Education, Science, Technology, Innovation and Life
Open Access
Sign In

Design of Initial Rainwater Collection and Treatment Process in Port Stacking Aera

Download as PDF

DOI: 10.23977/hyde.2022.020102 | Downloads: 4 | Views: 1152


Xingpeng Pan 1, Qing Qin 2, Xin Tan 1, Zengguo Zhang 1, Huidong Zhuang 1, Wei Hong 1


1 Shandong Resources and Environment Construction Group Co., Ltd, Jinan, Shandong, China
2 Yankuang Lunan Chemicals Co., Ltd, Zaozhuang, Shandong, China

Corresponding Author

Wei Hong


Bulk cargo in ports is usually stacked in the open. The initial rainwater in the region contains a large amount of suspended solids such as coal powder and mineral powder, which easily causes pollution to the surrounding water bodies. In order to meet the increasingly strict environmental requirements and national policies, this paper introduces the collection and treatment process design of the initial rainwater in the bulk pile area in a port of China, and the selection and arrangement of the main structure. The content of suspended matter in the initial stage of rainwater after treatment can meet the standards of "The reuse of urban recycling water-Water quality standard for urban miscellaneous use (GB/T 18920-2020)". This article provides reference for similar projects.


Stacking Area, Initial Rainwater, Collection System, Treatment Technology


Xingpeng Pan, Qing Qin, Xin Tan, Zengguo Zhang, Huidong Zhuang, Wei Hong, Design of Initial Rainwater Collection and Treatment Process in Port Stacking Aera. Advances in Hydraulic Engineering (2022) Vol. 2: 8-13. DOI:


[1] JTS 149-2018 Specifications on Environmental Protection Design for Port and Waterway Engineering. Beijing: China Communications Press Co., Ltd, 1:1-29, 2017.
[2] Jiang Yu. Design of rainwater collection system for bulk cargo terminal. China Water Transport, 13 (6): 271-272, 2013.
[3] Li Chunlai, Yang Nanwu, Li Chuncheng. Design of Process for Bulk Wastewater Treatment in a Qinzhou 100000 ton Bulk Terminal. Western China communication Science and Technology, 7:87-90, 2011.
[4] Pan Yijun. Design of Drainage Ditches in Large-scale Bulk Cargo Stockyard of Port. Port Engineering Technology, 53 (6): 19-21, 2016.
[5] Wang Wei. Discussion on the Design of Rainwater Collection System in Bulk Storage Yard. China Water Transport, 2017, 10 (10): 195-196.
[6] Cui Mingxun, Fu Zhihao. Discussion on the Design of Rainwater Pollution Treatment and Reconstruction of a Certain Dock in the Yangtze River Economic Zone. Guangdong Chemical Industry, 48 (5): 109-110, 2021.
[7] Xia Anlin. Preliminary analysis of rainwater collection and treatment in nonferrous metal industry. World Nonferrous Metal, 10: 154-155, 2020.
[8] Zhou Xiang. Discussion on collection and treatment of initial rainwater in metal mines. Engineering Technology and Application, 18: 41-42, 2020.
[9] Zhou Chanting, Wang Mengyu. Research progress of urban initial stormwater pollution and treatment measures. Water Purification Technology, 41 (7): 17-26, 2022.
[10] Li Ji, Wang Yan, Xiong Hongsong, et al. Investigation and Operation Strategies on the Operation of Disinfection Facilities in Municipal WWTPs. China water and wastewater, 2020,36 (8): 7-19.
[11] Zhang Dong. Island Rainwater Purification Process Efficiency and Operation Optimization. Harbin: Harbin Institute of Technology, 2018.
[12] Song Guoping. Environmental Impact Prediction and Pollution Prevention Measures of a Port Wharf. Journal of Hubei Polytechnic University. 38 (2): 16-20, 2022.

Downloads: 32
Visits: 8247

All published work is licensed under a Creative Commons Attribution 4.0 International License.

Copyright © 2016 - 2031 Clausius Scientific Press Inc. All Rights Reserved.