technologies and Environmental Policy 2002;3(4):363-370. |
R828598 (Final) R828598C734 (Final) |
Exit |
|
Ho TC, Chuang TC, Chelluri S, Lee Y, Hopper JR. Simultaneous capture of metal, sulfur and chlorine by sorbents during fluidized bed incineration. Waste Management 2001;21(5):435-441. |
R828598 (Final) R828598C697 (Final) R826694C697 (2001) |
Exit Exit Exit |
|
Ho TC, Kobayashi N, Lee YK, Lin CJ, Hopper JR. Modeling of mercury sorption by activated carbon in a confined, a semi-fluidized, and a fluidized bed. Waste Management 2002;22(4):391-398. |
R828598 (Final) R828598C697 (Final) |
Exit Exit |
|
Ho TC, Lee Y, Kobayashi N, Hopper JR, Lin J. Measurement and modeling of elemental mercury sorption on various activated carbons in a fixed-bed absorber. Journal of the Chinese Institute of Chemical Engineers 2003;34(1):17-23. |
R828598 (Final) R828598C697 (Final) |
Exit Exit |
|
Ho TC, Kobayashi N, Lee Y, Lin J, Hopper JR. Experimental and kinetic study of mercury adsorption on various activated carbons in a fixed bed adsorber. Environmental Engineering Science 2004;21(1):21-27. |
R828598 (Final) R828598C697 (Final) CR831276 (Final) R831276C005 (2004) |
Exit |
|
Hopper JR, Saleh JM, Pike R. Design of multi-phase and catalytic chemical reactors: a simulation tool for pollution prevention. Clean Technologies and Environmental Policy 2001;3(2):92-103. |
R828598 (Final) R828598C734 (Final) |
Exit Exit |
|
Howard M, Jurbergs HA, Holcombe JA. Effects of oxidation of immobilized poly(L-cysteine) on trace metal chelation and preconcentration. Analytical Chemistry 1998;70(8):1604-1609. |
R822721C651 (1999) |
Exit |
|
Howard M, Jurbergs HA, Holcombe JA. Comparison of silica-immobilized poly(L-cysteine) and 8-hydroxyquinoline for trace metal extraction and recovery. Journal of Analytical Atomic Spectrometry 1999;14(8):1209-1214. |
R822721C651 (1999) |
Exit Exit |
|
Howard ME, Holcombe JA. Model for nonequilibrium binding and affinity chromatography: characterization of 8-hydroxyquinoline immobilized on controlled pore glass using a flow injection system with a packed microcolumn. Analytical Chemistry 2000;72(16):3927-3933. |
R826694C651 (Final) |
Exit |
|
Huang C, Chen DH, Li K. Photocatalytic oxidation of butyraldehyde over titania in air: by-product identification and reaction pathways. Chemical Engineering Communications 2003;190(3):373-392. |
R828598 (Final) R828598C744 (2001) CR831276 (Final) R831276C004 (2004) |
Exit |
|
Intarajang K, Richardson JT. Catalytic steam reforming of chlorocarbons: catalyst comparisons. Applied Catalysis B: Environment 1999;22(1):27-34. |
R822721C633 (1999) |
Exit |
|
Jandhyala DM, Berman, M, Meyers PR, Sewell BT, Willson RC, Benedik MJ. CynD, the cyanide dihydratase from Bacillus pumilus:gene cloning and structural studies. Applied and Environmental Microbiology 2003;69(8):4794-4805. |
R828598 (Final) R828598C789 (Final) |
Exit Exit Exit |
|
Jandhyala DM, Willson RC, Sewell BT, Benedik MJ. Comparison of cyanide-degrading nitrilases. Applied Microbiology and Biotechnology 2005;68(3):327-335. |
R828598 (Final) R828598C789 (Final) |
Exit |
|
Kan AT, Fu G, Hunter M, Chen W, Ward CH, Tomson MB. Irreversible sorption of neutral hydrocarbons to sediments: experimental observations and model predictions. Environmental Science & Technology 1998;32(7):892-902. |
R822721C700 (1999) R825513C016 (Final) |
Exit |
|
