Education & Working Experience

1. 2005.09-2009.07 Mechanical Engineering Department, University of Science and Technology Beijing, Bachelor

2. 2009.09-2015.01 Mechanical Engineering Department, University of Science and Technology Beijing, Ph.D

Work experience：

1. 2015.05-2017.05, School of Materials Science and Engineering, University of Science and Technology Beijing, Post-doctor

2. 2017.05-2020.06, School of Energy and Environment Engineering, University of Science and Technology Beijing, Lecturer

3. 2019.09-2020.03, The Built Environment department, University of Nottingham, Visiting scholar

4. 2020.06-, School of Energy and Environment Engineering, University of Science and Technology Beijing, Associate professor

Teaching:

1. Heat and Mass Transfer (Bilingual Class)

2. Introduction to New Energy (English class)…

3. Thermal engineering (Chinese class)

MOOC website: http://www.icourse163.org/course/ustb-1206693832

https://www.icourse163.org/course/USTB-1461799172?from=searchPage

Honors and Awards：

1. 2021, Second Prize of the First Beijing Teaching Innovation Competition

2. 2019, The 15th Beijing Outstanding Youth Science and Technology Paper Award

3. 2013, First Prize of Youth Academic Speech Competition of Beijing Thermophysics and Energy Engineering Society

4. 2013, Second prize of "Wang buxuan" excellent paper for young scholar

Social/ Academic Work:

1. Member of youth committee in heat and mass transfer of Chinese society of engineering thermophysics.

2. Member of youth committee of Beijing Thermal Physics & Energy Engineering Institute……

3. Correspondence expert for general, youth and regional funds of National Natural Science Foundation of China

4. Evaluation expert of National College Students Energy conservation and Emission reduction Contest

Research projects:

1. National Natural Science Foundation of China, The preparation and heat transfer/storage properties of composite phase change materials based on bio-inspired hierarchical structures, 2022-2025.

2. National Key Research and Development Program, Phonon transmission mechanism and synergic regulation enhancement method for hierarchical porous structure, 2019-2024.

3. Fundamental Research Funds for the Central Universities, Heat storage and transfer enhancement of carbon-based porous phase change materials, 2019-2020.

4. National Natural Science Foundation of China, The flow, migration and regulation mechanism of fluids/particles in organisms, 2019-2023.

5. Beijing Natural Science Foundation, Phase change thermal properties and enhancements of hierarchically porous MOFs assembly materials, 2019-2021.

6. National Key Research and Development Program, The technology of liquid slag efficient heat recovery and resource utilization, 2017-2020.

7. Fundamental Research Funds for the Central Universities, The surface modification of the carrier regulates the phase transformation properties of nano-assembled materials, 2017-2018.

8. National Key Research and Development Program, The key technology of the whole-process control of the multi-pollutant of the flue gas in iron and steel industry, 2017-2020.

9. Fundamental Research Funds for the Central Universities, Comprehensive capacity building of energy saving and environmental protection engineering research center, 2017.

10. National Natural Science Foundation of China, The synergy/coherence effect from matrix - core influence on thermal properties of porous composite phase change, 2017-2019.

11. Fundamental Research Funds for the Central Universities, Thermal properties of 3-d through hole graphene loaded organic phase change materials, 2015-2017.

12. National Natural Science Foundation of China, Three-dimensional fully structured nanoporous heterogeneous phase change composite and its heat storage and transfer performance, 2015-2019.

13. Excellent Doctoral Cultivation Fund of University of Science and Technology Beijing, Study on heat storage properties of mesoporous heterogeneous composite phase change materials, 2013-2015.

14. National Natural Science Foundation of China, High thermal conductivity/adiabatic nanoporous heterogeneous composite and its thermophysical effects, 2009-2012.

15. Transverse project, Calculation and measurement of interface thermal conductivity of epoxy resin, 2021.

16. Transverse project, Simulation and optimization analysis of thermophysical properties of composite phase change materials, 2018-2019.

Academic Achievements:

Publications/Teaching Materials

1. Yanhui Feng, Daili Feng, Xinxin Zhang. “Phase Change and Thermal Transport Properties of Mesoporous Heterogeneous Composite Materials”, Science Press. China.2019

2. Yanhui Feng, Ruifeng Dou, Daili Feng, Lin Qiu, Xinxin Zhang. “Heat and mass transfer: Fundamentals and applications”, Higher education press. China. 2020.

Software copyright

1. Daili Feng, Jianfu Nan, Yanhui Feng, Junfeng Li, Xinxin Zhang.《Thermophysical simulation and optimization analysis software for composite phase change materials V1.0》, Registration No.2020SR0234730.

Main journal publications

1. D L Feng, J F Nan, Y H Feng*, X X Zhang, Y Y Yan. Numerical investigation on improving the heat storage and transfer performance of ceramic/D-mannitol composite phase change materials by bionic graded pores and nanoparticle additives[J]. International Journal of Heat and Mass Transfer,2021,179:121748.

2. P Li, D L Feng*, Y H Feng*, J R Zhang, Y Y Yan,X X Zhang. Thermal properties of PEG/MOF-5 regularized nanoporous composite phase change materials: A molecular dynamics simulation[J].Case Studies in Thermal Engineering,2021,26:101027.

