University:
Dalhousie University
Country:
Canada
Deadline:
Not specified
Fields:
Fluid Mechanics, Climate Engineering, Environmental Science, Chemical Engineering, OceanographyAre you passionate about harnessing advanced fluid mechanics to combat climate change and accelerate real-world impact in marine carbon dioxide removal? If you seek a research career that bridges academia and industry while addressing one of the planet’s most urgent environmental challenges, this postdoctoral fellowship at Dalhousie University may be your ideal next step.Dalhousie University, located in the vibrant coastal city of Halifax, Nova Scotia, is one of Canada’s leading research-intensive universities with a longstanding reputation for excellence in science, engineering, and sustainability studies. As a member of the U15 Group of Canadian Research Universities, Dalhousie offers a dynamic academic environment, world-class facilities, and a collaborative culture that fosters interdisciplinary innovation. Halifax itself is known for its welcoming atmosphere, scenic maritime landscapes, and thriving research and technology sectors—making it a prime location for both professional and personal growth.This postdoctoral opportunity is anchored in the Department of Civil and Resource Engineering at Dalhousie University and is co-supervised by Professor Adam Jiankang Yang and industry partner pHathom Technologies. The research focuses on Marine Carbon Dioxide Removal (mCDR), specifically through the study of turbulent jets and plumes to optimize the oceanic discharge of bicarbonate. This project is at the forefront of climate engineering, aiming to develop scalable, sustainable solutions for long-term carbon sequestration in the ocean.Marine Carbon Dioxide Removal is a rapidly advancing field with significant implications for climate mitigation and ocean health. The central research objective is to quantify how discharged bicarbonate dilutes and stabilizes in the ocean, ensuring it does not precipitate and remains available for long-term carbon storage. This work not only supports global efforts to reduce atmospheric CO₂ but also helps alleviate ocean acidification, thereby benefiting marine ecosystems.The project leverages the innovative technology developed by pHathom Technologies, which captures CO₂ from biomass power plants and converts it into stable bicarbonate using a low-energy, water-based process. Unlike traditional carbon capture and storage approaches, this method eliminates the need for CO₂ separation, compression, pipelines, and deep-well injection. It is designed for seamless integration with existing coastal biomass infrastructure, making it a practical and scalable solution for carbon management.As a postdoctoral fellow, you will benefit from a collaborative academic and industry environment, with field operations based in Cape Breton and hands-on involvement with pHathom Technologies. The fellowship provides a competitive salary of at least 70,000 CAD per year for up to two years, along with research and professional development funding. This unique setting offers the opportunity to contribute to cutting-edge research, gain industry experience, and expand your professional network in both academia and the private sector.
Also See
- Fully Funded PhD in Coastal Engineering & Infrastructure Resilience
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- Postdoctoral Opportunity in Climate and Science Communication Research
- Graduate Student Position in Marine Microbial Ecology at NIU
- Fully Funded MSc by Research at Cranfield: Tackling PFAS in Water
Dalhousie University’s Department of Civil and Resource Engineering is renowned for its interdisciplinary research in environmental engineering, coastal processes, and resource management. The university’s strong links with industry and government agencies provide fellows with valuable opportunities for knowledge translation and career advancement. Living and working in Canada, and particularly in Halifax, offers additional benefits such as a high quality of life, access to natural beauty, and a supportive multicultural community.The ideal candidate for this fellowship will have a strong background in fluid mechanics, climate engineering, or a closely related field such as chemical engineering, oceanography, or environmental science. Applicants should demonstrate a keen interest in applied research for climate solutions, possess excellent analytical and problem-solving skills, and be comfortable working in interdisciplinary teams that span both academic and industrial settings. A proactive, innovative mindset and the ability to conduct independent research are essential for success in this role.
To Apply, Candidates Must Prepare The Following Materials
– A current CV– Contact details for two referees– A brief statement of research interestsPlease refer to the official advertisement for application details.This prestigious postdoctoral fellowship represents a rare opportunity to make a tangible impact in the fight against climate change while advancing your academic and professional career. If you are driven by scientific curiosity and a desire to contribute to global sustainability, you are strongly encouraged to apply and to explore similar opportunities in this rapidly evolving field.For more information and to view the original announcement, visit:https://www.linkedin.com/posts/adam-jiankang-yang-361206134_dalhousie-mcdr-postdoc-activity-7358814450616868864-c_1nWant to calculate your PhD admission chances? Try it here:https://phdfinder.com/phd_admission_chance_calculator/
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