Tausif Ali, PhD
Center for Energy and Environmental Policy Research
Beijing Institute of Technology, China.
Email: tausif.ali1990@hotmail.com, tausif.ali@bit.edu.cn
Phone: 13720059075
SCOPUS: https://www.scopus.com/authid/detail.uri?authorId=55490382400
ResearchGate: https://www.researchgate.net/profile/Tausif_Ali
Education:
1. PhD in Electrical Engineering, Hohai University, China, 2022.
2. MSc. in Electrical Engineering, Xi’an Jiaotong University, China 2015.
3. Bachelor of Science in Electrical and Electronic Engineering, American International University-Bangladesh, 2012.
Employment Record:
1. Visiting Researcher, Department of Development Studies, Daffodil International University, Bangladesh, 2023-Present.
2. Assistant Professor, Department of Electrical and Electronic Engineering, Uttara University, Bangladesh, 2022-2023.
Publication (SCIE/SSCI Indexed Journals):
1. Ali, T., Sunny, M. R., Aghaloo, K., & Wang, K. (2024). Planning off-grid hybrid energy system using techno-economic optimization and wins in league theory-based multi-criteria decision-making method in the wetland areas of developing countries. Energy Conversion and Management, 313, 118587.
2. Sunny, M. R., Ali, T. (Corresponding), Aghaloo, K., & Wang, K. (2024). Techno-economic feasibility of stand-alone hybrid energy system with battery storage in educational buildings: A case study of Uttara University. Energy and Buildings, 304, 113852.
3. Aghaloo, K., Sharifi, A., Habibzadeh, N., Ali, T., & Chiu, Y. R. (2024). How Nature-based Solutions Can Enhance Urban Resilience to Flooding and Climate Change and Provide Other Co-benefits: A Systematic Review and Taxonomy. Urban Forestry & Urban Greening, 128320.
4. Aghaloo, K., Ali, T. (Corresponding), Chiu, Y. R., & Sharifi, A. (2023). Optimal site selection for the solar-wind hybrid renewable energy systems in Bangladesh using an integrated GIS-based BWM-fuzzy logic method. Energy Conversion and Management, 283, 116899.
5. Atchike, D. W., Zhenyu, Z., Ali, T., Weishang, G., & Jabeen, G. (2022). Towards sustainable energy: Factors affecting solar power system adoption by small and medium-sized businesses. Frontiers in Environmental Science, 10, 967284.
6. Ali, T., Aghaloo, K., Chiu, Y. R., & Ahmad, M. (2022). Lessons learned from the COVID-19 pandemic in planning the future energy systems of developing countries using an integrated MCDM approach in the off-grid areas of Bangladesh. Renewable Energy, 189, 25-38.
7. Ahmad, M., Işık, C., Jabeen, G., Ali, T., Ozturk, I., & Atchike, D. W. (2021). Heterogeneous links among urban concentration, non-renewable energy use intensity, economic development, and environmental emissions across regional development levels. Science of the Total Environment, 765, 144527.
8. Ali, T., Aghaloo, K., Nahian, A. J., Chiu, Y. R., & Ahmad, M. (2021). Exploring the best hybrid energy system for the off-grid rural energy scheme in Bangladesh using a comprehensive decision framework. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 1-20.
9. Ali, T., Nahian, A. J., & Ma, H. (2020). A hybrid multi-criteria decision-making approach to solve renewable energy technology selection problem for Rohingya refugees in Bangladesh. Journal of Cleaner Production, 273, 122967.
10. Ali, T., Chiu, Y. R., Aghaloo, K., Nahian, A. J., & Ma, H. (2020). Prioritizing the existing power generation technologies in Bangladesh’s clean energy scheme using a hybrid multi-criteria decision making model. Journal of Cleaner Production, 267, 121901.
Presented Papers in Conference:
1. Tausif Ali, Is PV-Diesel-Battery Hybrid Energy System Feasible in the Coastal Area of Bangladesh? A Comparative Assessment with Stand-Alone Solar and Diesel Energy Systems, The Second International Student’s Ecology and Environment Forum, Beijing Normal University, China, 2019.
2. Tausif Ali, Feasibility Analysis of an Off-Grid PV/Wind/Diesel/Battery Hybrid Energy System for Bangladesh, 15th International Conference of Young Scientists on Energy Issues, Lithuanian Energy Institute, Lithuania, 2018.
3. Tausif Ali, Techno-Economic Analysis of an Off-Grid Hybrid Energy System for a Coastal Area in Bangladesh, The 11th National Ph.D. Students’ Academic Conference, Tsinghua University, China, 2017.
Research Project:
1. Evaluating the techno-economic viability of a hybrid energy system to provide electricity to the buildings: A case study of Uttara University
Grant Number: P-15/SSE-1/CRT 2023; Project duration: 2023-2024.
Funding body: Center for research and training (CRT), Uttara University, Bangladesh.
Award:
1. Research and Publication Award, Uttara University, 2023.
2. Excellent Oral Presenter (3rd Prize), The Second International Student’s Ecology and Environment Forum (ISEEF), Beijing Normal University, 2019.
3. PhD Student Fellowship, Summer School on Energy “Giacomo Ciamician”, Italy, 2018.
4. Chinese Government Scholarship, CSC Scholarship, 2016.
5. Bangladesh Sweden Trust Fund Scholarship (Travel grant), 2014.