ZHANG Jiong

Professor

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Biography

Professor and doctoral supervisor at the School of Civil Engineering and Water Conservancy, Shandong University. Young Taishan Scholar of Shandong Province, Deputy Director of the Professional Committee of Sponge City Construction in Shandong Province, Executive Deputy Director of the Sponge City Demonstration Project Technical Research Center of Shandong Province, Executive Director of the Yellow River Basin Infrastructure Environment Low Impact Construction Technology Research Center, Leading Talent of the Innovation Team of the Quancheng Industry in Jinan, and recipient of the Shandong Civil Engineering and Architecture Science and Technology Outstanding Talent Award. 

Engaged in research on intelligent monitoring and detection of infrastructure, as well as prevention and control of permeable pavement blockage. Research results have been applied to sponge city construction. 

Principal investigator of multiple fund projects including the National Natural Science Foundation, Shandong Provincial Natural Science Foundation, Shandong Provincial Key Research and Development Project, Ministry of Education's Research Fund for Returned Overseas Scholars, and China Postdoctoral Fund. 

Published over 30 SCI/EI papers as first author or corresponding author; applied for more than 80 patents, with over 50 authorized; edited 9 provincial engineering construction standards, 2 group standards, and 4 provincial construction methods; received one second prize of National Scientific and Technological Progress Award, three first prizes and four second prizes of provincial and ministerial-level scientific and technological progress awards.

Education Background

• 2008-08-01-2012-03-01
  法国国立应用科学院
  Civil Engineering
• 2005-09-01-2008-06-01
  中国海洋大学
  环境工程
• 1999-09-01-2003-07-01
  山东建筑大学
  给水排水工程

Work Experience

• 2012-06 — Now
  山东大学
• 2008-08 — 2012-03
  法国国立应用科学院
• 2005-09 — 2008-06
  中国海洋大学
• 2003-07 — 2005-08
  中国海洋大学教务处

Publication

Research direction

1. 1. Intelligent Monitoring and Detection of Infrastructure 2. Permeable Pavement Porosity Blockage Prevention and Control Technology 3. Urban River Water Ecological Restoration

Papers

(1)张宇杰. Study on carbon footprint evaluation and carbon reduction path of cross-basin water transfer project - A case study of the Yellow River East diversion project in China .Environmental Impact Assessment Review .2024 (107509)

(2)王冀鹏. Estimation of Unsaturated Hydraulic Conductivity of Granular Soils from Particle Size Parameters .WATER .2019 ,11 (9)

(3)张中泽. A deep learning automatic classification method for clogging pervious pavement .CONSTRUCTION AND BUILDING MATERIALS .2021 (309):1

(4)张炯. Evaluation of in-situ permeability measurement methods for pervious concrete pavement .URBAN WATER JOURNAL .2022 (10.1080/1573062X.2022.2155852)

(5)张炯. <p>Numerical simulation on cleaning of clogged pervious concrete pavement</p> .Journal of Cleaner Production .2022 ,341

(6)金青. 暴雨作用下透水混凝土路面快速堵塞试验模拟 .《中国公路学报》 .2016 (Vol.29 No.10)

(7)崔新壮. In situ evaluation and analysis of improvement effects of pervious concrete pile on alluvial silt ground .Geomechanics and Geoengineering .2019 (Vol.16)

(8)崔新壮. Approximate Experimental Simulation of Clogging of Pervious Concrete Pile Induced by Soil Liquefaction during Earthquake .Journal of Testing and Evaluation .2021 ,49 (1):82

(9)张炯. 海绵城市建设的雨水径流控制效果评估——以济南市兴隆试点区为例 .中国水土保持 .2021 (2021（5）)

(10)张炯. Optimization of anti-clogging pervious pavement structure based on numerical evaluation .CONSTRUCTION AND BUILDING MATERIALS .2021 ,275

(11)崔新壮. X-ray CT based clogging analyses of pervious concrete pile by vibrating-sinking tube method .CONSTRUCTION AND BUILDING MATERIALS .2020 ,262

(12)彭程. A triple-thresholds pavement crack detection method leveraging random structured forest .CONSTRUCTION AND BUILDING MATERIALS .2020 ,263

(13)代朝霞. Numerical Investigation on Re-Oxygenation Efficiency of Stepped over Flow Weir in Urban Stream .Journal of Cleaner Production .2020 (258)

(14)胡念. A field performance evaluation of the periodic maintenance for pervious concrete pavement .Journal of Cleaner Production .2020 ,263

(15)胡念. A Field Performance Evaluation of the Periodic Maintenance for Pervious Concrete Pavement .Journal of Cleaner Production .2020 ,263 (263)

