Domtar Inc. is investigating potential value-added applications for an advanced fiber they produce, which is referred to as SEPF (surface enhanced pulp fiber). SEPF is a key platform material for the development of new value-added, bio-based products from existing pulp and paper manufacturing sites and their forest based supply chains. The main objective of this work is to use SEPF for the preparation of said value-added products, such as, for example, paper, paperboard, or fiber-reinforced plastics, among others.
Municipal governments and urban centres across Canada are being inundated with datadata that have potential to improve public service. Despite this, local governments do not have enough data expertise to extract insight from these overwhelming datasets. Simultaneously, high-quality personnel (HQP) in the domains of data science and urban analytics lack opportunities to work closely with local government to address this gap.
Rechargeable aqueous zinc ion batteries (RAZBs) have been used extensively because of their safety and low-cost. As an available cathode material for ZIBs, layered vanadium oxide (V2O5) has been considered due to its high specific discharge capacity. Because V2O5 is slightly soluble in water, it is suitable for modifying V2O5 with conductive polymers to stabilize its crystalline structure and decrease the solubility of V2O5 in aqueous electrolyte systems. In-situ polymerization will be used to coat polymers on the V2O5 surface.
In commercial batteries, metal anode-based batteries, mainly using zinc or lithium as the anode, provide higher battery capacity than traditional metal ion batteries. Lithium metal anodes have a theoretical specific capacity 10 times higher than commercial lithium ion batteries with graphite as the anode. Zinc anodes are excellent anodes for use in aqueous batteries, because they offer the highest energy density of all aqueous battery systems and low cost.
In this project, the main objective is developing a peptide-based environment sensitive siRNA delivery system for cancer treatment. If this deliver system can be proved efficient both in vitro and in vivo, it could have potential feasibility to be further characterized and become a pharmaceutical drug eventually.
Bioénergie La Tuque (BELT) is promoting the development of a 200 million liter per year biofuels plant to be built by 2023 in La Tuque. The plant will use residues from forest harvesting as feedstock, which will be a first at that scale for a second-generation biomass biorefinery in Canada. It is critical for a project of that magnitude to achieve success, that risk associated with the biorefinery implementation are thoroughly identified and mitigated. In this project, technology and market risk factors are specifically targeted.
ERCO Worldwide, A division of Superior Plus LP, Saskatoon facility ("ERCO Worldwide-Saskatoon") is a manufacturer of caustic soda, chlorine, hydrochloric acid and sodium chlorate. This facility has four fully developed underground brine wells. The brine solution as produced from the brine wells contains 26% sodium chloride in it. This saturated brine is purified and supplied to the electrolyzer system to produce caustic soda, chlorine, hydrochloric acid, and sodium chlorate.
This research will test the efficacy of sulphate and metals removal from mine-influenced water using passive or semi-passive technologies. Critical to successful application of these technologies is creating conditions that support microorganisms that mediate precipitation of metal sulphide minerals.
The past few decades have witnessed the unprecedented development of aqueous rechargeable batteries and there are many scientific groups focusing their interest on this energy technology research field. Ideal active electrode materials and plain economic considerations are the critical factors in the design of batteries. Among them, Fe//MnO2 aqueous battery is one of the best candidates because of lower cost, high safety and eco-friendliness. In addition, improved conductivity and better cycle performance can be obtained by carbon coating.
Foamy oil behavior is a unique phenomenon associated with cold production of heavy crude oils. It is believed that the foaming mechanism has a significant impact on the abnormally high production rate of viscous crude oils observed in many heavy oil producing reservoirs through solution gas drive.
Due to the non-equilibrium nature of the foamy oil flow, the mathematical modeling of this process involves few challenges. The main non-equilibrium process exist between solution gas and free gas that leads to a significant supersaturation of dissolved gas in the oil phase.