丁旭涵，1990年7月生，安徽东至人，博士，副教授，硕士研究生导师，中国安全生产科学研究院访问学者，陕西省工业火灾与爆炸防控重点科技创新团队骨干成员，西安科技大学工业安全技术研究所副所长，全国职业卫生工程专业联盟粉尘危害工程防护专业委员会青年委员，中国职业安全健康协会会员，陕西省绿色低碳学会会员。主持国家自然科学青年基金、陕西省自然科学基金、陕西省青年创新团队项目等纵向项目6项，参与国家自然科学基金4项，西澳大利亚矿业部MRIWA和澳大利亚矿业教育联盟MEA科研计划项目2项。以第一作者/通讯作者发表JCR一区论文25篇，ESI高被引论文3篇，授权国内外专利8项，获省部级科学技术一等奖2项，担任《Green and smart mining engineering》、《Safety Science and Technology》等期刊青年编委，《Process Safety and Environmental Protection》、《Construction and Building Materials》、《Journal of Cleaner Production》等20余个期刊审稿人。

研究方向：工业粉尘防治与爆炸防控；露天尾矿及道路降尘抑尘理论及技术；高性能环保防尘防爆新材料

联系邮箱：dingxuhan1990@xust.edu.cn    联系电话：18792509173

欢迎有追求、有理想、有责任心、有团队精神的同学加入！

一、专业课程

《职业危害防治》、《应急管理概论》

二、教育教学改革

[1] 西安科技大学教育教学成果一等奖，3/15，2025

[2] 西安科技大学研究生教学改革研究项目（ZJG2025423），主持，2025

[3] 陕西省研究生教育综合改革研究与实践项目（YJSZG2023095），参与，2023

三、指导学生获奖

[1] 研究生国家奖学金，付情云，2025

[2] 研究生国家奖学金，胥乾，2025

[3] 《第十一届全国大学生能源经济学术创意大赛》，陕西省二等奖

[3] 西安科技大学《第三届研究生“双碳”创新与创意大赛》，一等奖

[4] 西安科技大学《第十届安全工程实践与创新作品大赛》，三等奖

[1] 国家自然科学基金青年项目（52204234），2023-01-01至2025-12-31，主持。

[2] 陕西省青年创新团队项目（25JP104），2026-01-01至2028-12-31，主持

[3] 陕西省自然科学基金（2022JQ-519），2022-01-01至2023-12-31，主持

[4] 陕西省教育厅自然科学专项（21JK0753），2021-01-01至2022-12-31，主持

[5] 国家重点研发计划（2021YFB400090503），2021-12至2024-11，参与

[6] 国家自然科学基金面上项目（52174196），2022-01-01至2025-12-31，参与。

[7] 国家自然科学基金面上项目（52074218），2021-01-01至2024-12-31，参与。

一、代表性学术论文（英文）

[1]     Xuhan Ding, Yongzhe Zhang, Yuting Wang, et al. The synthesis, performance and multi-scale mechanisms of a highly alkali-resistant dust suppressant for red mud dust control. Journal of Environmental Chemical Engineering, 2026, 14(2), 121468.

[2]     Xuhan Ding, Tianting Wang, Kai Wang, et al. Development of a synergistic composite for open-pit haul road dust control: From attapulgite-red mud/biopolymer formulation to mechanism study. Process Safety and Environmental Protection, 2026, 210, 108647.

[3]     Xuhan Ding, Qian Xu, Kai Wang, et al. Numerical and molecular dynamics simulation on the wetting-coating-aggregating behaviors of biomass and betaine-based surfactants in suppression coal dust pollution. Journal of Cleaner Production, 2025, 525, 146646.

[4]     Xuhan Ding, Qingyun Fu, Tianting Wang, et al. The synthesis, performance, and functional mechanism of an eco-friendly suppressant derived from hydroxyethyl cellulose for the mitigation of coal dust pollution. Process Safety and Environmental Protection, 2025, 203. 107861.

[5]     Xuhan Ding, Tianting Wang, Qingyun Fu, et al. A novel haul road dust suppression system using de-alkalized red mud as road base material and ancillary palygorskite-based biopolymer surfactant. Construction and Building Materials, 2025, 494, 143566.

[6]     Xuhan Ding, Tianting Wang, Kai Wang, et al. Performance evaluation and mechanism analysis of electrolyte promoted bio-macromolecular dust suppressants for unpaved haul road dust control in open pit mines. Construction and Building Materials, 2025, 487, 142163.

[7]     Xuhan Ding, Qingyun Fu, Kai Wang, et al. Experimental and molecular dynamics analysis on the mechanism of -pSO₃H, -OSO₃H and heavy alkyl functional groups in affecting wetting and agglomeration behaviour of coal particles during dust suppression. Journal of Environmental Chemical Engineering, 2025, 13, 116474.（ESI高被引）

[8]     Xuhan Ding, Qian Xu, Yong Yang, et al. The enhancement effects and mechanisms of biomass surfactants and electrolytes on coal dust suppression and explosion prevention. Fuel, 2025, 392, 134858. （ESI高被引）

[9]     Xuhan Ding, Kai Wang, Qingyun Fu, et al. Experimental and molecular dynamics simulation of the synergistic mechanism of short-chain fluorocarbon surfactant and electrolyte on inhibiting coal dust pollution. Journal of Environmental Chemical Engineering, 2024, 12, 114194.

