1.动力电池的电化学模拟与寿命管理方面:
1. Yang, F, Xie, YY, Deng, YL*, Yuan,C, “Predictive modeling of battery degradation and greenhouse gas emissions from U.S. state-level electric vehicle operations”, Nature Communications, 2018, 9:2429, p.1-10.
2. Deng, YL, Ma, Lulu, Li, Tonghui, Li Jianyan, Yuan Chris “Life cycle assessment of silicon-nanowire-based lithium ion battery for electric vehicle”, ACS Sustainable Chemistry & Engineering, 2019, 7(1): 599-610
3. Yongjian, S., Kai, Z., Yingchun, Y., Weiwei, L., and Deng, YL* (2020). Study on prediction of binder distribution in the drying process of the coated web of positive electrode for lithium ion battery. Journal of Physics: Conference Series, accepted manuscript
4. Wang, Y., Deng YL*, Liu W.W., Hao K., Zhang HC (2020), Thermal analysis for lithium-ion battery pack based on parameter estimation based on genetic algorithm, Journal of Physics: Conference Series, accepted manuscript
5. Deng, Y., Li, J., Li, T., Zhang, J., Yang, F., & Yuan, C. (2017). Life cycle assessment of high capacity molybdenum disulfide lithium-ion battery for electric vehicles. Energy, 123.
6. Deng, Y., Li, J., Li, T., Gao, X., & Yuan, C. (2017). Life cycle assessment of lithium sulfur battery for electric vehicles. Journal of Power Sources, 343.
7. Deng, Y., Li, J., Qiu, M., Yang, F., Zhang, J., & Yuan, C. (2017). Deriving characterization factors on freshwater ecotoxicity of graphene oxide nanomaterial for life cycle impact assessment. International Journal of Life Cycle Assessment, 22(2).
8. Yuan, C., Deng, Y., Li, T., & Yang, F. (2017). Manufacturing energy analysis of lithium ion battery pack for electric vehicles. CIRP Annals - Manufacturing Technology, 66(1).
9. Qiu, M., Xie, Y., Gao, X., Li, J., Deng, Y., Guan, D., Yuan, C. (2016). Band gap opening and semiconductor-metal phase transition in (n, n) single-walled carbon nanotubes with distinctive boron-nitrogen line defect. Physical Chemistry Chemical Physics, 18(6). http://doi.org/10.1039/c5cp06853c
2.可再生能源系统方面:
1. Guo, YS, Duflou J., Deng.Y.,*& Lawers, B. (2018). A life cycle energy analysis integrated process planning approach to foster the sustainability of discrete part manufacturing. Energy, DOI:10.1016/j.energy.2018.04.043.
2. Deng, Y., Feng, Z., Fang, J., & Cao, S.-J. (2018). Impact of ventilation rates on indoor thermal comfort and energy efficiency of ground-source heat pump system. Sustainable Cities and Society, 37.
3. Kong, X.-R., #Deng, Y.#, Li, L., Gong, W.-S., & Cao, S.-J. (2017). Experimental and numerical study on the thermal performance of ground source heat pump with a set of designed buried pipes. Applied Thermal Engineering, 114.
4. Deng, Y., Paraskevas, D., Tian, Y., Van Acker, K., Dewulf, W., & Duflou, J. R. (2016). Life cycle assessment of flax-fibre reinforced epoxidized linseed oil composite with a flame retardant for electronic applications. Journal of Cleaner Production, 133.
5. Ren, C., Deng, Y., & Cao, S.-J. (2017). Evaluation of polyethylene and steel heat exchangers of ground source heat pump systems based on seasonal performance comparison and life cycle assessment. Energy and Buildings.
6. Zhou, Y., Deng, Y., Wu, P., & Cao, S.-J. (2017). The effects of ventilation and floor heating systems on the dispersion and deposition of fine particles in an enclosed environment. Building and Environment, 125.
7. Zhang, J., Gao, X., Deng, Y., Zha, Y., & Yuan, C. (2017). Comparison of life cycle environmental impacts of different perovskite solar cell systems. Solar Energy Materials and Solar Cells, 166.
8. Cao, S.-J., Kong, X.-R., Deng, Y., Zhang, W., Yang, L., & Ye, Z.-P. (2017). Investigation on thermal performance of steel heat exchanger for ground source heat pump systems using full-scale experiments and numerical simulations. Applied Thermal Engineering, 115.
9. Ingarao, G., Priarone, P. C., Deng, Y.,&Paraskevas, D. (2018). Environmental modelling of aluminium based components manufacturing routes: Additive manufacturing versus machining versus forming. Journal of Cleaner Production, 176, pp.261-275
10. Ingarao, G., Deng, Y., Marino, R., Di Lorenzo, R., & Lo Franco, A. (2016). Energy and CO2 life cycle inventory issues for aluminum based components: The case study of a high speed train window panel. Journal of Cleaner Production, 126. http://doi.org/10.1016/j.jclepro.2016.03.070
3.环保材料及环境管理方面:
11. Deng, Y., Cao, S.-J., Chen, A., & Guo, Y. (2016). The impact of manufacturing parameters on submicron particle emissions from a desktop 3D printer in the perspective of emission reduction. Building and Environment, 104. http://doi.org/10.1016/j.buildenv.2016.05.021.
12. Deng, Y., & Tian, Y. (2015). Assessing the environmental impact of flax fibre reinforced polymer composite from a consequential life cycle assessment perspective. Sustainability (Switzerland), 7(9).
13. Deng, Y., Paraskevas, D., & Cao, S.-J. (2017). Incorporating denitrification-decomposition method to estimate field emissions for Life Cycle Assessment. Science of the Total Environment, 593–594.
14. Deng, Y., Achten, W. M. J., Van Acker, K., & Duflou, J. R. (2013). Life cycle assessment of wheat gluten powder and derived packaging film. Biofuels, Bioproducts and Biorefining, 7(4).
15. Cao, S.-J., Kong, X.-R., Li, L., Zhang, W., Ye, Z.-P., &Deng, Y. *(2017). An investigation of the PM2.5 and NO2 concentrations and their human health impacts in the metro subway system of Suzhou, China. Environmental Science: Processes & Impacts.
16. Paraskevas, D., Vanmeensel, K., Vleugels, J., Dewulf, W., Deng, Y.,& Duflou, J. R. (2014). Spark plasma sintering as a solid-state recycling technique: The case of aluminum alloy scrap consolidation. Materials, 7(8). http://doi.org/10.3390/ma7085664
17. Duflou, J. R., Deng, Y., Van Acker, K., & Dewulf, W. (2012). Do fiber-reinforced polymer composites provide environmentally benign alternatives? A life-cycle-assessment-based study. MRS Bulletin, 37(4). http://doi.org/10.1557/mrs.2012.33
18. Duflou, J. R., Yelin, D., Acker, K. Van, & Dewulf, W. (2014). Comparative impact assessment for flax fibre versus conventional glass fibre reinforced composites: Are bio-based reinforcement materials the way to go? CIRP Annals - Manufacturing Technology.