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Bioventing Degradation Rates of Petroleum Hydrocarbons and Determination of Scale-up Factors

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Title: Bioventing Degradation Rates of Petroleum Hydrocarbons and Determination of Scale-up Factors
Author: Khan, Alamgir A.
Department: School of Engineering
Program: Engineering
Advisor: Zytner, Richard G.
Abstract: Petroleum hydrocarbons are ubiquitous environmental contaminants that need to be removed from soil after a spill due to their toxic and carcinogenic characteristics. Bioventing has the potential to be an effective bioremediation technology for contaminated soil, yet many challenges exist when extending results from the laboratory to the field. Understanding scale dependent phenomena is difficult, because most laboratory studies were completed at the micro-scale and limited work has been done on the larger scale. Accordingly, the main aim of the current study was to determine petroleum hydrocarbons degradation rate coefficients at the medium scale (meso-scale), which is considered a bridge between the micro and field scales, and to determine the scale-up factor. Refinement of a previously developed correlation by incorporating scale-up effects was also an additional goal. Bioventing conditions were simulated in a bench scale reactor holding 4 kg of soil on a dry weight basis that was spiked with synthetic gasoline. Five different types of soils were tested, with each soil amended with water and nutrients. Preliminary testing with the meso-scale system showed the appropriateness of the experimental system for conducting reliable bioventing treatments. Evaluation of the experimental data showed two stage hydrocarbon degradation with a fast rate of degradation in the initial 8 d and then a slower rate for remaining 22 d of the treatments. Using statistical analysis, correlations were developed which suggest a significant positive effect of the initial population of petroleum degrading bacteria and a negative impact of increasing fractions of organic matter on the rate of hydrocarbon degradation in the soil. Results also exhibited a positive impact of increasing silt and a negative effect of increasing clay on the hydrocarbon degradation rate constant. In general, higher rates of degradation were observed at the meso-scale tests when compared with the results determined through a micro-scale correlation. Comparison of micro-scale and meso-scale correlations also suggested a scale-up factor (SF) of approximately 2.
URI: http://hdl.handle.net/10214/7487
Date: 2013-08
Rights: Attribution 2.5 Canada


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Attribution 2.5 Canada Except where otherwise noted, this item's license is described as Attribution 2.5 Canada