The Braya Renewable Fuels refinery in Come By Chance, Newfoundland and Labrador is a repurposed petroleum refinery that is being converted into a renewable diesel and sustainable aviation fuel production facility. The facility is expected to commence operations in late 2023.
The refinery’s strategic location enables it to source low-carbon intensity feedstocks from anywhere in the world while delivering sustainable fuels to low-carbon markets along both US coasts.
econext is calling for expressions from SMEs with an innovative idea, product, service, or technology that they would like to present to the attendees of econext’s 2023 Conference, to take place on Thursday October 26, 2023 at the Delta Hotel and Conference Centre in St. John’s, NL.
The ‘rapid-fire’ presentations at the conference are intended to be concise and 5 minutes in length. Presentations must demonstrate either
How the innovative idea, product, service or technology can have an impact in areas of clean growth in Newfoundland and Labrador; or
How the idea, product, service or technology relates to any of the 2023 Conference themes which include:
Clean Energy – What’s Next
Leading Green Economy Innovation
Continuing Environment Challenges
Achieving Net-Zero by 2050
INSTRUCTIONS FOR SUBMISSIONS
Please include with your submission:
Title and type of presentation proposed
250-word (approx.) summary of presentation proposed
Presenter’s name, affiliation, and brief biographical statement
Please submit by email to Colin Heffernan, Manager of Industry and Community Engagement with econext, at heffernan@econext.ca.
DEADLINE
The deadline for submitting an expression of interest is Wednesday October 4, 2023 @ 5:00 PM. Submissions will be reviewed on the basis of relevance to the conference themes and the significance of the content to the 2023 Conference audience. Submissions may be considered for presentation at future econext events.
econext may have an opportunity to work with local SMEs to support them in the development of their clean technologies.
Key criteria would include:
The solution must have the potential for new intellectual property to be developed
The solution must have the potential for clear environmental benefits when applied
The business must have raised private equity of at least $100,000 within the last 12 months (e.g., not government funding)
The solution must be innovative
If you feel that your business meets the above criteria, please contact econext‘s Manager of Industry and Community Engagement Colin Heffernan at heffernan@econext.ca.
Are you a job seeker or looking to learn more about careers in ocean clean technology?
Join us at Marine Institute’s The Launch in the Town of Holyrood to learn about companies right here in Newfoundland and Labrador that provide exciting technologies and services related to the ocean and the environment.
Tides of Opportunity allows individuals interested in or curious about oceans careers to navigate their future in the clean ocean industry through real-time demonstrations. Participants will have the opportunity to see world-leading technologies operating up close, learn about the SMEs, their technologies, and the potential career opportunities associated with them, and meet with potential future employers and colleagues.
Demonstrations will be taking place throughout the Fall – so stay tuned to this website for more information. A shuttle bus (leaving from St. John’s) will be provided for those requiring transportation to and from Holyrood. Details will be provided upon registration. Food and refreshments will also be provided, including snacks and a lunch.
Upcoming Demonstration:
September 26 – C-CORE & enaimco
This event will take place 10:00am – 3:45pm. Doors open at The Launch at 9:30am. Light snacks and lunch provided. Shuttle bus (leaving from St. John’s) to and from the event will be available. The bus will be leaving MUN Core Science Facility at 8:30am and stopping at Marine Institute at 8:45am. It will then depart from the Launch in Holyrood at 3:45pm returning to Marine Institute around 4:30pm and MUN at 4:45pm. More information on transportation available upon registration.
Don’t miss out on this incredible event series! Click here to view the entire event schedule. Mark your calendars and come prepared to ride the tides of opportunity. We look forward to welcoming you!
This project has been made possible by funding from the Government of Canada through the Community Workforce Development Program, a partnership between econext and the Marine Institute, The Launch, and the Town of Holyrood. Planning support for the project has been provided by Angler Solutions.
