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- 640Oil Sands Research and Information Network (OSRIN)
- 222Oil Sands Research and Information Network (OSRIN)/AOSERP Reports
- 113Oil Sands Research and Information Network (OSRIN)/Government of Alberta Reports
- 100Oil Sands Research and Information Network (OSRIN)/Revegetation Species Profiles
- 73Oil Sands Research and Information Network (OSRIN)/OSRIN Technical Reports
- 61Oil Sands Research and Information Network (OSRIN)/Syncrude Canada Ltd. Reports
- 103Smreciu, A.
- 101Gould, K.
- 101Wood, S.
- 10Oil Sands Research and Information Network
- 10Syncrude Canada Ltd.
Monitoring of environmental conditions in and around oil sands developments has been underway for years. However, recent reviews have indicated the need for a more comprehensive, scientifically-rigourous and transparent monitoring program and have provided recommendations for design and...
Carbon and Nitrogen Mineralization and Microbial Succession in Oil Sands Reclamation Soils Amended with Pyrogenic CarbonDownload
Land reclamation of oil sands disturbed boreal forests in Alberta is a challenging task facing companies with surface mine leases. The government requires reclamation to equivalent land capability, which is a vague statement at best. Agronomic theories and methodologies have been applied in the...
The purpose of this report is to use a design of experiment (DOE) approach to examine the main factors affecting the determination of methylene blue index (MBI) values for oil sands samples. The methylene blue titration of clays has become a principle tool to assess extraction efficiency of oil...
Species profile for Scirpus microcarpus: small-fruited bulrush, panicled bulrush, barber-pole bulrush
Risk and Uncertainty in Oil Sands Upland Reclamation: Best Management Practices within the Context of Climate ChangeDownload
The focus of most climate change impact studies to date is on changes related to mean climate conditions. In terms of climate model output, these changes are more robust than changes in climate variability, the latter of which has considerably greater uncertainty. By concentrating on climate...
Surface mining of Alberta bitumen is probably the biggest mining operation in the world. It has a significant environmental footprint with about 840 km2 total active footprint in 2012 and 895 km2 in 2013 (Fig 1) (AESRD 2014). Of this area, tailings ponds covered 239.3 km2 in 2013...
Monitoring Procedures for Wellsite, In-Situ Oil Sands and Coal Mine Reclamation in Alberta (MOPRA) – December 2014 UpdateDownload
The scope of the Monitoring Procedure for Reclamation in Alberta (MOPRA) project is to develop a geomatics-based monitoring system to support the Government of Alberta’s efforts for monitoring reclamation success. This software will support the decision making process to screen almost all oil...
As one of its last projects, the Oil Sands Research and Information Network (OSRIN) conducted this survey of oil sands environmental management research and information needs. The survey was conducted in October and early November 2014 for OSRIN by the University of Alberta’s Population Research...
The rapid expansion of oil sands activities and massive energy requirements to extract and upgrade the bitumen have led to a need for more comprehensive understanding of their potential environmental impacts, particularly on air quality. There are many oil sands developments and natural sources...
Development of a Novel Engineered Bioprocess for Oil Sands Process-Affected Water and Tailings Fines/Bitumen/Water SeparationDownload
The oil sands bitumen extraction process results in the creation of waste products including oil sands process-affected water (OSPW) and mature fine tailings (MFT). Many technologies are currently under investigation to treat these waste products that are currently contained in vast storage...