(16)张炯. Numerical Simulation of Consolidation Settlement of Pervious Concrete Pile Composite Foundation under Road Embankment .INTERNATIONAL JOURNAL OF GEOMECHANICS .2016 ,16 (1)

(17)张炯. Development and laboratory evaluation of a self-monitoring polymer geobelts .Measurement .2020 ,166

(18)张炯. 透水混凝土渗透性能及堵塞研究综述 .《混凝土》 .2019 (357)

(19)马国栋. Reply to the Comment on "Numerical study on pore clogging mechanism in pervious pavements" .Journal of Hydrology .2019 ,578

(20)JiPeng WANG. Estimation of Unsaturated Hydraulic Conductivity of Granular Soils from Particle Size Parameters .Water .2019

(21)ZHANG Jiong. Numerical study on pore clogging mechanism in pervious pavements .Journal of Hydrology .2018 ,56 :589

(22)崔新壮. Clogging of pervious concrete pile caused by soil piping: An approximate experimental study .Canadian Geotechnical Journal .2018 ,51 (7):999

(23)ZHANG Jiong. Experimental simulation study on pore clogging mechanism of porous pavement .Construction and Building Materials .2018 ,17 :803

(24)ZHANG Jiong. Dynamic Performance Characteristics of Pervious Concrete Pile Composite Foundations under Earthquake Loads .Journal of Performance of Constructed Facilities .2017 ,26 (5)

(25)崔新壮. Deterioration of Soil-Cement Piles in a Saltwater Region and Its Influence on the Settlement of Composite Foundations .Journal of Performance of Constructed Facilities .2016

(26)ZHANG Jiong. Numerical study on seepage flow in pervious concrete based on 3D CT imaging .Constr Build Mater .2018 ,161 :468

(27)ZHANG Jiong. Dynamic Performance Characteristics of Pervious Concrete Pile Composite Foundations under Earthquake Loads .Journal of Performance of Constructed Facilities .2017 ,31 (5)

(28)Cui, Xinzhuang. Experimental Study on the Relationship between Permeability and Strength of Pervious Concrete .Journal of Materials in Civil Engineering .2017 ,29 (11)

(29)崔新壮. Experimental simulation of rapid clogging process of pervious concrete pavement caused by storm water runoff .International Journal of Pavement engineering .2018 ,20 (1):24

(30)ZHANG Jiong. Numerical study on pore clogging mechanism in pervious pavements .Journal of Hydrology .2018 ,565 :589

(31)ZHANG Jiong. Experimental simulation study on pore clogging mechanism of porous pavement .CONSTRUCTION AND BUILDING MATERIALS .2018 ,187 :803

(32)Cui, X.. Analysis of Vehicle-Force-Induced Dynamic Pore Pressure in Saturated Pavement With LSPM Drainage Base .Journal of Testing and Evaluation .2017 ,45 (1):294

(33)ZHANG Jiong. Approximate simulation of storm water runoff over pervious pavement .International Journal of Pavement engineering .2017 ,18 (3):247

(34)Hou, Yue. Diffuse Interface Model to Investigate the Asphalt Concrete Cracking Subjected to Shear Loading at Low Temperature .JOURNAL OF COLD REGIONS ENGINEERING .2017 ,31 (2)

(35)崔新壮. Clogging of pervious concrete pile caused by soil piping: an approximate experimental study .Canadian Geotechnical Journal .2018 ,55 (7):999

(36)ZHANG Jiong. Sediment transport and pore clogging of a porous pavement under surface runoff .Road Materials and Pavement Design .2017 ,18 :240

(37)ZHANG Jiong. Numerical study on seepage flow in pervious concrete based on 3D CT imaging .CONSTRUCTION AND BUILDING MATERIALS .2018 ,161 :468

(38)ZHANG Jiong. 不同掺合料的透水混凝土冻融循环性能研究 .《硅酸盐通报》 .2017 ,36 (05):1480

(39)ZHANG Jiong. Laboratory simulation tests of effect of mechanical damage on moisture damage evolution in hot-mix asphalt pavement .International Journal of Pavement engineering .2015 ,16 (8):699

(40)ZHANG Jiong. Effects of specimen size and crack depth ratio on double-K fracture model parameters of roller compacted concrete .2014

(41)ZHANG Jiong. Experimental Study of the Effect of RCC Specimen Size and Crack Depth Ratio on Double-K Fracture Parameters .Journal of Testing and Evaluation .2015 ,43 (2):336