Kan AT, Chen W, Tomson MB. Desorption kinetics of neutral hydrophobic organic compounds from field-contaminated sediment. Environmental Pollution 2000;108(1):81-89. |
R828598 (Final) R828598C700 (Final) R822721C700 (1999) R825513C024 (Final) R826694C700 (1999) R826694C700 (Final) |
Exit Exit Exit |
|
Kani I, Flores R, Fackler Jr. JP, Akgerman A. Hydroformylation of styrene in supercritical carbon dioxide with fluoroacrylate polymer supported rhodium catalysts. Journal of Supercritical Fluids 2004;31(3):287-294. |
R826694C640 (1999) R826694C640 (Final) |
Exit Exit Exit |
|
Kim S, Sioutas C, Chang M-C, Gong Jr. H. Factors affecting the stability of the performance of ambient fine-particle concentrators. Inhalation Toxicology 2000;12(Suppl 4):281-298. |
R828598 (Final) R828598C700 (Final) R825513C024 (Final) R826708 (2000) R826708 (2001) R826708 (2002) R826708 (Final) R827352 (2004) R827352 (Final) R827352C012 (Final) R827352C014 (Final) |
Exit |
|
Kim TS, Stiehl JD, Reeves CT, Meyer RJ, Mullins CB. Cryogenic CO oxidation on TiO2-supported gold nanoclusters precovered with atomic oxygen. Journal of the American Chemical Society 2003;125(8):2018-2019. |
R828598C802 (Final) |
Exit |
|
Ko S-O, Schlautman MA, Carraway ER. Partitioning of hydrophobic organic compounds to sorbed surfactants. 1. Experimental studies. Environmental Science & Technology 1998;32(18):2769-2775. |
R822721C635 (1999) |
Exit |
|
Ko S-O, Schlautman MA. Partitioning of hydrophobic organic compounds to sorbed surfactants. 2. Model development/predictions for surfactant-enhanced remediation applications. Environmental Science & Technology 1998;32(18):2776-2781. |
R822721C635 (1999) |
Exit Exit |
|
Ko S-O, Schlautman MA, Carraway ER. Effects of solution chemistry on the partitioning of phenanthrene to sorbed surfactants. Environmental Science & Technology 1998;32(22):3542-3548. |
R822721C635 (1999) |
Exit |
|
Ko S-O, Schlautman MA, Carraway ER. Partitioning of hydrophobic organic compounds to hydroxypropyl-β-cyclodextrin: experimental studies and model predictions for surfactant-enhanced remediation applications. Environmental Science & Technology 1999;33(16):2765-2770. |
R822721C635 (1999) |
Exit |
|
Ko S-O, Schlautman MA, Carraway ER. Cyclodextrin-enhanced electrokinetic removal of phenanthrene from a model clay soil. Environmental Science & Technology 2000;34(8):1535-1541. |
R826694C635 (Final) R822721C635 (1999) |
Exit |
|
Lancaster DG, Fried A, Wert B, Henry B, Tittel FK. Difference-frequency-based tunable absorption spectrometer for detection of atmospheric formaldehyde. Applied Optics 2000;39(24):4436-4443. |
R826694C731 (2000) |
Exit Exit |
|
Li K, Liu SYC, Huang C, Esariyaumpai S, Chen DH. TiO2 photocatalytic oxidation of butyraldehyde, ethylbenzene and PCE in the air through concentric reactors. Journal of Advanced Oxidation Technologies 2002;5(2):227-232. |
R828598 (Final) R828598C744 (Final) |
Exit |
|
Lin B, Akgerman A. Isoprene/methyl acrylate Diels-Alder reaction in supercritical carbon dioxide. Industrial & Engineering Chemistry Research 1999;38(12):4525-4530. |
R822721C640 (1998) |
Exit |
|
Lin B, Akgerman A. Styrene hydroformylation in supercritical carbon dioxide: rate and selectivity control. Industrial & Engineering Chemistry Research 2001;40(4):1113-1118. |
R826694C640 (1999) R826694C640 (Final) |
Exit |
|
