econext is looking for businesses and organizations to host clean energy work terms students during the Fall 2023 semester.
“We have identified a series of challenges and opportunities for students to work on that we believe are important for Newfoundland and Labrador’s clean energy future,” said Kieran Hanley, econext‘s CEO. “By hosting a student who works in one of these areas, you will be helping to contribute to our province’s collective understanding of its emerging clean energy industry.”
Click to See Challenges/Opportunities
Hanley said that students will be encouraged to view challenges and opportunities through an entrepreneurial lens. “We know these things are technically feasible – what we want to better understand is if there are reasonable business cases to be made for them, and the work term students will be armed with supplemental training to allow them to start that assessment.” During their work term students will benefit from training delivered by the Memorial Centre for Entrepreneurship (MCE).
Projects can focus on the technical or economic/business aspects of clean energy opportunities (not necessarily one of those listed), and thus work term students can come from engineering, business, and other faculties. “Our objective with this initiative is to get both the workforce and companies thinking about clean energy in Newfoundland and Labrador in an innovative way.”
Hanley said that there are various programs currently available which can help subsidize the cost of hiring a work term student. “Reach out to us and we can let you know which programs you are eligible for.”
If your business is interested in hosting a clean energy-focused work term in Fall 2023, contact Alex Rumbolt – econext’s Special Projects Coordinator, Marketing and Green Jobs – at alex@econext.ca.
econext is an association of businesses that accelerates clean growth in Newfoundland and Labrador and works on behalf of over 200 members to foster environmentally sustainable economic development. More information can be found at https://econext.ca.
Transportation accounts for approximately 34% of Newfoundland and Labrador’s GHGs. The transport of goods, services, and people via cars, busses, transport trucks, ferries, aviation, etc. has a significant environmental impact. A technical, environmental, and economic analysis could be undertaken to explore GHG reduction opportunities for NL through the adoption of zero emissions technologies for its heavy transport, bussing, and/or marine sectors. A plan for adoption that aligns with NL’s net zero by 2050 commitments could be developed.
Large quantities of hydrogen can be stored in caverns for many years. The storage of large quantities of hydrogen underground in solution-mined caverns within salt domes, aquifers, excavated rock caverns, or mines can function as energy storage. When surplus electricity is available (from the grid or from hydrogen production operations) hydrogen can be produced and stored. This provides reserve product that can be utilized when intermittent electricity access reduces production at other times. It also provides access to energy that can be utilized to meet electricity needs during times when demand may exceed supply. Conduct a technical, environmental, and economic analysis to better understand potential role of underground storage opportunities for NL.
Large quantities of compressed gas can be stored in caverns for many years. Compressed air storage can function as energy storage – and a method by which the supply and demand of energy can be balanced in a number of important ways. When surplus electricity is available (from the grid or from clean fuels production operations) air can be compressed and stored. When electricity is required, the compressed air can be released through turbine generators to create energy. Underground compressed air storage can help balance the supply and demand of electricity. Conduct a technical, environmental, and economic analysis to better understand potential role of underground storage opportunities for NL. Conduct a technical and economic analysis to better understand potential role of pumped storage opportunities for NL.
Clean fuels are playing an important role in decarbonization internationally. With domestic production of clean fuels within the province it is logical to explore how they can contribute to the decarbonization of the NL economy. The use of locally produced clean fuels can help contribute to the long-term resilience and success of the industry and present R&D opportunities. A plan for decarbonization via clean fuels (e.g., hydrogen, clean diesel, SAF, etc) for NL could be developed.
Hydrogen production processes require access to renewable energy sources. While NL’s electricity grid is predominantly ‘clean’, there is limited capacity available to supply industrial projects. Yet there are abundant renewable energy resources that can be developed or optimized to increase the grid’s capability to support clean fuels projects. Moreover, there are a number of energy storage and energy efficiency options that exist which can accomplish the same. Not all options would be implemented simultaneously, but a combination of some of them could help balance supply and demand for electricity in NL and maximize its clean energy output. Modeling is required to understand what the best combination of activities would be to most efficiently maximize growth opportunities.
Direct air capture (DAC) technologies extract CO2 directly from the atmosphere (i.e. large turbines). The CO2 can be permanently stored in deep geological formations in saline aquifers or can be utilized in processes such as food processing or synthetic fuel generation. The prospect of new wind energy developments in NL may present interesting DAC opportunities. When winds are high and electricity is in low demand, DAC systems could be powered by this excess clean electricity. DAC is most effectively used in areas that are windy (increasing the natural airflow through the fans), which makes their use in NL attractive. Such a process could create much-needed carbon offset opportunities for NL and its industries. Conduct a technical, environmental, and economic analysis to better understand potential role DAC opportunities for NL.
To achieve net zero, NL will require negative GHG emissions activities to balance GHGs which are unfeasible to eliminate completely. Work is required to identify which carbon offset opportunities are best for the province (e.g., have the greatest GHG reduction potential at the lowest cost). The following are some options:
Forest Management
Forests sequester carbon in biomass through photosynthesis and are a natural carbon sink. Proactive steps can be taken that maintain or increase the effectiveness with which forests capture carbon. With a significant amount of forested lands, NL may present significant opportunities for such activity. Conduct a technical, environmental, and economic analysis to better understand potential role forest management opportunities for NL.
Peatland Restoration
Peatlands are terrestrial wetland ecosystems in which waterlogged conditions prevent plant material from fully decomposing. Restoring peatlands can increase carbon storage. The number of harvested peatlands in the province that can be restored is currently unknown. Conduct a technical, environmental, and economic analysis to better understand potential role peatland restoration may have for NL.
Seaweed
Seaweed sucks in carbon from the air as it grows. With its vast array of coastlines, NL may present significant opportunities for such activity. Moreover, there may be a number of potential uses for the biomass produced. Conduct a technical, environmental, and economic analysis to better understand potential role seaweed farming may have for NL.
Eeelgrass
One opportunity to achieve this is through the restoration or growth of eelgrass. Eelgrass sucks in carbon from the air as it grows. With its vast array of coastlines, NL may present significant opportunities for such activity. Moreover, there may be a number of potential uses for the biomass produced. Conduct a technical, environmental, and economic analysis to better understand potential role eelgrass may have for NL.
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