个人简介
杨道龙,工学博士,教授,机械工程专业、电子信息专业硕士研究生导师。徐州市数字化设计与制造工程实验室主任,美国伊利诺伊大学访问学者,江苏省第六期“333高层次人才培养工程”第三层次培养对象,江苏省“双创计划”科技副总,江苏省青年科技工作者协会会员代表,江苏省机械工程学院青年工作委员会委员,《矿业科学学报》青年编委、《Scientific Data》客座编辑。
研究方向
▪智能矿山与功能表面流体力学
主讲课程
1.本科生课程:《流体力学》《现代设计方法》《机械设计》《机械设计(留学本科生)》
2.研究生课程:《机械工程基础(留学研究生)》
论文专著及专利:第一或通讯作者
1.基于气力输送技术的极薄煤层煤炭清洁输送充填研究, 中国矿业大学出版社, 2024.
2.High-hardness alloy substituted by low hardness during drilling and cutting experiments of conical pick. International Journal of Rock Mechanics & Mining Sciences, 2017, 95:73-78.
3.Particle size distribution of coal and gangue after impact-crush separation, Journal of Central South University, 2017, 24(6):1252-1262.
4.Impact-Crush Separation Characteristics of Coal and Gangue, International Journal of Coal Preparation and Utilization, 2018, 38(3): 127-134.
5.Analysis on vertical steering vibration of drum shearer cutting part, Journal of Central South University, 2018, 25(11): 2722-2731
6.Experiment and simulation analysis of the suspension behavior of large (5-30 mm) nonspherical particles in vertical pneumatic conveying, Powder Technology, 2019, 354:442-455
7.Experimental study on the injection performance of the gas-solid injector for large coal particles, Powder Technology, 2020, 364: 879-888.
8.Simulation study on interaction coefficient of DEM in non-spherical large size (5-30 mm) coal particles, Particuology, 2020, 53:142-153.
9.Effect of swirling flow on large coal particle pneumatic conveying, Powder Technology, 2020, 362: 745-758.
10.Simulation study on the injection performance of the gas-solid injectors for large particles, Powder Technology, 2022, 409: 117819.
11.The shape parameters of coal and gangue particles derived from 3D scanning, Scientific Data, 2023, 10: 107.
12.Measurement method and experimental study on the intrusion resistance of coal slurry/wet pulverized coal, International Journal of Coal Preparation and Utilization, 2024, 44(3): 309-326.
13.Study on the water absorption characteristics of anthracite particles after immersion in water. ACS Omega, 2024, 9:28841-28851.
14.A dataset on the influence of large particle gas–solid injector structural parameters on injection performance. Data in Brief, 2024, 56:110784.
15.Experimental study on the effect of hydrophilic/hydrophobic SiO2 nanofluids on the wettability of coal samples with different surface roughnesses. Fuel, 2025, 381: 133461.
16.Study on the anti-corrosion performance of armored superhydrophobic surface in a coal-rich environment. Materials Today Communications, 2025, 43:111613.
17.Optimization of biomimetic weave parameters using response surface methodology to improve tribological performance of HSLT-Q235.Applied Surface Science,2025,696:162894.
18.Study of the effect of interaction coefficients on dynamic stacking behaviour under various particle shapes. Powder Technology, 2025, 464:121255.
19.Research on directional and minimal loss transport of pumpless droplets on superhydrophobic surface in humid coal dust environments. Materials Today Communications, 2025, 49: 114040.
20.Influence of atomization characteristics of hydrophilic SiO2 nanofluid on fine coal dust suppression performance. Fuel, 2026, 417: 138544.
21.Recent patents on gangue pneumatic filling for coal auger mining method, Recent Patents on Mechanical Engineering, 2018, 11(01):31-40.
22.Recent patents on pressurization and dedusting for pneumatic conveying, Recent Patents on Mechanical Engineering, 2018, 11(3): 180-189.
23.Recent patents on boiler burners for natural gas, Recent Patents on Mechanical Engineering, 2019,12(4): 55-64.
24.Recent patents on roll crushing mills for selective crushing of coal and gangue, Recent Patents on Mechanical Engineering, 2020, 13(1): 2-12.
25.Recent patents on thin coal seam mining equipment. Recent Patents on Mechanical Engineering, 2020, 13(2): 99-108.
26.Recent patents on concrete pavers of coalmines. Recent Patents on Mechanical Engineering, 2022, 16(4): e151021197259.
27.Recent Patents on Long Distance Pneumatic Conveying Technology. Recent Patents on Engineering, 2024, 18: e140923221046.
28.Recent patents on particle wettability measurement and improvement. Recent Patents on Engineering, 2024, 18: e150923221107.
29.Progress in Superhydrophobic Structure Optimisation and Performance Enhancement: A Review. Current Materials Science, 2025, 18(1): 2-17.