Lin HF, Ravikrishna R, Valsaraj KT. Reusable adsorbents for dilute solution separation. 6. Batch and continuous reactors for the adsorption and degradation of 1,2-dichlorobenzene from dilute wastewater streams using titania as a photocatalyst. Separation and Purification Technology 2002;28(2):87-102. |
R828598 (Final) R828598C753 (2001) |
Exit |
|
Lin HF, Valsaraj KT. A titania thin film annular photocatalytic reactor for the degradation of polycyclic aromatic hydrocarbons in dilute water streams. Journal of Hazardous Materials 2003;99(2):203-219. |
R828598 (Final) R828598C753 (Final) |
Exit Exit Exit |
|
Lin H, Valsaraj KT. Development of an optical fiber monolith reactor for photocatalytic wastewater treatment. Journal of Applied Electrochemistry 2005;35(7-8):699-708. |
R828598 (Final) R828598C753 (Final) |
Exit |
|
Linkous CA, Huang CP, Fowler JR. UV photochemical oxidation of aqueous sodium sulfide to produce hydrogen and sulfur. Journal of Photochemistry and Photobiology A: Chemistry 2004;168(3):153-160. |
R828598 (Final) R828598C786 (Final) |
Exit |
|
Liu CY, Speitel Jr GE, Georgiou G. Kinetics of methyl t-butyl ether cometabolism at low concentrations by pure cultures of butane-degrading bacteria. Applied and Environmental Microbiology 2001;67(5):2197-2201. |
R826694C630 (Final) |
Exit Exit Exit |
|
McMinn TE, Moates FC, Richardson JT. Catalytic steam reforming of chlorocarbons:catalyst deactivation. Applied Catalysis B: Environmental 2001;31(2):93-105. |
R826694C633 (Final) |
Exit |
|
Meyer RJ, Kim DI, Allen DT, Jo JH. Catalytic hydrodechlorination of 1,3-dichloropropene. Chemical Engineering Science 1999;54(15-16):3627-3634. |
R822721C626 (1999) |
Exit Exit |
|
Meyer RJ, Safarik DJ, Reeves CT, Allen DT, Mullins CB. Phosgene formation from adsorption of carbon tetrachloride on oxygen modified Ir(111). Journal of Molecular Catalysis A: Chemical 2001;167(1-2):59-66. |
R828598 (Final) R828598C802 (2001) R826694C626 (Final) |
Exit |
|
Meyer RJ, Reeves CT, Safarik DJ, Allen DT, Mullins CB. Comparison of phosgene formation from adsorption of carbon tetrachloride on oxygen modified Ir(111) and oxygen modified Ir(110). Journal of Vacuum Science and Technology A: Vacuum, Surfaces, and Films 2001;19(4):1524-1530. |
R828598 (Final) R828598C802 (2001) R828598C802 (Final) R826694C626 (Final) |
Exit |
|
Miller TC, Holcombe JA. An ion-exchange microcolumn employing gold minigrids as supports for the on-line immobilization of poly(L-aspartate). Analytical Chemistry 1999;71(14):2667-2671. |
R822721C651 (1999) |
Exit |
|
Miller TC, Holcombe JA. Comparison and evaluation of the synthetic biopolymer poly-L-aspartic acid and the synthetic "plastic" polymer poly-acrylic acid for use in metal ion-exchange systems. Journal of Hazardous Materials 2001;83(3):219-236. |
R826694C651 (Final) |
Exit Exit Exit |
|
Miller TC, Kwak E-S, Howard ME, Vanden Bout DA, Holcombe JA. An in situ study of metal complexation by an immobilized synthetic bipolymer using tapping mode liquid cell atomic force microscopy. Analytical Chemistry 2001;73(17):4087-4095. |
R826694C651 (Final) |
Exit |
|
Moates FC, McMinn TE, Richardson JT. Radial reactor for trichloroethylene steam reforming. AIChE Journal 1999;45(11):2411-2418. |
R822721C633 (1999) |
not available |
|
Olson DA, Corsi RL. Characterizing exposure to chemicals from soil vapor intrusion using a two-compartment model. Atmospheric Environment 2001;35(24):4201-4209. |
R826694C645 (Final) |
Exit Exit Exit |
|
Opdyke DR, Loehr RC. Importance of nonequilibrium sorption conditions: contaminated soil. Ground Water Monitoring & Remediation 2002;22(3):136-143. |