(42)ZHANG Jiong. Experimental Study on Pore Clogging of a Porous Pavement under Surface Runoff .2014 (246):138

(43)崔新壮. Deterioration of soil-cement pile in a saltwater region and its influence on settlement of composite foundation .Journal of Performance of Constructed Facilities .2016

(44)ZHANG Jiong. Improvement of Permeability Measurement Precision of Pervious Concrete .Journal of Testing and Evaluation .2015 ,43 (4):812

(45)ZHANG Jiong. Numerical Simulation of Consolidation Settlement of Pervious Concrete Pile Composite Foundation under Road Embankment .INTERNATIONAL JOURNAL OF GEOMECHANICS .2016

(46)ZHANG Jiong. Numerical study on seepage flow in pervious concrete based on 3D CT imaging .Constr Build Mater .2018 ,161 :468

(47)ZHANG Jiong. Dynamic Performance Characteristics of Pervious Concrete Pile Composite Foundations under Earthquake Loads .Journal of Performance of Constructed Facilities .2017 , 31 (5)

(48)Cui, Xinzhuang. Experimental Study on the Relationship between Permeability and Strength of Pervious Concrete .Journal of Materials in Civil Engineering .2017 , 29 (11)

(49)崔新壮. Experimental simulation of rapid clogging process of pervious concrete pavement caused by storm water runoff .International Journal of Pavement engineering .2018 ,20 (1):24

(50)ZHANG Jiong. Numerical study on pore clogging mechanism in pervious pavements .Journal of Hydrology .2018 ,565 :589

(51)ZHANG Jiong. Experimental simulation study on pore clogging mechanism of porous pavement .Construction and building materials .2018 ,187 :803

(52)Cui, X.. Analysis of Vehicle-Force-Induced Dynamic Pore Pressure in Saturated Pavement With LSPM Drainage Base .Journal of Testing and Evaluation .2017 , 45 (1):294

(53)ZHANG Jiong. Approximate simulation of storm water runoff over pervious pavement .International Journal of Pavement engineering .2017 , 18 (3):247

(54)Hou, Yue. Diffuse Interface Model to Investigate the Asphalt Concrete Cracking Subjected to Shear Loading at Low Temperature .JOURNAL OF COLD REGIONS ENGINEERING .2017 ,31 (2)

(55)崔新壮. Clogging of pervious concrete pile caused by soil piping: an approximate experimental study .Canadian Geotechnical Journal .2018 ,55 (7):999

(56)ZHANG Jiong. Sediment transport and pore clogging of a porous pavement under surface runoff .Road Materials and Pavement Design .2017 , 18 :240

(57)ZHANG Jiong. Numerical study on seepage flow in pervious concrete based on 3D CT imaging .Construction and building materials .2018 ,161 :468

(58)ZHANG Jiong. 不同掺合料的透水混凝土冻融循环性能研究 .《硅酸盐通报》 .2017 ,36 (05):1480

(59)崔新壮. Deterioration of soil-cement pile in a saltwater region and its influence on settlement of composite foundation .Journal of Performance of Constructed Facilities .2016

(60)崔新壮. Deterioration of soil-cement pile in a saltwater region and its influence on settlement of composite foundation .Journal of Performance of Constructed Facilities .2016

(61)ZHANG Jiong. Improvement of Permeability Measurement Precision of Pervious Concrete .Journal of Testing and Evaluation .2015 ,43 (4):812

(62)ZHANG Jiong. Numerical Simulation of Consolidation Settlement of Pervious Concrete Pile Composite Foundation under Road Embankment .INTERNATIONAL JOURNAL OF GEOMECHANICS .2016

(63)ZHANG Jiong. Experimental Study of the Effect of RCC Specimen Size and Crack Depth Ratio on Double-K Fracture Parameters .Journal of Testing and Evaluation .2015 ,43 (2):336

(64)ZHANG Jiong. Laboratory simulation tests of effect of mechanical damage on moisture damage evolution in hot-mix asphalt pavement .International Journal of Pavement engineering .2015 ,16 (8):699

(65)ZHANG Jiong. Effects of specimen size and crack depth ratio on double-K fracture model parameters of roller compacted concrete .Recent Developments in Evaluation of Pavements and Paving Materials，ASCE .2014

(66)ZHANG Jiong. Experimental Study on Pore Clogging of a Porous Pavement under Surface Runoff .Design, Analysis, and Asphalt Material Characterization for Road and Airfield Pavements, ASCE .2014 (246):138

