Modeling atmospheric gas dispersion using computational fluid dynamics

Although rare, industrial facilities can suffer from minor to catastrophic failures, commonly referred to as loss of primary containment (LOPC), which can result in the release of hazardous gases and/or liquids. In order to protect the safety of the public, companies must provide a means of mitigating the potential damage to people and the environment. […]

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Pilot-Scale Mycoremediation of Petroleum Hydrocarbon Impacted Soil

Mycoremediation of petroleum hydrocarbon (PHC) impacted soil utilizes mushroom to decontaminate polluted soil. Specific mushrooms including shiitake, oyster and other white rot fungus have been successfully degraded a wide range of recalcitrant soil contaminants. However, this process is quite slow and is sometimes limiting. It is hypothesized that insufficient bioavailable phosphorus supply likely limits the […]

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Towards an energy performance-driven space organization

This project investigates a new perspective on the intersections of architectural form generation, sustainability, building performance simulation and computation, and is meant to research an energy performance-driven building space organization method in the preliminary design phase. It will enquiry clear design questions, and present results using a visualization method that addresses the problem for both […]

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Modeling atmospheric gas dispersion using computational fluid dynamics – Part 2

Although rare, industrial facilities can suffer from minor to catastrophic failures, commonly referred to as loss of primary containment (LOPC), which can result in the release of hazardous gases and/or liquids. In order to protect the safety of the public, companies must provide a means of mitigating the potential damage to people and the environment. […]

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Drinking Water Treatment Infrastructure: Responding to Climate Change and Increasingly Variable Source Water Quality

As a result of climate change and other pressures that result in “extreme events” like wildfire and flooding, many drinking water utilities are at risk of potentially catastrophic failure and need treatment adaptation strategies to prepare for increasingly variable and potentially rapid deterioration in source water quality. Currently there are no recognized tools for evaluating the anticipated impacts […]

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Pool-riffle design for river restora

Professionally practicing Civil Engineers and Earth Scientists engage in stream restoration actions in order to enhance freshwater habitats for salmon, trout, and a variety of other species. There is a wealth of procedures and standards available to help practitioners develop design plans. However, there is a lack of specific guidelines to help identify stream reconstruction […]

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Drinking Water Treatment Infrastructure: Responding to Climate Change and Increasingly Variable Source Water Quality – Year two

As a result of climate change and other pressures that result in “extreme events” like wildfire and flooding, many drinking water utilities are at risk of potentially catastrophic failure and need treatment adaptation strategies to prepare for increasingly variable and potentially rapid deterioration in source water quality. Currently there are no recognized tools for evaluating […]

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A remote sensing-based wetland inventory and classification framework for Newfoundland and Labrador using satellite optical and synthetic aperture radar data

This project aims to develop a remote sensing based framework for Newfoundland and Labrador (NL) wetland inventory and classification and monitoring through the synergistic use of satellite and airborne multi-spectral and ortho-imagery and space-born synthetic aperture radar (SAR) data. The proposed project involves collaboration from C-CORE, Ducks Unlimited Canada, and Santec. The results and approach […]

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