Innovation, Business and Rural Development
July 8, 2014

Strengthening the Economy Through Investments in Research and Development

RDC Investment Supports Research Focused on the Oil and Gas Sector

The Research & Development Corporation (RDC) is investing $2.3 million in academic-led R&D projects to help overcome technical challenges in the oil and gas sector, particularly in harsh offshore environments. These Memorial University projects aim to improve safety, environmental protection, and efficiency associated with challenging oil and gas projects, both in Newfoundland and Labrador, and around the world. RDC’s investment in 17 projects will leverage an additional $4.4 million from other funding sources.

“Newfoundland and Labrador is well suited to be the hub for research into harsh environments. By investing $2.3 million through RDC we are helping to solve pressing technical challenges and strengthening partnerships between academia and the province’s oil and gas sector. The research we are funding through these projects will also position our province, and Memorial University, as a global centre for innovation and creative problem-solving in the oil and gas industry, particularly in harsh environments.”
- The Honourable Susan Sullivan, Minister Responsible for the Research & Development Corporation

Twelve of the R&D projects are being carried out in collaboration with industry partners or other researchers. Five projects are aimed at attracting highly-qualified researchers and building new R&D capacity in areas relevant to the Newfoundland and Labrador economy. For a full list of projects and project descriptions, please see the backgrounder below.

“Collaboration between the province’s academic researchers and industry is a key ingredient for competitive product development. These relationships ensure that the energy sector has access to relevant, high-quality R&D resources. The technologies emerging from these projects will help build a knowledge-based economy that will strengthen our existing resources.”
- Glenn Janes, Chief Executive Officer, Research & Development Corporation

This investment also builds capacity at Memorial University through the purchase of specialized equipment, the training of students and attraction and retention of highly qualified researchers.

“By virtue of our location and our exceptional faculty and students, Memorial University has built world-renowned expertise in many of the areas vital to oil and gas development, particularly in Arctic and harsh environments. With the support provided by RDC, our researchers are even better equipped to respond to the needs and opportunities of this sector while training the next generation of highly qualified professionals.”
- Dr. Gary Kachanoski, President and Vice-Chancellor, Memorial University of Newfoundland

One of the projects supported through this investment is Dr. Christina Bottaro’s sensor technology design for rapid detection of contaminants in remote and harsh environments.

“The financial support from RDC has been vital in intensifying our research toward a commercially-viable device. It is an exciting time for the province and we are very fortunate to be in the position to mentor the next generation of scientists and entrepreneurs who will lead the province in the growth of a new technology sector in Newfoundland and Labrador.”
- Dr. Christina Bottaro, Department of Chemistry, Memorial University

The Research & Development Corporation is a provincial Crown corporation responsible for improving Newfoundland and Labrador’s research and development performance. RDC works with research and development stakeholders including business, academia and government agencies and departments to make strategic investments in highly qualified people, innovative R&D infrastructure and research.

QUICK FACTS

• RDC is investing $2.3 million in academic-led R&D projects that will seek to overcome technical challenges in the oil and gas sector.
• The projects, conducted at Memorial University, aim to improve safety, environmental protection, efficiency and asset integrity associated with oil and gas projects.
• RDC’s investment in 17 projects will leverage an additional $4.4 million from other funding sources.
• Additional information on RDC’s research and development investment programs can be found at www.rdc.org

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Media contacts:

Jennifer Tulk Director of Communications Department of Innovation, Business and Rural Development 709-729-4570, 728-4104 jennifertulk@gov.nl.ca

Chris Flanagan Director of Marketing and Communications Research & Development Corporation 709-758-1021, 709-691-1009 chrisflanagan@rdc.org

BACKGROUNDER
Projects Supported by RDC

Projects are funded under RDC’s Leverage R&D, ArcticTECH, Collaborative R&D, and Ignite R&D programs.

Sensing system for detection and tracking of oil in marine waters in harsh climates - Dr. Christina Bottaro and Dr. Erika Merschrod, Department of Chemistry, Faculty of Science, and Dr. Kelly Hawboldt, Faculty of Engineering and Applied Science
As Newfoundland and Labrador's offshore oil and gas industry continues to thrive, there is a growing need for improvements to oil spill detection technology. Dr. Christina Bottaro, Dr. Kelly Hawboldt, and Dr. Erika Merschrod are developing a sensing device that can collect and analyze data in remote locations to determine whether water is contaminated. This technology is suitable for data collection in marine waters including in harsh, Arctic environments. The sensor may be deployed in the vicinity of an oil platform, on production vessels, supply vessels, Autonomous Underwater Vehicles and/or Remotely Operated Vehicles to provide spill detection coverage. If this project is successful, this device will enable companies to detect oil spills in near real-time. RDC's investment is $300,000 with total project costs of $3,056,792.

