Investigation of Pore-scale Mechanisms of Applying CO2 Huff-and-Puff to Enhance Shale Gas Recovery with Nuclear Magnetic Resonance

Considering the unique properties of CO2 under supercritical condition, CO2 is proposed to be used in huff-and-puff treatments to enhance shale gas recovery from shale gas formations. This research project will look at the fundamental pore-scale mechanisms when CO2 huff-and-puff is used for enhancing methane recovery from shale formations. In order to obtain pore-scale mechanisms of applying CO2 huffand-puff to enhance shale gas recovery, a series of CO2 huff-and-puff experiments will be conducted in conjunction with the NMR measurements.

Gaining Insight from Crash Reports and Bug Reports

This project seeks to address the flood of bugreports and crashreports that software companies must address when they build consumerfacing software. Organizations can easily face 50,000 crash reports per day. Developers cannot manually sift through them all. The goal of this work is to exploit modern search engine technology and crash report representation to enable the fast and efficient querying, clustering, and reporting of crash reports so that developers do not have to group crash report manually.

A New Method of Measuring Soot Compositions in Aerosols

Particulate matter emitted from combustion engines is a problem due to negative health effects, effect on climate, and reduction of visibility. Soot is a type of particulate matter that is of particular concern to climate scientists and automobile manufacturers. Previously, it was difficult to measure the amount of material that is not black carbon on soot particles. This project will utilize advances in aerosol science to quickly and accurately measure the percent of material that is not black carbon on soot particles.

Broadband energy harvesting from tree-like mechanical structures

Harvesting energy from renewable resources, such as wind and ocean waves, is an important issue facing our world today. With the increase in carbon dioxide levels in the atmosphere, there is a need to move away from nonrenewable resources and to find new methods for capturing energy. Wind turbines operate most efficiently within a narrow band of wind speeds, outside of which the amount of electricity they produce plummets.

Augmented Reality in Surgery

Augmented Reality (AR) is the combination of virtual images with real objects in order to improve perception. It is a rapidly growing field and has many applications in medicine. For this research project we would like to apply AR to the surgical site during a simulated operation in order to provide additional information and improve surgical performance. This will involve making 3D models from CT scan data, setting up a projection system to display those models into the surgical site and tracking the movement of the organs being operated on to maintain an accurate projection.

Methodology Research on Business Process Reengineering with a Neutral Information Model of ERPs

McCoy recognizes U of A’s capability in engineering informatics and has approached U of A to conduct a joint research program to investigate a methodology applicable to McCoy’s unique business practice nature for implementing a new enterprise resources planning system. The most challenging research aspect of novelty is the requirement of a neutral information model that is to be developed in support of the transition from the existing ERP to the future system with the minimum data reengineering effort.

Physical and Virtual Simulation and Learning Management System

By studying and modeling of current production process, a physical training assembly system is built in a small scale with the exact same process, tooling as the full scale one. Along with leaning management system constructed, which includes a set of multi-media training materials, new employees can get familiarized with the manufacturing process in a shorter frame compared to traditional training. Also, by implementing what-if analysis,  results from this physical simulation can be used to study and improve current full size production process.

A gut reaction that’s creating opportunities

Thanks to a Mitacs Accelerate partnership with industry, researchers have discovered how a type of dietary fat can provide relief for this disease, and create business opportunities for the treatment of other conditions.

John Miklavcic was working on his PhD at the university’s Alberta Institute for Human Nutrition when he began an Accelerate internship with Biolipids Inc. The goal was to look into whether gangliosides — special kinds of dietary fat that help prevent infection and regulate the immune system — could be used to treat IBD.

Protecting children and teenagers from cyberbullying

Although their filtering system is able to find malicious chat messages with high accuracy, Two Hat Security was interested in applying machine learning algorithms to automatically detect negative content. To help solve their research challenge, they turned to a Mitacs Accelerate internship with University of Alberta Computer Science PhD candidate Ken Dwyer.

Robots in the oil sands

“The system that BMI was using required a lot of manual intervention,” explained Stephen Dwyer, an engineering graduate student from the University of Alberta.

Dwyer and two fellow UAlberta graduate students, Jamie Yuen and Nicolas Olmedo, took up the research challenge through the Mitacs Accelerate program under the supervision of their supervisor, Dr. Mike Lipsett.  By the end of the internship, the team had a working alpha prototype.