论文
[1] Yin P, Zeng P, Wang B, etal. Study of model adaptability and thermophysical property variations for ammonia and its mixtures[J]. J. Pipeline Sci. Eng., 2025: 100418.
[2] Yin P, Huang X, Li J, etal. Influence of aqueous foam on gas–liquid flow development of hilly-terrain wet gas pipeline with surfactant injection[J]. Chem. Eng. Sci., 2023, 269: 118469.
[3] Yin P, Cao X, Zhang P, , etal. Investigation of slug flow characteristics in hilly terrain pipeline using ultrasonic Doppler method[J]. Chem. Eng. Sci., 2020, 211: 115300.
[4] Yin P, Cao X, Li Y, et al. Experimental and numerical investigation on slug initiation and initial development behavior in hilly-terrain pipeline at a low superficial liquid velocity[J]. International Journal of Multiphase Flow, 2018, 101: 85-96.
[5] Yin P, Li W, Zhang P, etal. Characteristics of liquid loading with surfactant injection in hilly terrain pipeline[J]. Exp. Therm. Fluid Sci., 2023, 140: 110746.
[6] Yin P, Zhang P, Cao X, etal. Effect of SDBS surfactant on gas–liquid flow pattern and pressure drop in upward-inclined pipelines[J]. Exp. Therm. Fluid Sci., 2022, 130: 110507.
[7] Yin P, Li T, Cao X, etal. Condensation properties of water vapor under different back pressures in nozzle[J]. Case Stud. Therm. Eng., 2022, 31: 101783.
[8] Yin P, Cao X, Wu C, et al. The effect of surfactants on the initiation and development of air–water slug flow in hilly terrain pipeline[J]. Exp. Therm. Fluid Sci., 2020, 117: 110139.
[9] Yin P, Cao X, Zhang P, etal. Phase volume fraction measurement of slug flow with surfactant based on an image-quick closing valve method[J]. Flow Meas. Instrum., 2021, 78: 101881.
[10] Yin P, Xie L, Zhang H, etal. Modelling wax deposition of diesel in sequential transportation of product oil pipeline using optimized back propagation neural network[J]. Can. J. Chem. Eng., 2024, 102(5): 1764-1776.
专利
[1] 一种基于高温氨分解复杂环境的材料腐蚀测试系统(专利号:202411945947.X)
[2] 一种带有超压防护和定量控制的液氨加注系统及控制方法(专利号:202410812691.9)
[3] 原油管道清管蜡层剥离原位观测及清蜡阻力测试实验装置(专利号:202410800154.2)
[4] 一种表征管流状态下泡沫流体流变性能的实验方法(专利号:202011081212.9)