High speed thermal imaging system - Dr. Yuri Muzychka, Dr. Lesley James, Faculty of Engineering and Applied Science
This project builds capacity at Memorial University through the purchase of new research tools to be made available to numerous departments at Memorial including the Chemistry Department, Computer Science Department and the Faculty of Engineering and Applied Science. This purchase is for a high frame rate infrared camera that will be used to collect thermal images of many engineering systems and processes including: microelectronics systems cooling, winterization of marine systems, thermal energy systems, integrity/quality of pipeline welds, and oil and gas processing systems. This camera will directly support the research of Drs. Yuri Muzychka and Lesley James in the modelling of thermal transport processes, improving pipeline integrity, and developing enhanced oil recovery processes. RDC’s investment is $96,416 with total project costs of $192,847.

Infrastructure for the characterization of particulate matter and dissolved chemical species in water, soil and groundwater environments - Dr. Tao Cheng, Department of Earth Science, Faculty of Science, and Dr. Bing Chen and Dr. Baiyu (Helen) Zhang, Faculty of Engineering and Applied Science
This project will continue to improve R&D capacity in the mining and energy industries through the purchase of a NanoSight Nanoparticle Characterization System and a Dionex Ion Chromatography System which will be housed in the Earth Resources Research and Analysis facility. This specialized equipment has the capability to help study nanoparticle measurements, dissolved inorganic ions and organic species in water samples. This equipment will directly benefit the research of Drs. Tao Cheng, Baiyu Zhang and Bing Chen in the areas of nanoparticle mobilization, offshore oil spill control and oil spill and offshore produced water treatment respectively. As well, this infrastructure will benefit other Memorial researchers indirectly, as well as over 50 students who will be trained by the researchers. RDC’s investment is $61,777 with total project costs of $148,583.

Compositional and isotopic characterization of complex organic samples for the study of origin and preservation of hydrocarbons and biological tissues - Drs. Penny Morrill, Vaughan Grimes and James MacQuaker Department of Earth Science, Department of Archaeology
This project supports the purchase of new instrumentation to characterize biological material, organic compounds, and mineral/ore-forming fluids. The equipment will be housed in the Earth Resources Research and Analysis (TERRA) facility in the Department of Earth Sciences, and is the only equipment of this calibre in Atlantic Canada. This new infrastructure builds capacity at Memorial that is relevant to the Province’s energy sector, specifically the oil and gas industry, and will directly benefit the research of Drs. Penny Morrill, Vaughan Grimes and James MacQuaker. In addition, these researchers have identified that a total of 56 highly qualified personnel will be trained on the new infrastructure in the TERRA facility in the next five years. RDC’s investment is $110,212 with total project costs of $277,230.

ArcticTECH
ArcticTECH is a three-year directed research program intended to enhance research and development capacity, collaboration and industry innovation in support of Arctic technology development.

Permafrost and frost heave effects on Arctic pipelines - Dr. Bipul Hawlader, Faculty of Engineering and Applied Science
Pipelines in Arctic and northern regions are often buried and pass through long distances of varied soil types in terms of frost susceptibility. A reliable method that predicts frost heave and thaw settlement of permafrost and their effects on pipelines is required for Arctic pipeline design. Dr. Bipul Hawlader is developing a numerical tool for modelling frost heave and thaw settlement. If this project is successful, Dr. Hawlader’s work will support Arctic pipeline designers. RDC’s investment is $121,600 with total project costs of $189,000.

Weatherproof satellite data communication devices and application - Dr. Lihong Zhang, Faculty of Engineering and Applied Science
This project will research weatherproof anti-interference satellite data communication techniques that will be investigated from both hardware and software perspectives. Most commercially available satellite modems can only operate in weather above 0° Celsius, with the exception of a few capable of operating in temperatures around -40° Celsius. Reliable communications and data collection are of high importance due to limited infrastructure in the Arctic. Dr. Lihong Zhang is developing cold-compliant satellite data communication devices that will work in super harsh environments with the ability of tolerating Arctic electromagnetic interference. If successful, this project will result in a weatherproof satellite modem prototype with an application in environmental monitoring for Arctic oil and gas exploration. RDC’s investment is $246,000 with total project costs of $301,600.

