[1]. Jiachun Liu, Hong Liu, and Biao Huang. Particle-Plate Collisions Across Varying Liquid Layer Depths. Physics of Fluids, 2025, 37 (7): 073383.
[2]. Jiachun Liu, Biao Huang, and David Z. Zhu. Air Demand in Plunging Dropshafts of Medium Height. Physics of Fluids, 2025, 37 (4): 043313.
[3]. Jiawei Chen, Jiachun Liu*, Biao Huang, David Z. Zhu, Cheng Jin and Haibo Zhang. Optimization of Effective Volume of Urban Sewage Pumping Station Based on Fuzzy Optimization Method. AQUA - Water Infrastructure, Ecosystems and Society, 2024, 73(10): 2030–2044.
[4]. Jiachun Liu, Yongguang Cheng, Jianyong Hu, Xiaodong Yu. Hydraulic and heat transfer characteristics in corridor-shaped air-cushion surge chambers in hydropower systems. Physics of Fluids, 2024, 36(8): 083315.
[5]. Ruihao Peng, Jiachun Liu*, Biao Huang, Xiaodong Yu, and David Z. Zhu. Numerical study on hydraulic characteristics of rotating stepped dropshafts in deep urban tunnels. Water Science and Technology, 2024, 89(3), 653-669.
[6]. Jiachun Liu, Biao Huang, and David Z. Zhu. Jet Impinging in Plunging Dropshafts of Medium Height. Journal of Hydraulic Engineering, 2022, 148 (12): 04022028.
[7]. Jiachun Liu, Yu Qian, David Z. Zhu, Jian Zhang, Stephen Edwini-Bonsu, and Fayi Zhou. Numerical study on the mechanisms of storm geyser in a vertical riser-chamber system. Journal of Hydraulic Research, 2022, 60 (2): 341–356.
[8]. Shuangqing Zhang, Hong Liu, and Jiachun Liu*. Investigation on Water and Air Characteristics in Helicoidal Ramp Dropshaft. Water Science and Technology, 2022, 85 (5): 1351–1362.
[9]. Shuangqing Zhang, Biao Huang, Jiachun Liu*, and Jian Zhang. Numerical study of geyser events in rainstorm systems at different scales. Water Science and Engineering, 2023, 16 (4): 381–389.
[10]. Jiachun Liu, Shuangqing Zhang, Biao Huang, and David Z. Zhu. Numerical study on effects of chamber design and multi-inlet on storm geyser. Water Science and Technology, 2021, 83 (6): 1286–1299.
[11]. Jiachun Liu, Jian Zhang, and Xiaodong Yu. Analytical and numerical investigation on the dynamic characteristics of entrapped air in a rapid filling pipe. Journal of Water Supply: Research and Technology—AQUA, 2018, 67(2), 137-146.
[12]. Jiachun Liu, Jian Zhang, Sheng Chen, and Xiaodong Yu. Investigation on maximum upsurge and air pressure of air cushion surge chamber in hydropower stations. Journal of Pressure Vessel Technology, 2017, 139(3), 031603.
2、发明专利
[1]. 刘甲春, 黄标, 卢鼎南, 朱志伟. 基于光学断层扫描及考虑生化影响的管道微裂痕监测方法: ZL202410920045.4[P]. 2025.03.07.
[2]. 刘甲春, 黄标, 朱志伟. 用于排水管网结构性和功能性缺陷诊断的检测装置及方法: ZL202410695841.2[P]. 2025.01.21.
[3]. 刘甲春, 黄标, 张海波, 蔡海波, 朱志伟. 一种计算城市排水竖井射流冲击力的方法: ZL202211605946.1[P]. 2023.10.10.
[4]. 刘甲春, 黄标, 钱宇, 朱志伟. 一种可控变压非恒定流供水实验装置: ZL202111201840.0 [P]. 2022.01.11.
[5]. 刘甲春, 黄标, 朱志伟. 一种降低城市排水竖井井喷压力的结构: ZL202011051111.7 [P]. 2021.07.27.
[6]. 刘虹, 刘甲春, 黄标, 朱志伟. 一种测量固体颗粒物对竖井结构冲击力的方法及装置: ZL202210694961.1 [P]. 2023.04.07.
[7]. 黄标, 杨志, 刘甲春, 朱志伟. 一种排水管网输运瓶颈及检查井冒溢智慧诊断方法: ZL202311863654.2[P]. 2024.09.16.
[8]. 杨志, 黄标, 刘甲春, 朱志伟. 一种基于排水管道监测数据的沉积层高度快速诊断的方法: ZL 202310692275.5 [P]. 2024.11.09.
[9]. 俞志极, 黄标, 刘甲春, 朱志伟. 基于双层相似度聚类的排水管网监测点优化布置方法: ZL 202310694673.0[P]. 2024.06.04.
[10]. 黄标, 蒋佩杭, 刘甲春, 钱宇, 朱志伟. 一种基于排水管道液位监测动态流量的方法: 202210397341.1 [P]. 2023.03.31.
[11]. 俞晓东, 张健, 刘甲春, 储善鹏, 陈胜, 罗浩. 长距离供水管道事故快速关阀装置及方法: ZL201610817616.7 [P]. 2017.02.22.
[12]. 张健, 俞晓东, 刘甲春, 陈胜, 王希晨. 减小空气罐总容积的水锤防护结构及方法: ZL201610110923.1 [P]. 2016.07.06.
