Natural and anthropogenic factors affecting the Nechako river watershed

Prince George Pulp and Intercontinental Pulp Company (both part of Canfor) are located in Prince George, the geographic centre of BC. The process of making Kraft pulp requires access to a considerable volume of water, which is why most pulp mills are located close to major rivers. Canfor Pulp clearly recognizes their dependence on the Nechako watershed and the role that Canfor must play in water management and stewardship. In order to manage this water resource effectively, we must understand the ways in which we use water now, as well as what our water needs will be in the future.

Business Case of Industrial Vegetation Management Expansion

Spectrum Resource Group Inc. (Spectrum), looking to diversify from solely Forestry Consulting and Contracting, is striving to horizontally integrate into Industrial Vegetation Management projects. These Industrial Vegetation Projects, in many cases, are very similar to Forestry projects, but access into these markets remains difficult.

Biocarbon gasification for fuel cell applications

The goal of this research project is to develop a gasifier to provide a gcleanh (e.g. low in tars) syngas for solid oxide fuel cell (SOFC) applications. The intern will be involved in designing and building the prototype gasifier, and in designing experiments to determine the relationship between operating conditions and syngas quality. SOFCs have high electricity conversion efficiencies and can be used for small]scale community combined heat and power applications.

Population Estimation of the Western Conifer Seed Bug by Mark Release Recapture, and Calibration of a Visual Monitoring Technique

The western conifer seed bug is an important seed orchard pest in southern interior British Columbia, where it is responsible for significant seed loss, particularly in lodge pole pine and Douglas‐fir. In order to develop an economic damage threshold, i.e., when it would be economically justifiable to apply a pesticide treatment to protect the seed crop, it is critical that a monitoring technique is developed that will allow an accurate assessment of the numbers of seed bugs present, and hence an estimate of the damage this population can inflict.

Developing a Carbon Strategy for Publicly Held Canadian Forest Products Company

The objectives are to determine to what extent a carbon strategy can add to the value of a publicly held Canadian forest products firm, what form that would take, and what conditions would be required to implement. The project will begin with an environmental scan of economic, technological, political]legal, and societal trends that are occurring in the broader context. The focus will then be turned to identify the opportunities available and the company's core competencies (strengths) to take advantage of these opportunities.

Effectiveness monitoring of native vegetation trials in mine soils and analysis of soil stockpiles at Huckleberry Mines, Houston, B.C

Upon request by Huckleberry Mines Ltd. for further on‐site reclamation research towards preparation for the anticipated mine closure in 2010, a vegetation and soil effectiveness monitoring project was initiated in the summer of 2008. The objective of this project is to evaluate the performance of native vegetation within soil stockpile originated substrates and describe the biogeochemistry of soil stockpiles at the minesite.

Modeling the Scattering of THz radiation off of Wood

The intern will be doing research in the field of terahertz radiation, specifically, the potential applications it has as a commercially viable tool in the wood products industry. Jonathan will be focusing on the potential of THz radiation in the Oriented Strand Board (OSB) production process. The OSB process is currently in need of a technology system capable of determining the critical parameters (moisture content, density and fibre orientation) of OSB in order to improve their efficiency. Current X-Ray technology is expensive, hazardous and comparatively slow speeds.

Optimal Landfarming Strategy for Treating Oil Refinery Sludge

In this project, a comprehensive review of relevant literature and case studies regarding landfarming of oily sludge will be conducted, and the optimal landfarming operation strategies will be proposed. A number of field experiments will be implemented to examine the impacts of different environmental factors on microbial activity. Specifically, the impacts of bulking agents and nutrients on bioremediation efficiency will be investigated through sludge landfarming at various experimental plots, while the method of factorial design will be used to design such experiments.