Arctic Sparrow - Dr. Siu O’Young, Dr. Luc Rolland and Dr. Weimin Huang, Faculty of Engineering and Applied Science
Building on the developments of the RAVEN II (Remote Aerial Vehicle for Environment-monitoring) project, Dr. Siu O’Young is developing an autonomous navigation system for small unmanned aircraft that will be able to perform special operations in maritime surveillance. If this project is successful, it will contribute to Arctic energy exploration through its abilities to detect ice movement, oil spills and mammalian movement. RDC’s investment is $245,000 with total project costs of $445,000.

Modelling of Corrosion Under Insulation (CUI) in Offshore Petroleum Applications in Harsh Arctic Environments to Develop Risk-based Life Assessment for Asset Under CUI Attack - Dr. Faisal Khan, Faculty of Engineering and Applied Science
Corrosion Under Insulation (CUI) is a serious issue for offshore oil and gas production and transportation facilities in harsh marine environments. Corrosion damage can have catastrophic effects on health and safety, the environment, and productivity if it is not discovered before infrastructure degrades to a level that threatens containment. In collaboration with Husky Energy, Dr. Faisal Khan’s project will increase knowledge in the prediction of CUI behavior to better anticipate the need to perform early and effective maintenance on the facility. Successful completion of this project will result in an online electrochemical corrosion measuring system that could be used as an evaluation and monitoring mechanism for the offshore industry and also model for maintenance management for CUI related threat. The field work will be located at RDC’s coastal exposure test site in Argentia. RDC’s investment is $247,600 with total project costs of $373,600.

Collaborative R&D
Collaborative R&D increases research and development partnerships and collaboration between academia and industry in areas relevant to the Newfoundland and Labrador economy.

Enhanced ozonation treatment for offshore produced water effluents - Dr. Bing Chen, Dr. Tahir Husain and Dr. Baiyu (Helen) Zhang, Faculty of Engineering and Applied Science
Preserving and protecting the natural environment is a high priority in the Newfoundland and Labrador petroleum industry. This project aims to solve the issue of produced water, which is water extracted from a subsea oil and gas reservoir during production that can contain oil and toxic compounds and can present an environmental risk. With increasingly stringent guidelines for offshore wastewater disposal, Dr. Bing Chen is developing a cost-effective and environmentally friendly method for treating the toxic contents of produced water to ensure that it is treated and disposed of in a manner that ensures the protection of the marine environment. RDC’s investment is $57,694 with total project costs of S115,388.

Extending functionality of evacuation systems in ice - Dr. Brian Veitch, Husky Energy Chair in Oil and Gas, Faculty of Engineering and Applied Science
The aim of this project is to extend the functionality of existing marine evacuation systems to work in ice conditions that are currently deemed to be beyond operability limits. In such conditions, the emergency response plan may call for precautionary measures to be taken such as halting production until ice conditions subside, and precautionary down-manning, which may be costly and involve risks to personnel. This project will use a simulation environment to demonstrate the level at which current evacuation systems are functional, incorporating standby vessels to clear pack ice and break navigable channels in intact ice sheets. If this project is successful, it may decrease the costs associated with evacuation and could potentially extend drilling or production activities in ice conditions. RDC’s investment is $95,051 with total project costs of $420,664.

Development of biosurfactant-based dispersants and associated technologies for offshore oil spill control in harsh environments - Dr. Baiyu (Helen) Zhang, Faculty of Engineering and Applied Science
In the event of an oil spill, dispersants are often used to break up the oil into small droplets which can then be naturally dissolved and degraded. Oil spill response using dispersants has been proven effective, but is currently known to cause a degree of environmental harm. For this project, Dr. Baiyu Zhang is developing environmentally friendly dispersants which will be specifically designed for harsh environments. If successful, it could provide industry with cost-effective and environmentally friendly products and associated application technologies for oil spill response. RDC’s investment is $190,281 with total project costs of $381,281.

