Pedro A. Isaza scite author profile

Pedro A. Isaza

3Publications

73Citation Statements Received

58Citation Statements Given

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Affiliations

Nova Chemicals (Canada), University of Toronto, University of New Brunswick

Publications

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Ultrasonically enhanced delivery and degradation of PAHs in a polymer–liquid partitioning system by a microbial consortium

Isaza¹,

Daugulis²

2009

Biotech & Bioengineering

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The current study examined the effects of ultrasonic irradiation on mass transfer and degradation of PAHs, by an enriched consortium, when delivered from polymeric matrices. Rates of release into methanol under sonicated conditions, relative to unmixed cases, for phenanthrene, fluoranthene, pyrene, and benzo[a]pyrene were increased approximately fivefold, when delivered from Desmopan 9370 A (polyurethane). Similar effects were observed in Hytrel and Kraton D4150 K polymers as well as recycled Bridgestone tires. Enhancements were also displayed as shifts to higher release equilibria under sonicated conditions, relative to non-sonicated cases, agreeing with current knowledge in sonochemistry and attributed to cavitation. Ultrasonic effects on microbial activity were also investigated and cell damage was found to be non- permanent with consortium re-growth being observed after sonic deactivation. Finally, the lumped effect of sonication on degradation of phenanthrene delivered from Desmopan was examined under the absence and presence of sonication. Rates of degradation were found to be increased by a factor of four demonstrating the possibility of using ultrasonic irradiation for improved mass transport in solid-liquid systems. Cellular inactivation effects were not evident, and this was attributed to the attenuation of sonic energy arising from the presence of solid polymer materials in the medium. The findings of the study demonstrate that sonication can be used to improve mass transport of poorly soluble compounds in microbial degradations, and alleviate limiting steps of soil remediation processes proposed in previous research.

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Counter-current parallel-plate moving bed heat exchanger: An analytical solution

Isaza

Warnica

Bussmann

2015

International Journal of Heat and Mass Transfer

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Co-current parallel-plate moving bed heat exchanger: An analytical solution

Isaza

Warnica

Bussmann

2015

International Journal of Heat and Mass Transfer

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Pedro A. Isaza

Ultrasonically enhanced delivery and degradation of PAHs in a polymer–liquid partitioning system by a microbial consortium

Counter-current parallel-plate moving bed heat exchanger: An analytical solution

Co-current parallel-plate moving bed heat exchanger: An analytical solution

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