R828598 (Final) R828598C725 (Final) |
Exit |
|
Opdyke DR, Loehr RC. Transport of subsurface chemicals under nonequilibrium sorption conditions. Practice Periodical of Hazardous, Toxic, and Radioactive Waste Management 2002;6(1):41-48. |
R828598 (Final) R828598C725 (Final) |
Exit |
|
Ortego Jr JD, Richardson JT, Twigg MV. Catalytic steam reforming of chlorocarbons: methyl chloride. Applied Catalysis B: Environmental 1997;12(4):339-355. |
R822721C633 (1999) |
Exit |
|
Prasad N, Adams BM, Arnold DW. Optimization of two step process for remediation of Sucarnoochee Soil with petroleum coke. Advances in Environmental Research 1999; 3(2): 189-201. |
R822721C655 (2000) |
not available |
|
Pressman JG, Georgiou G, Speitel Jr GE. Demonstration of efficient trichloroethylene biodegradation in a hollow-fiber membrane bioreactor. Biotechnology and Bioengineering 1999;62(6):681-692. |
R822721C630 (1999) |
Exit |
|
Pressman JG, Georgiou G, Speitel Jr GE. A hollow-fiber membrane bioreactor for the removal of trichloroethylene from the vapor phase. Biotechnology and Bioengineering 2000;68(5):548-556. |
R826694C630 (Final) R822721C630 (1999) |
Exit |
|
Yuan QZ, Ravikrishna R, Valsaraj KT. Reusable adsorbents for dilute solution separation. 5. Photodegradation of organic compounds on surfactant-modified titania. Separation and Purification Technology 2001;24(1-2):309-318. |
R828598 (Final) R828598C753 (2001) R828598C753 (Final) |
Exit |
|
Reeves CT, Meyer RJ, Mullins CB. Dissociative adsorption and hydrodechlorination of CCl4 on Ir(110). Journal of Molecular Catalysis A: Chemical 2003;202(1-2):135-146. |
R828598 (Final) R828598C802 (2001) R828598C802 (Final) |
Exit |
|
Rehle D, Leleux D, Erdelyi M, Tittel F, Fraser M, Friedfeld S. Ambient formaldehyde detection with a laser spectrometer based on difference-frequency generation in PPLN. Applied Physics B: Lasers and Optics 2001;72(8):947-952. |
R828598 (Final) |
Exit |
|
Safarik DJ, Mullins CB. A new methodology and model for characterization of nucleation and growth kinetics in solids. Journal of Chemical Physics 2003; 119(23):12510-12524. |
R828598C802 (Final) |
Exit |
|
Safarik DJ, Mullins CB. Surface phase transformation kinetics: a geometrical model for thin films of nonvolatile and volatile solids. Journal of Chemical Physics 2002;117(17):8110-8123. |
R828598C802 (Final) |
Exit |
|
Santana GM, Akgerman A. Alkylation of isobutane with 1-butene on a solid acid catalyst in supercritical reaction media. Industrial & Engineering Chemistry Research 2001;40(18):3879-3882. |
R826694C669 (2000) R826694C669 (Final) |
Exit |
|
Schlautman MA, Han I. Effects of pH and dissolved oxygen on the reduction of hexavalent chromium by dissolved ferrous iron in poorly buffered aqueous systems. Water Research 2001;35(6):1534-1546. |
R822721C636 (1999) |
Exit Exit Exit |
|
Sethi S, Wiesner MR. Cost modeling and estimation of crossflow membrane filtration processes. Environmental Engineering Science 2000;17(2):61-79. |
R826694C620 (Final) |
Exit |
|
Sewell BT, Berman MN, Meyers PR, Jandhyala D, Benedik MJ. The cyanide degrading nitrilase from Pseudomonas stutzeri AK61 is a two-fold symmetric, 14-subunit spiral. Structure 2003;11(11):1413-1422. |
R828598 (Final) R828598C789 (Final) |
Exit Exit Exit |
|
