Pure Technologies is a world leader in the development and application of innovative technologies for inspection, monitoring and management of physical infrastructure including water and hydrocarbon pipelines, buildings and bridges. Over the years, Pure Technologies has developed innovative, proprietary and patented technologies to provide infrastructure owners with comprehensive, state-of-the-art information. For the inspection of large diameter water pipelines, Pure Technologies has developed a platform named PipeDiver.

The industry partner of this project has an elevator modernization project that includes increasing the current speeds of their elevators by more than 30%. However, increase in speed is usually associated with increase in aerodynamic and lateral forces on the elevator cars, which can negatively affect ride quality and noise levels. The objective of this study is to examine the forces involved, and determine if the speed increases are within the Elevator Modernization Specification provided by industry experts.

Considering the soot-free burning characteristics of DME/OME fuel, highly diluted intake charge can be introduced in order to realize ultra-low nitrogen oxides emissions. However, the ignition process of the highly diluted fuel/air mixture is difficult, and an unstable ignition process is detrimental to fuel efficiency and engine performance. In this project, innovative ignition systems including a multi-site ignition system. and volumetric ignition system, together with novel ignition strategies will be developed.

The aim of this project is to develop a novel catalyst system for treatment of organic and nitrogen containing pollutants in wastewater generated by various industrial sectors. Development of such system is necessary as the discharge regulations are becoming increasingly restricted. The research focuses on electrode design and fabrication that treat toxic wastewater, with an emphasis on the catalyst material, i.e. platinum group metals (PGM) alloys, and mixed metal oxides (MMO).

Automated harvesting of horticultural produce is an opportunity for Canadian farmers to improve the quality of yield, reduce labour costs, and increase revenues. The research project will focus on the design and development of soft pneumatically-driven robotic grippers that conform to the natural shape of delicate produce, such as mushrooms, in an effort to minimize crop damage during harvesting. The operating principle of the proposed grasping mechanism is based on the concept of a pneumatic artificial muscle.

Blending carbonaceous materials with thermoplastic materials can lead to a significant improvement of the resulting electrical, mechanical, thermal, and gas barrier properties compared with the unfilled polymer. Graphene, the name given to a material consisting of two-dimension layers of carbon atoms arranged in a hexagonal lattice, has extraordinary properties which make possible to produce a new class of polymer nanocomposites with significantly improved properties.

ElectroMotion Energy has created an all in one AC, heating, hot water, and electricity unit to serve industrial and residential needs. This unit requires optimization algorithms and an advanced control system to optimize performance of the deployed unit around multiple objectives. These objectives consist of: meeting onsite electricity demands, meeting on site heating or AC demands, taking advantage of economical times to sell power to the grid, and to assist the municipal grids in providing electricity during peak demands.

Head Injury Prevention (HIP) Lab at Simon Fraser University in collaboration with Shield-X Technology Inc. had previously developed an impact diverting mechanism in the form of a thin multi-layered-membrane. The technology has been successfully integrated onto the exterior of a football helmet (external version) to reduce linear and rotational acceleration experienced during impact to the head. The research will focus mainly on how to adopt the technology by adding it into the interior of a single-impact helmet such as bicycle helmet without changing the exterior appearance of the helmet. A

The Energy Planning department at BC Hydro looks at how the company can meet B.C.'s future electricity demand through conservation, generation and transmission, and through upgrades to existing infrastructure. As new resources require lead times to develop, BC Hydro must plan ahead so that the new resources are ready when we need them.

The research objectives are to better understand the limitations of a new particle sizing system in terms of accuracy on particle size, of accuracy on size distribution, of accuracy on particle concentration and finally of size dynamic range. During the research project, the sources of the limitations will be identified and improvements to the technology will be proposed. State-of-the-art equipment for the generation of particles with known sizes and concentrations available at the University of Alberta will be used for the characterization of the technology.