Patents

1. 基于深度学习的透水路面堵塞无损检测方法及系统

2. 一种降雨参数可调和可变角度的边坡模拟试验系统及方法

3. 基于深度学习的透水路面堵塞无损检测方法及系统

4. 一种透水路面清堵养护设备及方法

5. 一种透水沥青路面渗透性衰减模型试验系统及方法

6. 201925174一种可监测边坡变形的土工格栅

7. 201925175一种将光纤光栅与碳纤维增强复合材料特性相结合的应变传感器

8. 一种传感型土工格栅结构

9. 滨海水泥土桩长期综合刚度预测方法

10. 初期雨水污染物在土壤中的时空分布物理模拟装置

11. 初期雨水污染物在土壤中的时空分布物理模拟装置及方法

12. 一种涂装导电相材料的传感型经编涤纶土工格栅制备方法

13. 透水性混凝土路面堵塞试验模拟装置与方法

14. 管涌土地基中透水性混凝桩堵塞试验装置与方法

15. 地震作用下透水性混凝土桩堵塞试验装置及方法

16. 咸水区水泥土桩全寿命周期内承载力预测方法

17. 无人机载的路面检测系统

18. 一种防治产生扬尘的清洁施工罩

19. 一种防治产生扬尘的清洁施工罩

20. 一种模拟透水混凝土层的试验装置及方法

21. 一种路面透水砖渗透系数测试仪

22. 径流作用下3D打印透水路面缩尺模拟装置及方法

23. 一种适用于透水路面的清洁养护车、方法及应用

24. 一种地埋式雨水曝气生物过滤系统

25. 一种地埋式雨水曝气生物过滤系统

26. 一种初期雨水处理系统

27. 一种初期雨水处理系统

28. 一种初期雨水旋流式固液分离设施

29. 一种初期雨水旋流式固液分离设施

30. 一种地埋式模块化拱形混凝土雨水收集存储系统

31. 一种地埋式模块化拱形混凝土雨水收集存储系统

32. 一种地埋式雨水净化一体化系统

33. 一种地埋式雨水净化一体化系统

34. 一种用于初期雨水过滤的雨水进水口拦污筛

35. 一种用于初期雨水过滤的雨水进水口拦污筛

36. 一种透水性混凝土及用于雨水收集的透水性混凝土管

37. 一种用于雨水收集的透水性混凝土管

38. 一种用于雨水收集的狭缝管

39. 一种用于雨水收集的穿孔管

40. 透水路面系统渗透系数原位测试仪及测试方法

41. 透水路面系统渗透系数原位测试仪

42. 一种防堵塞耐冻透水混凝土路面砖及制作方法

43. 一种具有除霾和净水功能的透水砖及制作方法

44. 城市透水路面结构及基于该透水路面的雨水收集利用系统

45. 城市透水路面结构及基于该透水路面的雨水收集利用系统

46. 初期雨水污染物在土壤中的时空分布物理模拟装置

47. 初期雨水污染物在土壤中的时空分布物理模拟装置及方法

48. 一种透水路面渗透系数原位检测仪

49. 一种适用于透水路面的清洁养护车、方法及应用

50. 利用废弃塑料制作的板块拼装式透水路基

51. 水渠破坏的线性监测系统

52. 水渠破坏的线性监测系统及方法

53. 阻值机敏格栅地基位移测试系统

54. 阻值机敏格栅地基位移测试系统及方法

55. 阻值机敏格栅地基沉降测试系统

56. 城市透水路面结构及基于该透水路面的雨水收集利用系统

57. 一种处理盐渍土地基的地聚合物及其制备方法与应用

58. 地聚合物透水混凝土材料、制备方法及应用

59. 径流作用下3D打印透水路面缩尺模拟装置及方法

60. 一种适用于透水路面的清洁养护车、方法及应用

61. 一种纯水机废水利用系统

62. 一种家用废水利用系统

63. 透水性混凝土路面堵塞试验模拟装置与方法

64. 一种透水桩联合真空预压地基处理方法

65. 基于不均匀沉降动态精确控制的地基处理方法

66. 一种地埋式雨水曝气生物过滤系统

67. 一种初期雨水处理系统

68. 一种初期雨水处理系统

69. 一种初期雨水旋流式固液分离设施

70. 一种初期雨水旋流式固液分离设施

71. 一种地埋式模块化拱形混凝土雨水收集存储系统

72. 一种地埋式模块化拱形混凝土雨水收集存储系统

73. 一种地埋式雨水净化一体化系统

74. 一种用于初期雨水过滤的雨水进水口拦污筛

75. 一种用于初期雨水过滤的雨水进水口拦污筛

76. 一种地聚合物注浆材料及其制备方法与应用

77. 一种处理盐渍土地基的地聚合物及其制备方法与应用

78. 地聚合物及其前体的制作方法、产品和应用

79. 地聚合物透水混凝土材料、制备方法及应用

80. 一种传感型土工格栅结构

81. 一种用于雨水收集的透水性混凝土管

82. 一种用于雨水收集的狭缝管