Stiehl JD, Kim TS, McClure SM, Mullins CB. Evidence for molecularly chemisorbed oxygen on TiO2 supported gold nanoclusters and Au(111). Journal of the American Chemical Society 2004;126(6):1606-1607. |
R828598C802 (Final) |
Exit |
|
Stiehl JD, Kim TS, Reeves CT, Meyer RJ, Mullins CB. Reactive scattering of CO from an oxygen-atom-covered Au/TiO2 model catalyst. Journal of Physical Chemistry B 2004;108(23):7917-7926. |
R828598C802 (Final) |
Exit |
|
Stiehl JD, Kim TS, McClure SM, Mullins CB. Reaction of CO with molecularly chemisorbed oxygen on TiO2-supported gold nanoclusters. Journal of the American Chemical Society 2004;126(42):13574-13575. |
R828598C802 (Final) |
Exit |
|
Sung K, Corapcioglu MY, Drew MC, Munster CL. Plant contamination by organic pollutants in phytoremediation. Journal of Environmental Quality 2001;30(6):2081-2090. |
R826694C696 (2000) R826694C696 (Final) R825414 (Final) R828598C696 (Final) |
Exit Exit Exit |
|
Sung K, Yavuz CM, Drew MC. Heat and mass transfer in the vadose zone with plant roots. Journal of Contaminant Hydrology 2002;57(1-2):99-127. |
R826694C696 (2000) R826694C696 (Final) R825414 (Final) R828598C696 (Final) |
Exit Exit Exit |
|
Sung K, Corapcioglu MY, Drew MC. Plant aided bioremediation in the vadose zone: model development and applications. Journal of Contaminant Hydrology 2004;73(1-4):65-98. |
R826694C696 (2000) R826694C696 (Final) R825414 (Final) |
Exit Exit Exit |
|
Tarabara VV, Wiesner MR. Effect of collision efficiency on the evolution of the surface of diffusion-limited deposits. Journal of Colloid and Interface Science 2001;237(1):150-151. |
R826694C620 (Final) R828773 (2004) R828773 (Final) R828773C002 (2003) |
Exit Exit |
|
Tomson MB. Causes and effects of resistant sorption in natural particles. Environmental Toxicology and Chemistry 1999;18(8):1609. |
R828598 (Final) R828598C700 (Final) R822721C700 (1999) R825513C016 (Final) R825513C024 (Final) |
Exit |
|
Vipulanandan C, Ren X. Enhanced solubility and biodegradation of naphthalene with biosurfactant. Journal of Environmental Engineering 2000;126(7):629-634. |
R826694C625 (Final) |
Exit |
|
Wang S-Y, Vipulanandan C. Biodegradation of naphthalene-contaminated soils in slurry bioreactors. Journal of Environmental Engineering 2001;127(8):748-754. |
R826694C625 (Final) |
Exit |
|
Williamson DG, Loehr RC, Kimura Y. Release of chemicals from contaminated soils. Journal of Soil Contamination 1998;7(5):543-558. |
R822721C529 (Final) |
Exit |
|
Zheng D, Carr CS, Hughes JB. Influence of hydraulic retention time on extent of PCE dechlorination and preliminary characterization of the enrichment culture. Bioremediation Journal 2001;5(2):159-168. |
R826694C703 (Final) R828598C703 (Final) |
Exit |
Supplemental Keywords:
RFA, Health, Scientific Discipline, Waste, Environmental Chemistry, Health Risk Assessment, Risk Assessments, Hazardous Waste, Ecological Risk Assessment, Hazardous, Environmental Engineering, chemical exposure, contaminated sediments, hazardous waste management, hazardous waste treatment, advanced treatment technologies, contaminated waste sites, petroleum contaminants, hydrocarbon, combustion emissions, environmental mutagens, contaminated soil, petrochemical waste, human exposure, groundwater contamination, chemical releases, combustion, hydrocarbons, waste management, bioremediationProgress and Final Reports:
Original Abstract Subprojects under this Center: (EPA does not fund or establish subprojects; EPA awards and manages the overall grant for this center).
