科研项目

1. 国家自然科学基金青年项目，基于界面双向催化的B/CeO2高能悬浮燃料耦合燃烧机理研究，2022/01-2024/12，项目负责人

2. 上海市“晨光计划”人才项目，硼基纳米悬浮燃料的固-液协同强化释能机理研究，2024/01-2025/12，项目负责人

3.上海市教育委员会，上海市高校青年教师培养资助计划，2022/05-2024/04，项目负责人

4. 横向项目，×××燃烧颗粒辐射特性研究及光谱解析计算，2022/05-2023/05，项目负责人

5. 横向项目，硼燃烧模型高性能计算，2020/11-2021/06，项目负责人

6. 国家自然科学基金面上项目，高能纳米金属浆体燃料的两相分散机制及耦合燃烧机理研究，2019/01-2022/12，参与

7. 装备预研航天科技联合基金子课题，×××铝颗粒点火燃烧×××，2016/01-2018/12，参与

代表性论文

[1] Chen B, Shan S, Du L, et al. Introducing metal oxide as solid oxygen carrier for energy release enhancement of boron suspension fuel[J], Fuel, 2023, 351: 128919.

[2] Chen B, Shan S, Liu H, et al. Atomic insight into the agglomeration evolution mechanism of aluminum nanoparticles with core-shell structure[J], Acta Astronautica, 2023, 208: 256-269.

[3] Du L, Chen B*, Liu J, et al. Combustion and energy release characteristics of LiF- and AP-modified B/JP-10  suspension fuels prepared using a two-solvent method[J]. Combustion and Flame, 2023, 251: 112722.

[4] Chen B, Shan S. Construction and performance analysis of a solar thermophotovoltaic system targeting on the efficient utilization of AM0 space solar radiation. iScience, 2022, 25: 105373.

[5] Chen B, Shan S, Liu J. Promotion mechanism analysis of metal hydride on the energy release characteristics of B/JP-10 suspension fuel. Fuel, 2022, 316: 123409.

[6] Chen B, Shan S, Liu J. Evolution of solid-liquid coupling combustion characteristics of boron suspension fuel in O₂/Ar atmosphere. Combustion and Flame, 2022, 237: 111869.

[7] Shan S, Chen B*, Tian J, et al. Improving the performance of steam power cycle through thermo-photovoltaic device: a novel combined system and thermodynamic analysis. Energy Conversion and Management, 2022, 269: 116139.

[8] Chen B, Shan S, Liu J. A novel molten salt energy storage-solar thermophotovoltaic integrated system with mid-temperature metamaterial spectrum reshaping. Solar Energy Materials and Solar Cells, 2022, 243: 111799.

[9] Shan S, Tian J, Chen B*, et al. Comparison between spectrum-split conversion and thermophotovoltaic for solar energy utilization: thermodynamic limitation and parametric analysis. Energy Conversion and Management, 2022, 255: 115331.

[10] Chen B, Shan S, Liu J, Zhou Z. An effective design of thermophotovoltaic metamaterial emitter for medium-temperature solar energy storage utilization. Solar Energy, 2022, 231: 194-202.

[11] Chen B, Liu J, Shan S, et al. Adsorption mechanism of oleic acid on the surface of aluminum nanoparticle: ReaxFF molecular dynamics simulation and experimental study. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2021, 618: 126500.

[12] Shan S, Chen B*, Zhou Z. Parametric characteristics and optimization of a novel near-field thermophotovoltaic and thermoelectric hybrid system for energy harvest. Energy Conversion and Management, 2021, 246: 114678.

[13] Chen B, Liu J, Du L, et al. Effect of ammonium perchlorate coating on the ignition and combustion characteristics of Al/JP-10 nanofluid fuel. Combustion Science and Technology, 2020, 192(8): 1567-1581.

[14] Chen B, Liu J, Yao F, et al. Ignition delay characteristics of RP-3 under ultra-low pressure (0.01–0.1 MPa). Combustion and Flame, 2019, 210: 126-133.

[15] Chen B, Liu J, Li H, et al. Laser ignition and combustion characteristics of Al/JP-10 nanofluid droplet. Journal of Thermal Analysis and Calorimetry, 2019, 135(2): 925-934.

[16] 陈冰虹, 刘建忠, 梁导伦等. 氧化剂包覆硼颗粒对硼基推进剂点火燃烧特性的影响[J]. 含能材料, 2016, 24(8): 774-780.

[17] 陈冰虹, 刘建忠, 梁导伦等. 硼颗粒的包覆机理及工艺研究进展[J]. 火炸药学报, 2016, 39(5): 13-21.

[18] 陈冰虹, 姚峰, 刘建忠. Al/JP-10纳米流体型燃料点火燃烧特性研究[C]，中国航天第三专业信息网第三十九届技术交流会暨第三届空天动力联合会议, 2018. (首届《推进技术》奖励基金优秀论文)

发明专利

1. 一种界面强化硼基悬浮燃料、制备方法及其应用，2023.8.25，中国，ZL202210253018.7