Dr. Azadeh Maroufmashat

Image Azadeh Maroufmashat
Chercheus scientifique / ancien boursier de la politique scientifique canadienne

Hydrogen économie / système énergétique / net zéro 2050

Recherche et / ou projets en cours

Mon travail est axé sur la promotion de l'économie de l'hydrogène et de l'électrification dans le transport pour les camions lourds et les flottes d'autobus et dans les secteurs industriels en utilisant diverses techniques de modélisation, d'optimisation et d'apprentissage automatique à l'aide de GAMS, Python, Excel.

Prix et études

Chercheus associé, Groupe d'études et de recherche en analyse des décisions, HEC Montréal
Stagiaire postdoctoral, Université de Waterloo.
Doctorat en génie énergétique, Université de technologie Sharif.
Chercheur invité, Département de génie chimique, Université de Waterloo.
M.Sc. en génie énergétique, Université de technologie Sharif.
B.Sc. en génie mécanique, Université de technologie Sharif.

 

Récompenses sélectionnées :
• Bourse de voyage German-Canadian Young Atlantis Program, Berlin, Allemagne, 2022
• Bourse de recherche en politiques scientifiques canadiennes, MITACs, Canada, 2021
• Mitacs Accélération, Science Concepts International, 2020
• Mitacs Accélération, Toyota Canada, 2018
• Prix de la deuxième place, U.S. Hydrogen Student Design Contest, 2018
• Prix du grand prix, Concours de conception d'étudiants en hydrogène aux États-Unis, 2016

    Expérience et / ou de travail international

    I acted as a scientific and technical delegate on the Canadian team for the Intergovernmental Panel on Climate Change (IPCC) Working Group III report- summary for policy makers.

    Principales publications

     

    La liste des publications peut être trouvée sur  google scholar

    J23. Wang, W., Ma, Y., Maroufmashat, A., Zhang, N., Li, J., & Xiao, X. (2022). Optimal design of large-scale solar-aided hydrogen production process via machine learning based optimisation framework. Applied Energy, 305, 117751.

    J22. Preston, N., Maroufmashat, A., Riaz, H., Barbouti, S., Mukherjee, U., Tang, P., ... & Fowler, M. (2021). An Economic, Environmental and Safety Analysis of Using Hydrogen Enriched Natural Gas (HENG) in Industrial Facilities. Energies, 14(9), 2445.

    J21. Shamsi, H., Tran, M. K., Akbarpour, S., Maroufmashat, A., & Fowler, M. (2020). Macro-Level Optimization of Hydrogen Infrastructure and Supply Chain for Zero-emission Vehicles on a Canadian Corridor. Journal of Cleaner Production, 125163.

    J20. Preston, N., Maroufmashat, A., Riaz, H., Barbouti, S., Mukherjee, U., Tang, P., ... & Fowler, M. (2020). How can the integration of renewable energy and power-to-gas benefit industrial facilities? From techno-economic, policy, and environmental assessment. International Journal of Hydrogen Energy

    J19. Walker, S., Al-Zakwani, S., Maroufmashat, A., Fowler, M., & Elkamel, A. (2020). Multi-Criteria Examination of Power-to-Gas Pathways under Stochastic Preferences. Energies, 13(12), 3151.

    J18. Maroufmashat, A., Taqvi, S. T., Miragha, A., Fowler, M., & Elkamel, A. (2019). Modeling and Optimization of Energy Hubs: A Comprehensive Review. Inventions, 4(3), 50.

    J17.  Al-Zakwani S., Maroufmashat, A., Fowler, M., & Elkamel, A. (2019), Allocation of Ontario’s surplus electricity to different Power- gas applications, energies, Accepted.

    J16.  Likkasit, C., Maroufmashat, A., Elkamel, A., Ku, H. M., & Fowler, M. (2018). Solar-aided hydrogen production methods for the integration of renewable energies into oil & gas industries. Energy Conversion and Management, 168, 395-406.

    J15.  Maroufmashat, A., & Fowler, M. (2018). Policy Considerations for Zero-Emission Vehicle Infrastructure Incentives: Case Study in Canada. World Electric Vehicle Journal, 9(3), 38.

    J14. Maroufmashat, A., & Fowler, M. (2017). Transition of Future Energy System Infrastructure; through Power-to-Gas Pathways. Energies, 10(8), 1089.

    J13. Ranisau, J., Barbouti, M., Trainor, A., ..., Maroufmashat, A., & Fowler, M. (2017). Power-to-Gas Implementation for a Polygeneration System in Southwestern Ontario. Sustainability, 9(9), 1610.

    J12.  Al-Subaie, A., Maroufmashat, A., Elkamel, A., & Fowler, M. (2017). Presenting the implementation of power-to-gas to an oil refinery as a way to reduce carbon intensity of petroleum fuels. International Journal of Hydrogen Energy, 42(30), 19376-19388.

    J11. Mukherjee, U., Maroufmashat, A., Narayan, A., Elkamel, A., & Fowler, M. (2017). A stochastic programming approach for the planning and operation of a power to gas energy hub with multiple energy recovery pathways. Energies, 10(7), 868.

    J10. Mukherjee, U., Maroufmashat, A., Ranisau, J., Barbouti, M., Trainor, A., Juthani, N., ... & Fowler, M. (2017). Techno-economic, environmental, and safety assessment of hydrogen powered community microgrids; case study in Canada. International Journal of Hydrogen Energy, 42(20), 14333-14349.

    J9.   Mukherjee, U., Walker, S., Maroufmashat, A., Fowler, M., & Elkamel, A. (2017). Development of a pricing mechanism for valuing ancillary, transportation and environmental services offered by a power to gas energy system. Energy, 128, 447-462.

    J8. Maroufmashat, A., Sattari, S., Roshandel, R., Fowler, M., & Elkamel, A. (2016). Multi-objective optimization for design and operation of distributed energy systems through the multi-energy hub network approach. Industrial & Engineering Chemistry Research, 55(33), 8950-8966.

    J7.  Maroufmashat, A., Fowler, M., Khavas, S. S., Elkamel, A., Roshandel, R., & Hajimiragha, A. (2016). Mixed integer linear programing-based approach for optimal planning and operation of a smart urban energy network to support the hydrogen economy. International Journal of Hydrogen Energy, 41(19), 7700-7716.

    J6.  Maroufmashat, A., & Sattari, S. (2016). Estimation of natural gas optimum allocation to consuming sectors in year 2025 in Iran. Energy Sources, Part B: Economics, Planning, and Policy, 11(7), 587-596.

    J5.  Sayedin, F., Maroufmashat, A., Roshandel, R., & Khavas, S. S. (2016). Optimal design and operation of a photovoltaic–electrolyser system using particle swarm optimisation. International Journal of Sustainable Energy, 35(6), 566-582.

    J4.  Sayedin, F., Maroufmashat, A., Sattari, S., Elkamel, A., & Fowler, M. (2016). Optimization of Photovoltaic Electrolyzer Hybrid systems; taking into account the effect of climate conditions. Energy Conversion and Management, 118, 438-449.

     

    J2.  Maroufmashat, A., Elkamel, A., Fowler, M., Sattari, S., Roshandel, R., Hajimiragha, A., ... & Entchev, E. (2015). Modeling and optimization of a network of energy hubs to improve economic and emission considerations. Energy, 93, 2546-2558.

    J1.  Maroufmashat, A., Sayedin, F., & Khavas, S. S. (2014). An imperialist competitive algorithm approach for multi-objective optimization of direct coupling photovoltaic-electrolyzer systems. International journal of hydrogen energy, 39(33), 18743-18757.