R822721C529 Environmentally Acceptable Endpoints: Risk Based Remediation Using Bioremediation
R822721C552 Degradative Solidification/Stabilization Technology for Chlorinated Hydrocarbons
R822721C569 Treatment and Product Recovery: Supercritical Water Oxidation of Nylon Monomer Manufacturing Waste
R822721C620 Colloidal Fouling of Membranes: Implications in the Treatment of Textile Dye Wastes and Water Reuse
R822721C626 Catalytic Hydroprocessing of Chlorinated Organics
R822721C627 The Interaction of Microbial Activity and Zero Valent Iron Permeable Barrier Technology
R822721C630 Microbial Cometabolism of Recalcitrant Chemicals in Contaminated Air Streams
R822721C633 Catalyst Lifetime Studies for Chlorocarbon Steam Reforming
R822721C635 Electrokinetic/Surfactant-Enhanced Remediation of Hydrophobic Pollutants in Low Permeability Subsurface Environments
R822721C636 Transformation Reactions of Nitroaromatic and Nitrogen Heterocyclic Compounds on Granular Activated Carbon (GAC) Surfaces: Enhancement of GAC Adsorption in Natural and Engineered Environmental Systems
R822721C640 Environmentally Friendly Organic Synthesis in Supercritical Fluids
R822721C645 Development and Evaluation of an Integrated Model to Facilitate Risk-Based Corrective Action at Superfund Sites
R822721C651 Adjustable Biopolymer Chelators for Cadmium, Lead and Mercury
R822721C653 New Electrochemically Smart Catalysts for Hazardous Waste Management and Development of Capillary Electrophoresis for Analysis of their Products
R822721C655 Soil Sampling in South Alabama Oil Fields
R822721C659 Subsurface Contamination Site Characterization via a Computer-Aided Visual Tool
R822721C661 New Insoluble supports for Protein Immobilization for Use in Metalloprotein Affinity Metal Chromatography
R822721C663 Soil Remediation with Ultra-High-Efficiency Hydrocyclones
R822721C669 Solid Acid Catalyzed Alkylation in Supercritical Fluids
R822721C679 Regeneration/Reactivation of Carbon Adsorbents by Radio Frequency (RF) Induction Heating
R822721C687 Improved Halogen Resistance of Catalytic Oxidation
R822721C696 Phytoremediation and Bioremediation of Land Contaminated By PAHs, PCBs, and TNT
R822721C697 Fundamental and Kinetic Investigation of Sorbent Technology for Optimum Mercury Emission Control
R822721C700 Effects of Natural and Cyclic Variations on Contaminant Fate and Transport
R822721C703 Enhancement of DNAPL Dissolution Rates by Dechlorinating Anaerobes
R826694C620 Colloidal Fouling of Membranes: Implications in the Treatment of Textile Dye Wastes and Water Reuse
R826694C625 Enhanced Treatment of DNAPLs Contaminated Soils and Groundwater Using Biosurfactants: In-Situ Bioremediation
R826694C626 Catalytic Hydroprocessing of Chlorinated Wastes
R826694C627 The Interaction of Microbial Activity and Zero Valent Iron Permeable Barrier Technology
R826694C629 Biofiltration of BTEX in Petroleum-Contaminated Soil Remediation Off-Gas
R826694C630 Microbial Cometabolism of Recalcitrant Chemicals in Contaminated Air Streams
R826694C633 Catalyst Lifetime Studies for Chlorocarbon Steam Reforming
R826694C635 Electrokinetic/Surfactant-Enhanced Remediation of Hydrophobic Pollutants in Low Permeability Subsurface Environments
R826694C636 Transformation Reactions of Nitroaromatic and Nitrogen Heterocyclic Compounds on Granular Activated Carbon (GAC) Surfaces: Enhancement of GAC Adsorption in Natural and Engineered Environmental Systems
R826694C640 Environmentally Friendly Organic Synthesis in Supercritical Fluids
R826694C645 Development and Evaluation of an Integrated Model to Facilitate Risk-Based Corrective Action at Superfund Sites
R826694C651 Adjustable Biopolymer Chelators for Cadmium, Lead, and Mercury Remeidation
R826694C659 Subsurface Contamination Site characterization Via a Computer-Aided Visual Tool
R826694C661 New Insoluble supports for Protein Immobilization for Use in Metalloprotein Affinity Metal Chromatography
R826694C669 Solid Acid Catalyzed Alkylation in Supercritical Reaction Media
R826694C679 Regeneration and Reactivation of Carbon Adsorbents by Radio Frequency Induction Heating
R826694C696 Phytoremediation and Bioremediation of Land Contaminated By PAHs, PCBs, and TNT