The Qalipu Holdings is the business investment arm of the Qalipu First Nation (QFN). It is an independent, arms-length entity responsible for managing the QFN investment interests, businesses, and properties. The QH is an incorporated company which also oversees several other QFN business operations including Mi’kmaq Commercial Fisheries (MCF). Aside from managing the Band’s existing portfolio of investments, the QH also aggressively pursues new business opportunities in the fisheries, forestry, agricultural and technology sectors. Both the QH and MCF are profitable, self-sustaining companies.
QHLP is actively involved in the renewable sector with several joint venture and business partnerships in place related to wind energy, advanced wind energy training, transportation and logistics.
GRi Simulations Inc. is a Canadian company focused on real-time high-fidelity simulation, modeling and visualization solutions to support increased process efficiency and operational safety in critical marine activities. Such support includes net zero emission approaches to ROV pilot training and ROV /AUV development as well as software to plan and design subsea facilities and digital twin solutions. GRi specializes in providing sophisticated software tools that enable businesses to gain valuable insights, optimize their operations, and make data-driven decisions for long-term success.
Triple Point is developing clean energy storage in salt caverns assets, an essential component to export clean hydrogen. Salt caverns are tried-and-true solutions to handle the on-and-off nature of renewable projects. They play a crucial role in distributing hydrogen to meet the world’s increasing demand.
Triple Point Resources has validated its Newfoundland-based Fischell Dome, confirming it is currently the largest Gulf Coast domal-style salt dome and energy storage solution on North America’s east coast, should capture the attention of Canada’s hydrogen developers and its provincial and national governments. Fischell Dome will be able to store excess renewable energy when energy demand is low and use it to generate energy when demand is high. While the main advantage of a dome is to supply large-scale long-term storage for hydrogen, caverns can also supply energy with compressed air to help address wind or grid irregularities. The ability to supply energy when the wind blows too much, too little or during maintenance of equipment, ensures constant delivery to de-risks off-take agreements.
Fischell’s Dome offers the potential to store more than 35 million cubic meters of hydrogen, or the equivalent of 180,000 tonnes of hydrogen to export more than 1million ton a year of hydrogen. As the largest known dome on the east coast of North America, Fischell Dome can store multiple GWs of potential power. Additionally, as the salt is dissolved to create caverns, a brine will be produced that may allow for the sale of salt by-products into the food, chemical and agricultural markets
This post is part of a series of articles to help create awareness of green economy challenges and opportunities in Newfoundland and Labrador
In late September 2022, residents of Channel-Port aux Basques experienced a storm like no other.
Fiona reached the town located at the extreme southwestern tip of Newfoundland as a post-tropical storm equivalent to a Category 2 Atlantic Hurricane. It lashed out against the coastal town with winds whipped up to 135 kilometers per hour and a storm surge that broke the record for the highest water level ever recorded in the area.
Family homes which had stood for generations were ripped from their foundations. The sheer force of the event left an indelible mark on the landscape and amidst the chaos, a sense of resilience emerged as communities came together to support each other through the turbulent times.
Fiona’s toll included widespread physical destruction to homes and businesses, and a community reeling with unimaginable loss. For those living in so many of the coastal communities in this province, the storm also leaves behind an uncertain future. With the world getting warmer due to climate change, they can likely expect more intense hurricanes to reach their shores. In other words, the storms that do hit are going to hit harder than ever before.
To protect against the impacts of powerful storms – whether through improved forecasting tools, stronger infrastructure, or government policy – coastal communities need to adapt to climate change impacts to safeguard themselves from the increasingly destructive forces of nature.
When it comes to predicting and preparing for hurricanes, understanding their ingredients is key.
Just like a cookie needs the right balance of sugar, flour, and butter to turn out perfectly, a hurricane needs certain conditions to form and strengthen.
First and foremost, warm ocean water is essential, with a surface temperature of at least 26 degrees Celsius required. As the saying goes, “heat rises,” and it’s no different with hurricanes. The warmer the water, the more energy is available to fuel the storm.
Next, there needs to be plenty of moisture in the air. This helps feed the storm and keeps it growing.
Low wind shear is also crucial. This refers to the difference in wind speed and direction at different altitudes. If there is too much wind shear, it can disrupt the storm’s circulation and weaken it.
