职 称

特别副研究员

博导 硕导

学院及专业

能源与动力工程系

办公地址

叶轮机械与增压技术研究所204

邮编

100081

办公电话

010-68912519

邮 件

ppsong@bit.edu.cn, ppsongbit@gmail.com

研究方向

[1] 新型动力循环增压与综合热管理技术研究

[2] 涡旋式流体机械设计理论与创新应用研究

[3] 可再生能源高效转换与利用、新型储能系统技术研究

代表性成果及研究项目

代表性论文:

[1] P. Song, D. Wu, Z. Lu, et al., An improved geometric theoretical model and throughflow prediction method for a CO2 scroll compressor of automotive air-conditioning system, International Journal of Energy Research, 2022, Accepted.

[2] J. Gao, X. Wang, P. Song*, et al., Review of the backfire occurrences and control strategies for port hydrogen injection internal combustion engines, Fuel, 2022, 307: 21553.

[3] S. Emhardt, G. Tian*, P. Song, et al., CFD analysis of the influence of variable wall thickness on the aerodynamic performance of small scale ORC scroll expanders, Energy, 2022, 244: 122586.

[4] J. Meng, M. Wei, P. Song*, et al., Performance evaluation of a solar transcritical carbon dioxide Rankine cycle integrated with compressed air energy storage, Energy Conversion and Management, 2020, 215: 112931.

[5] S. Zheng, M. Wei*, P. Song, et al., Thermodynamics and flow unsteadiness analysis of trans-critical CO2 in a scroll compressor for mobile heat pump air-conditioning system. Applied Thermal Engineering. 2020, 175: 115368.

[6] S. Emhardt, G. Tian*, P. Song, et al., CFD modelling of small scale ORC scroll expanders using variable wall thicknesses. Energy. 2020; 199: 117399.

[7] J. Meng, P. Song, M. Wei*, et al., Experimental study of a micro-scale solar organic Rankine cycle system based on compound cylindrical Fresnel lens solar concentrator. Science China Technological Sciences. 2019; 62: 2184-94.

[8] P. Song, M. Wei, Y. Zhang*, et al., The impact of a bilateral symmetric discharge structure on the performance of a scroll expander for ORC power generation system, Energy, 2018, 158: 458-470..

[9] Z. Liu, M. Wei*, P Song, et al., The fluid-thermal-solid coupling analysis of a scroll expander used in an ORC waste heat recovery system. Applied Thermal Engineering. 2018; 138: 72-82.

[10] M. Zhao, M. Wei*, P. Song P, et al., Performance evaluation of a diesel engine integrated with ORC system. Applied Thermal Engineering. 2017; 115: 221-8.

[11] M. Wei*, P. Song, B. Zhao et al., Unsteady flow in the suction process of a scroll expander for an ORC waste heat recovery system. Applied Thermal Engineering. 2015;78:460-70.

[12] P. Song, M. Wei*, L. Shi, et al., A review of scroll expanders for organic Rankine cycle systems. Applied Thermal Engineering. 2015; 75: 54-64.

[13] P. Song, M. Wei*, Z. Liu, et al., Effects of suction port arrangements on a scroll expander for a small scale ORC system based on CFD approach. Applied Energy. 2015; 150: 274-85.

发明专利：

[1] 宋盼盼，吴鼎等，超临界二氧化碳热动力循环发电系统及其控制方法，发明专利, CN112554975A.

[2] 宋盼盼，张宇萱等，计及蓄热式电采暖规模化接入配电网承载能力评估方法, 发明专利, CN112234614A.

[3] 宋盼盼，吴鼎等，一种渐变齿形涡旋压缩机，发明专利, CN202111288892.6.

[4] 宋盼盼，安钟衍等，一种基于正逆电卡的车辆热管理系统及其控制方法, 发明专利, CN202111290093.2.

[5] 宋盼盼，鲁振博等，一种压力能利用的高速自转型涡旋膨胀机，发明专利，CN202111615434.5.

[6] 宋盼盼，曾思源等，一种多维共轭曲面涡旋齿、压缩机和膨胀机，发明专利，CN202211434072.8

近年主持科研项目：

[1] 军科委 XXX重大专项子课题, 2021-09至2023-06, 在研,主持.

[2] 国家自然科学基金委员会, 面上项目, 52276027, 2023-01至2026-12, 在研, 主持.

[3] 国家自然科学基金委员会, 青年项目, 51906015, 2020-01至2022-12, 在研, 主持.

[4] 汽车安全与节能国家重点实验室, 开放课题, KFY2228, 2022-01至2023-12, 在研, 主持.

[5] 北京市自然科学基金委员会，青年项目，3194057，2019-01至2020-12，结题，主持.

[6] 北京理工大学机电储能二级学科建设项目, 中温储热装置蓄释能性能试验台建设，2019-06至2021-06，在研，主持.

[7] 清华大学, 横向合作项目, 促进陕西电网新能源消纳的再电气化（热泵供热）技术研究, 2019-06至2020-06, 结题, 主持.

成果及荣誉

[1] 清华大学博士后支持计划

社会职务

能源与动力工程系副主任、《Energies》客座编辑、汽车安全与节能国家重点实验室客座研究员、国家自然科学基金委通讯评议专家, 教育部学位中心通讯评议专家, Applied Energy, Energy, Energy Conversion and Management、Applied Thermal Engineering等期刊审稿人