R826694C697 Fundamental and Kinetic Investigation of Sorbent Technology for Optimum Mercury Emission Control
R826694C700 Effects of Natural Cyclic Variations on Contaminated Fate and Transport
R826694C703 Enhancement of DNAPL Dissolution Rates by Dechlorinating Anaerobes
R826694C705 A Pilot Plant for Producing Mixed Ketones from Waste Biomass
R826694C722 The Effects of an Oily-Phase on VOC Emissions from Industrial Wastewater
R826694C724 Mercury Removal from Stack Gas by Aqueous Scrubbing
R826694C725 Transport, Fate and Risk Implications of Environmentally Acceptable Endpoint Decisions
R826694C731 Development and Application of a Real-Time Optical Sensor for Atmospheric Formaldehyde
R826694C734 An Advanced System for Pollution Prevention in Chemical Complexes
R828598C001 Field Study Abstract: A Model of Ambient Air Pollution in Southeast Texas Using Artificial Neural Network Technology
R828598C002 Hollow Fiber Membrane Bioreactors for Treating Water and Air Streams Contaminated with Chlorinated Solvents
R828598C003 Fugitive Emissions of Hazardous Air Pollutants from On-Site Industrial Sewers
R828598C004 Biofiltration Technology Development
R828598C005 A Risk-Based Decision Analysis Approach for Aquifers Contaminated with DNAPLs
R828598C006 In-Situ Remediation for Contaminated Soils Using Prefabricated Vertical Drains
R828598C007 Membrane Technology Selection System for the Metal Finishing Industry
R828598C008 Sequential Environments for Enhanced Bioremediation of Chlorinated Aliphatic Hydrocarbons
R828598C009 Waste Minimization in the Magnetic Tape Industry: Waterborne Coating Formulations for Magnetic Tape Manufacture
R828598C010 Soil Remediation by Agglomeration with Petroleum Coke
R828598C011 Recovery of Dilute Phosphoric Acid in Waste Streams Using Waste Gas Ammonia: The Regenerative MAP/DAP Process
R828598C012 Stochastic Risk Assessment for Bioremediation
R828598C013 Selective Removal of Heavy Metals from Wastewater by Chelation in Supercritical Fluids
R828598C014 Optimization of Treatment Technologies for Detoxification of PCB Contaminated Soils
R828598C015 Wastewater Remediation by Catalytic Wet Oxidation
R828598C016 Permanence of Metals Containment in Solidified and Stabilized Wastes
R828598C017 Combustion Enhancement by Radial Jet Reattachment - Low Generation of Hazardous Gases and High Thermal Efficiency
R828598C018 A Process To Convert Industrial Biosludge and Paper Fines to Mixed Alcohol Fuels
R828598C019 Homogeneous Catalysis in Supercritical Carbon Dioxide
R828598C020 Ultrasonic Enhancement of the Removal of Heavy Metals
R828598C021 The Binding Chemistry and Leaching Mechanisms of Advanced Solidification/Stabilization Systems for Hazardous Waste Management
R828598C022 Development of an Air-Stripping and UV/H2O2 Oxidation Integrated Process To Treat a Chloro-Hydrocarbon-Contaminated Ground Water
R828598C023 A Comparative Study of Siting Opposition in Two Counties
R828598C024 Sonochemical Treatment of Hazardous Organic Compounds II: Process Optimization and Pathway Studies
R828598C025 Laser Diagnostics of the Combustion Process within a Rotary Kiln Incinerator
R828598C026 Use of Inorganic Ion Exchangers for Hazardous Waste Remediation
R828598C027 Kaolinite Sorbent for the Removal of Heavy Metals from Incinerated Lubricating Oils
R828598C028 Destruction of Chlorinated Hydrocarbons in Process Streams Using Catalytic Steam Reforming
R828598C029 Integrated Process Treatment Train (Bioremediation {Aerobic/Anaerobic} and Immobilization) for Texas Soils Contaminated with Combined Hazardous Wastes
R828598C030 Photo-Oxidation by H2O2/VisUV of Off-Gas Atmospheric Emissions from Industrial and Environmental Remediation Sources
R828598C031 Concentrated Halide Extraction and Recovery of Lead from Soil
R828598C032 Biodegradable Surfactant for Underground Chlorinated Solvent Remediation
R828598C033 A Software Guidance System for Choosing Analytical Subsurface Fate and Transport Models Including a Library of Computer Solutions for the Analytical Models
R828598C034 Hydrodynamic Modeling of Leachate Recirculating Landfill
R828598C035 Measurement of Oxygen Transfer Rate in Soil Matrices
R828598C036 Sorbent Technology for Multipollutant Control During Fluidized Bed Incineration