Finally, there needs to be certain atmospheric conditions or a disturbance in place, such as a thunderstorm, for a hurricane to form. Without this initial spark, the storm won’t have anything to build upon. Imagine blending all these elements together, like the ingredients of a recipe, and what do you get? A hurricane, right? Well, not always. Even when all these factors align perfectly, the magic doesn’t guarantee that a hurricane will emerge every time. It’s like nature’s own unpredictable masterpiece!
Hurricane return periods tell us how often we can expect a hurricane of a certain strength to hit a particular area. For instance, a return period of 20 years for a major hurricane means that, historically, a Category 3 or higher hurricane has made landfall within 50 nautical miles of that location an average of five times in the past 100 years. Therefore, we could anticipate around five more of these severe storms to hit that area over the next century. In our new climate reality, we’re staring down the barrel of a future where these extreme weather events are becoming more frequent (unless we take drastic action to combat climate change) rather than generational events.
Trying to figure out how climate change will affect hurricanes might seem really hard. But with advanced global climate models, a deep understanding of how hurricanes work, and looking at past hurricane patterns, scientists are getting better at predicting these strong storms. Still, it’s important to remember that there’s some uncertainty, even though we’re making progress in how we study them. So, there’s hope, but we’re not completely certain yet.
Did you know:
Hurricane Fiona was the costliest extreme weather event ever recorded in Atlantic Canada, with an estimated $660 million in insured damages. Catastrophe Indices and Quantification Inc. (CatIQ)
It takes a community
The community of Logy Bay-Middle Cove-Outer Cove (LBMCOC) is nestled on the northeastern coast of the Avalon Peninsula. Residents there are all too familiar with the mounting threats posed by a rise in the frequency and severity of fall and winter storms.
With the relative sea level rising on the Avalon peninsula, residents find themselves at the mercy of higher storm surges and increased wave action which cause coastal erosion. Heavier rains bring flooding, landslides, and impacts river water quality, posing a danger to public health.
In 2010, the town participated in the piloting of a climate change vulnerability assessment and adaptation planning workbook. Through a series of community discussions, residents and local leaders identified key climate-related issues affecting the town and mapped out areas that were particularly vulnerable to flooding.
The town council concluded that they needed to be proactive concerning the things they can control within their municipal boundaries by implementing adaptation options to reduce flood risks into the future. These included:
Rezoning vulnerable areas in sensitive areas, like wetlands, and protecting waterways
Lining ditches with rock and material designed to reduce the velocity of water flows
Diverting flows from waterways that are more susceptible to damage from flood events (e.g., damming, storing overflow)
Establishing more routine checks on existing culverts and bridges to keep the areas clear of debris and tree falls
Strategies for communication in the event of a flood
Water Control: How to beat the flooding odds
When it comes to sewer backup and basement flooding due to extreme weather, homes are taking a beating. The good news is that this damage is largely preventable. That’s why local governments and private property owners must act now to turn the tide.
A comprehensive strategy which includes communication, local actions, and incentives for private property owners is key to reducing the risk of damage from sewer backup and basement flooding caused by extreme weather events.
Coastal towns in Newfoundland and Labrador can look to other communities across Canada for inspiration and best practices. Many have taken it upon themselves to solve this problem. They set a great example for the rest by taking important actions that reduce the risk of basement flooding like the installation of backwater valves, sump pumps, storm lateral replacement or lot grading.
Newfoundland’s coastal communities were built to survive. These actions demonstrate the ingenuity and determination of the residents of LBMCOC in the face of a rapidly changing climate. With communities around the world facing similar challenges as sea levels continue to rise and storm events become more intense, it is time for government leaders and policy makers at all levels to take notice and take action. By addressing, and adapting to, the impacts of climate change today, our coastal towns and cities may continue to thrive in the face of adversity.
Acknowledgements and Resources
Written by Dave Lank with contributions from Sepehr Khosravi
Government of Newfoundland and Labrador (2012). Logy Bay – Middle Cove – Outer Cove Case Study. Climate Change Vulnerability Assessment by Policy and Planning Division of Department of Environment and Conservation.