An Integrated Strategy for Synergistic Control of Dust Emission and Spontaneous Combustion in Port Lignite Operations: Based on Physicochemical Characterization and CFD Simulation

Hu Sun; Xiaomeng Liu; Qingbiao Wang

doi:10.1051/e3sconf/202671102015

Open Access

Issue		E3S Web Conf. Volume 711, 2026 2026 2^nd International Conference on Environmental Monitoring and Ecological Restoration (EMER 2026)


Article Number		02015
Number of page(s)		6
Section		Ecological Restoration and Remediation
DOI		https://doi.org/10.1051/e3sconf/202671102015
Published online		19 May 2026

E3S Web of Conferences 711, 02015 (2026)

An Integrated Strategy for Synergistic Control of Dust Emission and Spontaneous Combustion in Port Lignite Operations: Based on Physicochemical Characterization and CFD Simulation

Hu Sun¹, Xiaomeng Liu² and Qingbiao Wang²^*

¹ Dalian Taipingwan Asset Management & Operation Co., Ltd., 116000 Dalian, Liaoning, China
² Environmental Technology Development of TIWTE (Tianjin) Co., Ltd., 300000 Tianjin, China

^* Corresponding author: This email address is being protected from spambots. You need JavaScript enabled to view it.

Abstract

Lignite, a major global dry bulk commodity, presents significant dual challenges of dust emission and spontaneous combustion during port operations, severely impacting safety and environmental sustainability. This study proposes an integrated strategy for the synergistic control of these risks. Initially, detailed physicochemical characterization (particle size distribution, proximate analysis, and minimum ignition temperature) was performed on 10 representative lignite samples, elucidating their distinct dust emission and spontaneous combustion propensities. Subsequently, Computational Fluid Dynamics (CFD) simulations were utilized to simulate wind speed gradients across port stockyards under seasonal conditions, thereby delineating high, medium, and low wind speed zones. Building on these insights, a novel “three-dimensional integrated” prevention and control strategy was devised. This strategy comprises: (1) optimized zoned storage based on port wind field characteristics, prioritizing high-risk lignite in low wind speed areas; (2) precise moisture content regulation via humidification during dynamic operational phases, circumventing conventional water spraying drawbacks; and (3) synergistic optimization of stack morphology and environmental conditions during static storage. This comprehensive strategy achieves source-level control and full-chain synergistic management of lignite dust emission and spontaneous combustion risks. This research provides a scientific basis and practical paradigm for domestic ports and contributes innovative solutions for the sustainable development of international dry bulk ports.

This is an Open Access article distributed under the terms of the Creative Commons Attribution License 4.0, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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