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Research profile
Nicole Stevens is a Doctoral Candidate at the Power and Flow group in the Mechanical Engineering Department of Eindhoven University of Technology (TU/e) under supervision of full professor Niels Deen and assistant professor Giulia Finotello. She researches the reduction of iron oxide as part of the metal fuel cycle and the potential of the whole cycle as renewable energy source.
Nowadays more and more alternative energy sources bevome feasible with less or even no output of greenhouse emissions. One of these alternatives is the metal fuel iron. Iron powder is a good energy carrier which can be stored and transported in large amounts. Energy is released by burning the iron powder, this results in a product of iron oxides. These iron oxides can be recycled using green hydrogen, this is called reduction. The combination of these two steps, combustion and reduction, creates a carbon free cycle.
Despite the fact that metal fuels seems to be a very promosing alternative, it still has a lot of challenges. To solve these challenges more research is required on the combustion as well as the reduction part, and the cycle as a whole. In Stevens' research the reduction part is further investigated using numerical simulations and lab-scale experiments. The results of these experiments will be used to investigate the efficiency and potential of the metal fuel cycle.
Expertise related to UN Sustainable Development Goals
In 2015, UN member states agreed to 17 global Sustainable Development Goals (SDGs) to end poverty, protect the planet and ensure prosperity for all. This person’s work contributes towards the following SDG(s):
Education/Academic qualification
Mechanical engineering, Master
2019 → 2021
Award Date: 1 Jun 2021
Educational Sciences, A-level, RQF level 3,
2017 → 2019
Award Date: 26 Aug 2019
Mechanical engineering, Bachelor
2014 → 2019
Award Date: 31 Jan 2019
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Projects
- 1 Active
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REGENERATION OF METAL POWDER: closing the metal fuel cycle
Finotello, G. (Project Manager), Stevens, N. C. (Project member) & Deen, N. G. (Project member)
28/06/21 → 27/06/25
Project: First tier
Research output
- 3 Article
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Cyclic reduction of combusted iron powder: A study on the material properties and conversion reaction in the iron fuel cycle
Stevens, N. C. (Corresponding author), Prasidha, W., Deen, N. G., Meeuwsen, L., Baigmohammadi, M., Shoshyn, Y. L., de Goey, P. & Finotello, G., 15 May 2024, In: Powder Technology. 441, 15 p., 119786.Research output: Contribution to journal › Article › Academic › peer-review
Open AccessFile4 Citations (Scopus)49 Downloads (Pure) -
Minimum fluidization velocity and reduction behavior of combusted iron powder in a fluidized bed
Hessels, C. (Corresponding author), Lelivelt, D. W. J., Stevens, N. C., Tang, Y., Deen, N. G. & Finotello, G. (Corresponding author), 15 Jun 2023, In: Fuel. 342, 9 p., 127710.Research output: Contribution to journal › Article › Academic › peer-review
Open AccessFile8 Citations (Scopus)258 Downloads (Pure) -
Towards utilization of iron powders for heating and power
Baigmohammadi, M. (Corresponding author), Prasidha, W., Stevens, N. C., Shoshyn, Y. L., Spee, T. & de Goey, P., Mar 2023, In: Applications in Energy and Combustion Science. 13, 19 p., 100116.Research output: Contribution to journal › Article › Academic › peer-review
Open AccessFile26 Citations (Scopus)19 Downloads (Pure)
Thesis
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Design of a high temperature lab-scale fluidized bed
Stevens, N. C. (Author), Deen, N. G. (Supervisor 1), Finotello, G. (Supervisor 2) & Hessels, C. (Supervisor 2), 1 Jun 2021Student thesis: Master
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