[10]   Xuhan Ding, Yong Yang, Kai Wang, et al. Natural polymers and electrolytes enhanced coal dust suppression and explosion prevention: New insight from experimental and molecular dynamic simulations. Journal of Molecular Liquids, 2024, 408, 125392

[11]   Xuhan Ding, Kai Wang, Zhenmin Luo, et al. The investigation of wetting and agglomerating mechanism of short-chain fluorocarbon surfactant suppressing coal dust from macro and molecular scales, Chemical Engineering Journal, 2024, 487, 150475. （ESI高被引）

[12]   Xuhan Ding, Yong Yang, Dengfei Wang, et al. The effect of short-chain fluorocarbon and electrolyte on simultaneous dedusting and explosion prevention performance when applied to coal particle with high oil-content. Fuel, 2023, 350, 128793.

[13]   Xuhan Ding, Tian Ma, Wei Zhao, et al. Airborne high oil-content coal particles suppression via the electrolyte accelerated application of hydrocarbon and short-chain fluorocarbon surfactants. Fuel, 2023, 332, 126192.

[14]   Xuhan Ding, Dengfei Wang, Zhenmin Luo, et al. Investigation of agglomerating and wetting behaviour during coal dust suppression via the synergistic application of hydrocarbon and short-chain-fluorocarbon surfactants in the presence of electrolytes. Powder Technology, 2022, 404, 117518.

[15]   Xuhan Ding, Guang Xu, Wei Victor Liu, et al. Effect of polymer stabilizers’ viscosity on red sand structure strength and dust pollution resistance. Powder Technology, 2019, 352, 117-125.

[16]   Xuhan Ding, Dengfei Wang, Zhenmin Luo, et al. Multi scale study on the agglomerating and wetting behaviour of binary electrolyte-surfactant coal dust suppression based on multiple light scattering. Fuel, 2021, 311, 122515.

[17]   Guang Xu, Xuhan Ding*, Mahinda Kuruppu, et al. Research and application of non-traditional chemical stabilizers on bauxite residue (red sand) dust control, a review. Science of the Total Environment, 2018, 616-617: 1552-1565.

[18]   Xuhan Ding, Guang Xu, Dengfei Wang, et al. Effect of Synergistic Aging on Bauxite Residue Dust Reduction Performance via the Application of Colloids, an Orthogonal Design-Based Study. Polymers, 2021, 13, 1986.

[19]   Xuhan Ding, Zhenmin Luo, Guang Xu, et al. Characterization of red sand dust pollution control performance via static and dynamic laboratorial experiments when applying polymer stabilizers. Environmental Science and Pollution Research, 2021, 28, 34937-34952.

[20]   Xuhan Ding, Guang Xu, Wei Zhou, et al. Treatment of bauxite residue dust pollution by improving structural stability via application of synthetic and natural polymers. Journal of Central South University, 2019, 26, 440-448.

[21]   Xuhan Ding, Guang Xu, Kizil, M. et al. Lignosulfonate treating bauxite residue dust pollution: enhancement of mechanical properties and wind erosion behaviour. Water Air Soil Pollution, 2019, 229, 214.

[22]   Xuhan Ding, Guang Xu, Yutao Zhang, et al. Reduction of Airborne Bauxite Residue Dust Pollution by Enhancing the Structural Stability via the Application of Non-traditional Stabilizers. Water Air Soil Pollution, 2021, 232, 100.

[23]   Xuhan Ding, Guang Xu, Wei Zhou, et al. Effect of synthetic and natural polymers on reducing bauxite residue dust pollution. Environmental Technology, 2018, 41(5), 556-565.

[24]   Xuhan Ding, Zhenmin Luo, Fangming Cheng, et al. Dust control performance enhancement of red sand via the synergistic application of Na- and Ca-lignosulfonates. International Journal of Environmental Science and Technology, 2022, 19, 7993-8006.

[25]   Zhenmin Luo, Kai Wang, Xuhan Ding*, et al. Interaction mechanisms of short-chain fluorocarbon surfactants on metamorphic coal dust treatment: Insights from macroscopic experiments and molecular dynamics simulations. Fuel, 2026, 404, 136263.

二、代表性学术论文（中文）

[1]  罗振敏, 王凯, …丁旭涵. 我国井工煤矿降尘防爆及一体化防治技术展望, 煤炭科学技术, 2026, 54(1):163-191.

[2]  罗振敏, 王登飞, 丁旭涵*. 抑尘剂效果评价指标准确性分析.中国安全科学学报, 2022, 32(01):195-200.

[3]  罗振敏, 王晓悦, 丁旭涵*, 等. 碳氢-生物表面活性剂在电解质加载下的降尘及防爆性能研究. 中国安全生产科学技术, 2023, 19(S2):166-173.

三、专利

[1]  2021101226274，一种风洞模拟及环境适应性试验系统及方法

[2]  2023106540341，井下复合型降尘防爆一体化处理材料及其制备方法和应用

[3]  2016102039，Innovative Sample Preparation Apparatus and Method to Construct Cylindrical Specimen for Mechanical Properties Test of Sandy Materials

[4]  2017100394，An innovative apparatus for performing sink test to evaluate the wettability of powder materials

[5]  2017101847，Innovative Data Processing Method to Calibrate Mine Ventilation Network Models

[6]  2019100099，An innovative wind tunnel apparatus for evaluating haul road dust suppressants

四、科研获奖

[1]  中国煤炭工业协会，科技进步一等奖，2020

[2]  中国职业安全健康协会，科技进步一等奖，2025

实验室主要开展工业粉尘防治与爆炸防控、露天尾矿及道路降尘抑尘理论及技术、高性能环保防尘防爆新材料等相关领域的科学研究与材料研发工作，建设有合成改性材料研发平台和大型风洞模拟-环境适应性研究平台，拥有材料合成与分析、物理化学特性参数研究、力学性能研究、微观形貌辨识与多尺度表征等方面的完善科研仪器，部分设备见下图。