83. 一种用于雨水收集的穿孔管

84. 透水路面系统渗透系数原位测试仪及测试方法

85. 透水路面系统渗透系数原位测试仪

86. 城市透水路面结构及基于该透水路面的雨水收集利用系统

87. 基于导电聚合物拉敏效应的混凝土开裂监测方法

88. 地震作用下透水性混凝土桩堵塞试验装置及方法

89. 管涌土地基中透水性混凝桩堵塞试验装置与方法

90. 滨海水泥土桩长期综合刚度预测方法

91. 一种沥青路面结构层间断裂能的测试方法和装置

92. 一种沥青路面结构层间断裂能的测试方法和装置

93. 透水路面雨洪径流近似试验模拟装置

94. 径流作用下颗粒输运和透水路面堵塞近似模拟装置

95. 咸水区水泥土桩全寿命周期内承载力预测方法

96. 一种传感型塑料土工格栅的制备方法

97. 搅拌桩-透水性混凝土桩复合地基及其处理方法

98. 散体桩-透水性混凝土桩二元复合地基及处理方法

99. 搅拌桩-透水性混凝土桩复合地基

100. 散体桩-透水性混凝土桩新型二元复合地基

Research Projects

1. （包干项目）极端降雨条件下土质路基边坡水蚀破坏机理及病害精准检测与快速修复方法研究, 2025-01-01-2027-12-31

2. 冻融循环与复杂加载作用下川藏铁路路基的力学行为及服役性能演化规律研究, 2025-01-01-2028-12-31

3. 基于绿色低碳纳米疏水功能性材料(EL-NSM)的黄河下游地区路基湿度调控与强度保持技术研究, 2024-08-01-2027-07-31

4. 管线渗漏引发城市路面塌陷机理及智能探测方法研究, 2024-08-01-2024-12-31

5. 基于时域反射（TDR）的多年冻土区公路路基土体特征参数快速精确检测方法研究, 2024-08-23-2028-12-31

6. 青藏高原季冻区公路路基服役性能演化机理与韧性提升技术研究, 2024-01-01-2026-12-31

7. 深挖高填山区高速公路环境低影响和灾变韧性提升协同建造关键技术 , 2024-01-01-2026-07-31

8. 公路交通基础设施环境低影响建造关键技术-课题五, 2022-12-01-2025-11-30

9. 基于防塌式高分子防护排水异型材料的雨水收集利用系统, 2023-07-24-2024-12-31

10. 公路交通基础设施环境低影响建造关键技术, 2022-12-01-2025-11-30

11. “双碳”背景下山东省黄水东调工程的生态及减碳效益评估方法研究, 2022-05-27-2023-12-31

12. 落实"四水四定"，优化水资源配置研究, 2022-05-20-2022-12-20

13. 绿色智能建造和建筑工业化关键技术与成套装备, 2021-05-01-2024-12-31

14. 淤泥固化剂与软土原位固化智能成套设备和关键技术, 2022-03-21-2026-06-30

15. 气候变化背景下植被与土的相互作用, 2021-12-23-2024-12-31

16. （包干项目）基于深度学习的城市洪涝模拟与预报研究, 2021-12-23-2024-12-31

17. 海绵城市建设关键技术研发, 2021-07-08-2022-12-31

18. 基于螺纹钢-MPC复合增韧材料的空心板梁桥加固机理与设计优化研究, 2021-06-25-2022-12-30

19. 光伏路面结构层力学特性理论与试验研究, 2021-06-25-2022-12-30

20. 山东丘陵区高陡边坡柔性生态防护技术系统研究, 2021-06-18-2022-12-31

21. 透水铺装服役性能监测与评估, 2021-07-26-2022-12-31

22. 基于数字孪生理念的智慧水利建设关键技术研究, 2021-08-16-2025-12-31

23. 河道底泥综合利用技术研究, 2021-08-09-2023-12-31

24. 基于微观尺度毛细作用和交界面张力效应的非饱和土力学研究, 2020-11-04-2022-12-31

25. 耐久性高速公路绿色智能建造关键技术（一期）, 2020-12-25-2026-12-31

26. 商河智慧水务管理平台总体设计方案研究, 2021-03-15-2021-12-31

27. 智慧高速公路全寿命健康监测技术与系统研发, 2021-05-15-2023-12-31

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