3.D L Feng*, Y Y Zang, P Li, Y H Feng*, Y Y Yan, X X Zhang. Polyethylene glycol phase change material embedded in a hierarchical porous carbon with superior thermal storage capacity and excellent stability[J]. Composites Science and Technology,2021,210:108832.

4.Y Chen, D L Feng*, J Y Miao, H X Zhang, Y H Feng, C P Liu. Investigation of the thermal characteristics of a flat bifacial evaporator loop heat pipe[J]. Heat Transfer Engineering,2021. DOI:10.1080/01457632.2021.1943837

5.Z P Yu, Y H Feng*, D L Feng*, X X Zhang. Thermal properties of three-dimensional hierarchical porous graphene foam-carbon nanotube hybrid structure composites with phase change materials[J]. Microporous and Mesoporous Materials,2021,312:110781.

6.D L Feng*, P Li, Y H Feng*, Y Y Yan, X X Zhang. Using mesoporous carbon to pack polyethylene glycol as a shape-stabilized phase change material with excellent energy storage capacity and thermal conductivity[J]. Microporous and Mesoporous Materials,2021,310:110631.

7.D L Feng*, Y H Feng*, Y Z Liu, W S Zhang,Y Y Yan, X X Zhang. Thermal conductivity of a 2D covalent organic framework and its enhancement using fullerene 3D self-assembly: a molecular dynamics simulation[J].Journal of Physical Chemistry C,2020,124:8386-8393.

8.D L Feng, C Bao*, T Gao. Prediction of overpotential and concentration profiles in solid oxide fuel cell based on improved analytical model of charge and mass transfer[J]. Journal of Power Sources,2020,449:227499.

9.Z P Yu, Y H Feng*, D L Feng*, X X Zhang. Thermal Conductance Bottleneck of a Three Dimensional Graphene-CNT Hybrid Structure: A Molecular Dynamics Simulation[J]. Physical Chemistry Chemical Physics,2020, 22:337-343.

10.D L Feng*, Y H Feng*, P Li, Y Y Zang, C Wang, X X Zhang. Modified mesoporous silica filled with PEG as a shape-stabilized phase change materials for improved thermal energy storage performance[J]. Microporous and Mesoporous Materials,2020,292:109756.

11.D L Feng, Y H Feng*, L Qiu, P Li, Y Y Zang, H Y Zou, Z P Yu, X X Zhang.  Review on nanoporous composite phase change materials: Fabrication, characterization, enhancement and molecular simulation[J]. Renewable and Sustainable Energy Reviews,2019,109:578-605.

12.Y H Feng*, J Gao, D L Feng*, X X Zhang. Modeling of the molten blast furnace slag particle deposition on the wall including phase change and heat transfer[J]. Applied Energy,2019,248:288-298.

13.D L Feng, Y H Feng*,Y Y Zang, P Li, X X Zhang. Phase change in modified metal organic frameworks MIL-101 (Cr): mechanism on highly improved energy storage performance[J]. Microporous and Mesoporous Materials,2019, 280:124–32.

14.D L Feng, Y H Feng*, C Wang, M Y Xiong, R Z Wei, G Wang, X X Zhang. The effects of surface functional groups on phase storage properties of core-shell composite phase change materials[J]. Journal of Engineering Thermophysics,2018,39(11):173-180.

15.C C He, Y H Feng*, D L Feng*, X X Zhang. Exergy analysis and optimization of sintering process[J]. Steel Research International, 2018,89:1800065.

16.D L Feng, Y H Feng*, S W Yuan, X X Zhang, G Wang. Melting behavior of Ag nanoparticles and their clusters[J]. Applied Thermal Engineering,2017,111:1457-1463.

17.D L Feng, Y H Feng*, J Shi. Lattice Boltzamn model of phonon heat conduction in mesoporous composite material[J]. Acta Physica Sinica,2016, 65(24):244401.

18.D L Feng, Y H Feng*, S W Yuan, X X Zhang. Effect of Particles Clustering on the Melting Behavior[J]. Journal of Engineering Thermophysics.2015,35(2):1-5.

19.D L Feng, Y H Feng*, X X Zhang. Thermophysical Properties of Carbon-based Mesoporous Heterogeneous Composite Phase Change Materials[J]. International Journal of Thermophysics,2014, 9(35):1863-1878.

20.D L Feng, Y H Feng*, Y Chen, W Li, X X Zhang. Effects of Doping, SW and Vacancy Defects on Thermal Conductivity of Single-wall Carbon Nanotubes[J]. Chinese Physics B,2013,22(1):016501.

21.D L Feng, Y H Feng*, X X Zhang. Melting and freezing behavior of aluminum nanoclusters with small size[J]. Acta Physica Sinica,2013, 62(8): 83602.2. ……

Patents

1. Daili Feng，Pei Li，Yanhui Feng，Fan Lin，Xinxin Zhang. A hierarchical porous metal organic framework composite phase change material and its preparation method. Application Number: 202110119143.4