Validation of ship design practices including pressure-area scale effect and extreme design forces using full scale measured ship ram data - Freeman Ralph (PhD Candidate, M. Eng. P. Eng), C-CORE
Evidence suggests that current shipbuilding practices and regulations for the design of the highest Arctic class vessels are highly conservative. This affects the economic viability of transportation through Arctic waters. With the growth in Arctic shipping expected to increase in the coming years, industry needs to be able to meet this growth without compromising safety of life at sea or the sustainability of the Arctic environment. Freeman Ralph and Dr. Ian Jordaan with a team of ice experts at C-CORE will conduct a comprehensive validation study using available full scale measured ship ram data. The aim is first to ensure safety of arctic shipping and marine operations and then to determine if the current practices and policies are too conservative. If successful the project may lead to improved ship design requirements for Arctic vessels and be a major influence on the development of an international ship design code that balances both safety and economy. Beneficiaries of this work include arctic shipping industry stakeholders, including oil & gas and mining companies. RDC’s investment is $125,700 with total project costs of $387,020.

Ignite R&D
IgniteR&D attracts highly-qualified academic researchers and builds new research and development capacity in areas relevant to both industry and the Newfoundland and Labrador economy.

Health and fitness demographics of workers in the Newfoundland and Labrador offshore oil and gas industry - Dr. Kevin Power, School of Human Kinetics and Recreation
As stated in a 2012 report by Statistics Canada, Newfoundlanders and Labradorians have the highest rate of obesity in Canada. At this time, it is unclear what the obesity rates are of workers within the offshore oil and gas industry specifically, and what the implications are for their at-work safety. Dr. Kevin Power is addressing these concerns in collaboration with Definitions, a local health and wellness provider for Newfoundland and Labrador offshore oil and gas companies. Anticipated long-term outcomes include: reduction of injury rates and loss of offshore job production through enhancing health and wellness; development of fitness standards specific to offshore industry jobs; and development of a behaviour change program to encourage and promote physical activity and healthy lifestyle behaviours for current and future employees. RDC’s investment is $100,000.

Towards cleaner energy and environment: The case of metal-organic network solids - Dr. Chen Liu, Division of Science (Environmental Science), Grenfell Campus
Metal-organic network solids are a class of molecule-based materials that are being studied for their properties in gas adsorption, magnetism, catalysis, and separation. These properties may find applications in a variety of issues in environmental and energy sectors, such as sequestration of carbon dioxide, cleaner alternatives to fossil fuels, isolation of oil in water, and novel magnetic materials. This project is aimed at preparing metal-organic network solids in a more rational and controlled fashion and exploring the relationship between their structures and properties. RDC’s investment is $30,119.

Seasonal break-up and drift of the outer coastal ice along the southern Labrador ports - Dr. Ian Turnbull, Centre for Arctic Resource Development, C-CORE
Shipping routes along the coast of southern Labrador are becoming increasingly important for nickel shipments and possibly future oil and gas shipments. Coastal ice break-up often blocks vessel transit coming from the Labrador Sea to harbours within this region. At this time, the seasonal timing and drift patterns of ice break-up are not well understood making it difficult to determine when to start and stop shipping, while maximizing safety. This project will monitor ice drift and break-up, and analyze satellite imagery to capture timing and spatial patterns of ice drift. Successful outcomes of this project will benefit the shipping industry through predictive models that will help maximize the operational shipping window while ensuring the highest level of safety. RDC’s contribution is $100,000.

Experimental and Numerical Investigation of Multiphase Pipeline Flow Scaling - Mohammed Rahman, Faculty of Engineering and Applied Science
Development and transportation of oil and gas production is challenging in offshore NL due to the harsh environment. In this environment, there is significant heat loss from multiphase flow pipelines, leading to a temperature drop in the pipeline fluid. The drop in temperature can lead to pipeline blockages due to the formation of gas hydrates, wax deposits or scales. While the formation of hydrates is an issue, there is also the issue of pressure loss and the spatial distribution of the pipeline flow components (flow regime). This research will address these issues through developing computational fluid dynamics models and performing laboratory experimental analysis of multiphase flow. The outcomes of this research will provide the oil and gas industry with recommendations on offshore pipeline and wellbore designs. RDC's investment is $99,600.

Design optimization and manufacturing of cost-effective ship superstructure for harsh environment - Samer Nakhla, Faculty of Engineering and Applied Science
This project will assess and select composite materials suitable for harsh environments and determine manufacturing techniques that will reduce the cost of developing these composite structures. This research can lead to improvements in the areas of shipbuilding, wind turbines and aerospace, and will develop highly qualified personnel for employment in local industry. RDC's investment is $95,000.

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