R828598C037 Pollution Prevention by Process Modification Using On-Line Optimization
R828598C038 Pollution Prevention by Process Modification
R828598C039 Water Solubility and Henry's Law Constant
R828598C040 Transferring Technical Information on Hazardous Substance Research by Publishing on the World Wide Web
R828598C041 Stress Protein Responses to Multiple Metal Exposure in Grass Shrimp
R828598C042 Life-Cycle Environmental Costing for Managing Pollution Prevention in the Chemical and Petroleum Refining Industries: A Cross-Border Approach
R828598C687 Improved Halogen Resistance of Catalytic Oxidation Through Efficient Catalyst Testing
R828598C696 Phytoremediation and Bioremediation of Land Contaminated By PAHs, PCBs, and TNT
R828598C697 Fundamental and Kinetic Investigation of Sorbent Technology for Optimum Mercury Emission Control
R828598C700 Effects of Natural Cyclic Variations on Contaminated Fate and Transport
R828598C703 Enhancement of DNAPL Dissolution Rates by Dechlorinating Anaerobes
R828598C705 A Pilot Plant for Producing Mixed Ketones from Waste Biomass
R828598C722 The Effects of an Oily-Phase on VOC Emissions from Industrial Wastewater
R828598C724 Mercury Removal from Stack Gas by Aqueous Scrubbing
R828598C725 Transport, Fate and Risk Implications of Environmentally Acceptable Endpoint Decisions
R828598C731 Development and Application of a Real Time Optical Sensor for Atmospheric Formaldehyde
R828598C734 An Advanced System for Pollution Prevention in Chemical Complexes
R828598C743 Field Demonstration of Ultrasound Enhancement of Permeable Treatment Walls
R828598C744 Optical Fibers Coated With Titania Membrane/UV-Generating Crystal in a Distributed-Light Photoreactor for VOC Oxidation
R828598C749 Characterization and Modeling of Indoor Particulate Contaminants In a Heavily Industrialized Community
R828598C753 Adsolubilization and Photocatalysis in a Semiconducting Monolithic Reactor for Wastewater Treatment
R828598C754 Remote Detection of Gas Emissions in Industrial Processes
R828598C759 Searching for Optimum Composition of Phosphogypsum: Fly ash: Cement Composites for Oyster Culch Materials
R828598C761 Development of a Phytologically-Based Biosorptive Water Treatment Process
R828598C766 Chlorinated Solvent Impact and Remediation Strategies for the Dry Cleaning Industry
R828598C769 Soil/Sediment Remediation by Hot Water Extraction Combined with In-Situ Wet Oxidation
R828598C771 Fluoracrylate Polymer Supported Ligands as Catalysts for Environmentally Benign Synthesis in Supercritical Fluids
R828598C774 The Feasibility of Electrophoretic Repair of Impoundment Leaks
R828598C777 Surfactant Enhanced Photo-oxidation of Wastewaters
R828598C778 Stationary Power Generation Via Solid Oxide Fuel Cells: A Response to Pollution and Global Warming
R828598C786 Photocatalytic Recovery of Sulfur and Hydrogen From Hydrogen Sulfide
R828598C787 Biosurfactant Produced from Used Vegetable Oil for removal of Metals From Wastewaters and Soils
R828598C789 Genetic Engineering of Enzymatic Cyanide Clearance
R828598C791 Characterizing the Intrinsic Remediation of MTBE at Field Sites
R828598C799 Simultaneous Water Conservation/Recycling/Reuse and Waste Reduction in Semiconductor Manufacturing
R828598C801 Building Defined Mixed Cultures To Biodegrade Diverse Mixtures Of Chlorinated Solvents
R828598C802 Engineering of Nanocrystal Based Catalytic Materials for Hydroprocessing of Halogenated Organics
R828598C807 Commercial Demonstration of Hydrogen Peroxide Injection to Control NOx Emissions from Combustion Sources
R828598C809 Evaluating Source Grouting and ORC for Remediating MTBE Sites
R828598C810 Application of Total Cost Assessment To Process Design In the Chemical Industry
R828598C846 Quantitative Demonstration of Source-Zone Bioremediation in A Field-Scale Experimental Controlled Release System
The perspectives, information and conclusions conveyed in research project abstracts, progress reports, final reports, journal abstracts and journal publications convey the viewpoints of the principal investigator and may not represent the views and policies of ORD and EPA. Conclusions drawn by the principal investigators have not been reviewed by the Agency.