30.Recent patents on device or system innovation in pneumatic conveying. Recent Patents on Engineering. 2025, 19(4): e300424229555.
31.Recent patents on closed coal storage systems and research of similar experimental. Recent Patents on Engineering. 2025, 19(8): e020724231488.
32.Superhydrophobic materials for self-cleaning applications: a review. Current Materials Science. 2025, 18(6): 669-687.
33.Recent Patents on Pipeline Detection and Cleaning Electronic Devices. Recent Advances in Electrical & Electronic Engineering, 2025, 18, 1739-1753.
34.钻采法中煤矸石气力充填系统的模拟实验研究.矿业科学学报,2025,10(02):248-269.
35.High-efficiency dust removal system and method of pneumatic conveying pipe,2021.01.07,澳大利亚发明专利,AU2018417115.
36.Unblocking system and method of pneumatic conveying pipeline,2021.06.24,澳大利亚发明专利,AU2018417114.
37.System and method for pneumatic conveying with accurate pressurization,2021.01.14,澳大利亚发明专利,AU2018418036.
38.块状颗粒碰撞性能试验台,2018.08.28,中国,ZL201510811806.3.
39.一种电机内置式煤矸对辊破碎机,2019.01.29,中国,ZL201710364764.2.
40.一种轻型节能检漏式天然气锅炉燃烧器,2019.01.02,中国,ZL201710373899.5.
41.一种能测量截割温度的刀型截齿,2020.02.28,中国,ZL 201710845176.0.
42.一种气力输送管内高效除尘系统及方法,2020.09.04,中国,ZL201810336873.8.
43.一种矿用单轨吊牵引的微型混凝土摊铺设备及工艺,2022.02.01,中国,ZL202011492101.7.
44.一种矿用单轨吊驱动的小型混凝土摊铺设备及工艺,2022.04.29,中国,ZL202011497080.8.
45.一种矿用智能混凝土路面摊铺设备及其摊铺工艺,2022.05.17,中国,ZL202011492079.6.
46. 一种液压式分段辊筒煤矸分离机及分离方法,2023.06.30,中国,ZL202011318212.6.
47.一种气力输送管道堵塞疏通系统及方法,2024.01.23,中国,ZL201810336872.3.
48.一种气力输送精准增压系统及方法,2024.01.02,中国,ZL 201810337000.9.
49. 球形齿轮减速器,2024.05.28,中国,ZL 202011497055.X.
50.一种升降式混合燃料锅炉燃烧器及工艺,2024.12.24,中国,ZL 201911059173.X.
51.一种气力输送分离器及分离方法,2025.01.03,中国,ZL 202011332540.1.
52.一种水平管道防沉降装置、拆装方法及物料输送系统,2025.08.01,中国,ZL 202211316752.X
53.一种煤炭颗粒气力输送储料系统及其使用方法,2026.01.27,中国,ZL 202311756275.3.
荣誉获奖
1.杨道龙(3/10); 细粉物料绿色高效气力输送关键技术及应用, 河南省人民政府, 科学进步奖, 二等奖, 2023.
2.杨道龙(3/10); 细粉物料绿色高效气力输送关键技术及应用, 河南省教育厅, 科技成果奖, 一等奖, 2023.
3.杨道龙(1/10); 大粒径煤矸颗粒气力输送理论与极薄煤层气力充填技术, 淮海科学技术奖委员会, 淮海科学技术奖, 二等奖, 2022.
4.杨道龙(1/7); 大粒径煤碳颗粒气力输送理论与技术, 江苏省机械工程学会, 科学技术奖,二等奖, 2024.
5.杨道龙(1/3); 5-30mm 大粒径垂直气力输送中非球形颗粒悬浮行为实验与仿真分析, 徐州市人民政府, 2018-2019年度徐州市自然科学优秀学术论文, 一等奖, 2020.
6.杨道龙(2/3); 采煤机截割系统可靠传动理论及高效截割方法, 淮海科学技术奖委员会, 淮海科学技术奖, 三等奖, 2021.
7.杨道龙(2/10); 高可靠采煤机绿色高效截割及故障容错控制基础理论, 中关村绿色矿山产业联盟, 绿色矿山科学技术奖, 三等奖, 2021.
8.杨道龙(5/9); 基于粉尘暴露致炎症微环境及组织异常修复的尘肺纤维化关键诊治技术应用, 徐州市医学会, 徐州市医学会医学科学奖, 一等奖, 2025.
9.杨道龙(1/2); 《CFD仿真软件在流体力学中的应用探讨》, 江苏省教育科学研究院/现代教育技术研究所, 2022年度江苏省教师现代教育技术应用作品大赛, 教育技术应用论文普通本科院校组, 三等奖,2022.
10.杨道龙(1/1); 徐州市发明协会, 科技人才奖, 2023.
11.杨道龙(1/1); 江苏省机械工程学会, 科学技术奖优秀青年人才奖, 2024.
