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徐东海  
研究领域(方向)

生物质水热转化、煤/生物质热解气化、金属材料高温腐蚀与防控、污泥/高浓难降解有机废水处理、燃烧及污染物控制、换热器污垢防控、低温余热回收利用、氢能制备、多相流传质传热。

个人及工作简历

教育背景

2001.09~2005.06:武汉理工大学     热能与动力工程    本科、学士;

2005.09~2007.01:西安交通大学     热能工程       研究生、硕士;

2007.03~2011.06:西安交通大学     热能工程       研究生、博士。

工作经历

2011.07~2014.11:西安交通大学能源与动力工程学院,讲师;

2013.08~2014.08:美国密歇根大学(安娜堡)化学工程专业访问学者;

2013.04~2016.11:西安交通大学核科学与技术学科博士后;

2014.12~2019.12:西安交通大学能源与动力工程学院,副教授;

2016.01~2016.06:咸阳市发改委副主任(挂职);

2016.06~至今:西安交通大学能源与动力工程学院,博士生导师;

2020.01~至今:西安交通大学能源与动力工程学院,教授。

科研项目
先后主持国家和省部级纵向课题10余项,包括国家重点研发计划政府间重点专项项目(首席)、国家自然科学基金(3项)、国家国防科技工业局课题、国家重点研发计划子课题(2项)、教育部博士点基金、中国博士后基金一等资助、中国博士后基金特等资助、陕西省自然科学联合基金、陕西省博士后基金特等资助等。主持中央高校基本科研业务费(自由探索类、重点研发培育类、学科交叉合作类、青年跟踪B类、青年创新团队类、青年拔尖A类)以及多项企业课题等。
学术及科研成果、专利、论文

一、代表性论著

先后发表论文200余篇,其中SCI论文170余篇(第一/通讯作者81篇,代表性论文有Renew Sust Energ Rev、Chem Eng J、Grean chem、Water Res、Appl Energ、Corros Sci、AIChE J等),ESI论文8篇,被引近5000次,个人H因子35,出版中英文著作4部,出版中英文教材5部。获得中国发明专利58项(第1发明人21项,第2发明人12项),美国发明专利2项,核心参与多项专利转让或实施许可。

1)论文(第一/通讯作者)

[1]      Donghai Xu, Shuzhong Wang*, Xin Hu, et al., Catalytic gasification of glycine and glycerol in supercritical water[J]. International Journal of Hydrogen Energy. 2009, 34 (13): 5357-5364. (IF: 7.2)

[2]      Donghai Xu*, Shuzhong Wang*, Xingying Tang, et al., Influence of oxidation coefficient on product properties in sewage sludge treatment by supercritical water[J]. International Journal of Hydrogen Energy. 2013, 38 (4): 1850-1858. (IF: 7.2)

[3]      Donghai Xu, Savage PE*. Characterization of biocrudes recovered with and without solvent after hydrothermal liquefaction of algae[J]. Algal Research-Biomass Biofuels and Bioproducts. 2014, 6: 1-7. (IF: 5.5)

[4]      Donghai Xu*, Chuanbao Huang, Shuzhong Wang*, et al., Salt deposition problems in supercritical water oxidation[J]. Chemical Engineering Journal. 2015, 279: 1010-1022. (IF:15.1)

[5]      Donghai Xu, Phillip E. Savage*. Effect of reaction time and algae loading on water-soluble and insoluble biocrude fractions from hydrothermal liquefaction of algae[J]. Algal Research-Biomass Biofuels and Bioproducts. 2015, 7, (12):60-67. (IF: 5.5)

[6]      Donghai Xu*, Chuanbao Huang, Shuzhong Wang*, et al., Characteristics analysis of water film in transpiring wall reactor[J]. International Journal of Heat and Mass Transfer. 2016, 100: 559-565. (IF: 5.3)

[7]      Donghai Xu*, Zhijiang Ma, Shuwei Guo, et al., Corrosion characteristics of 316L as transpiring wall material in supercritical water oxidation of sewage sludge[J]. International Journal of Hydrogen Energy. 2017, 42, 9819-9828. (IF: 7.2)

[8]      Donghai Xu, Phillip E. Savage*. Effect of temperature, water loading, and Ru/C catalyst on water-insoluble and water-soluble biocrude fractions from hydrothermal liquefaction of algae[J]. Bioresource Technology. 2017, 239:1-6. (IF: 11.4)

[9]      Donghai Xu*, Shuwei Guo, Zhen He, et al., Simulation of a transpiring wall reactor for supercritical water oxidation: Characteristics of water film[J]. Industrial & Engineering Chemistry Research. 2018, 57, (4): 1307-1318. (IF: 4.2)

[10]   Donghai Xu*, Phillip E Savage. Supercritical water upgrading of water-insoluble and water-soluble biocrudes from hydrothermal liquefaction of nannochloropsis microalgae[J]. Journal of Supercritical Fluids. 2018, (133): 683-689. (IF: 4.1)

[11]   Donghai Xu*, Guike Lin, Liang Liu, et al., Comprehensive evaluation on product characteristics of fast hydrothermal liquefaction of sewage sludge at different temperatures[J]. Energy. 2018, 159: 686-695. (IF:8.9)

[12]   Donghai Xu*, Guike Lin, Shuwei Guo, et al., Catalytic hydrothermal liquefaction of algae and upgrading of biocrude: A critical review[J]. Renewable anaiews. 2018 (97): 103-118. (IF:16.9)

[13]   Donghai Xu*, Yang Wang, Guike Lin, et al., Co-hydrothermal liquefaction of microalgae and sewage sludge in subcritical water: Ash effects on bio-oil production[J]. Renewable Energy. 2019, 138: 1143-1151. (IF: 8.7)

[14]   Donghai Xu*, Liang Liu, Zhen He, et al., Hydrothermal upgrading of water-insoluble algal biocrude over γ-Al2O3 supported multi-metallic catalysts[J]. Journal of Analytical and Applied Pyrolysis. 2019, 140: 188-194 (IF: 6.0)

[15]   Donghai Xu*, Shuwei Guo, Liang Liu, et al., Heterogeneous catalytic effects on the characteristics of water-soluble and water-insoluble biocrudes in chlorella hydrothermal liquefaction[J]. Applied Energy. 2019, 243: 165-174. (IF:11.2)

[16]   Donghai Xu*, Liang Liu, Ning Wei, et al., Catalytic supercritical water gasification of aqueous phase directly derived from microalgae hydrothermal liquefaction[J]. International Journal of Hydrogen Energy, 2019, 44 (48): 26181-26192. (IF: 7.2)

[17]   Donghai Xu*, Shuwei Guo, Zhijiang Ma, et al., Corrosion characteristic comparisons of ZrO2-, TiO2-coated and uncoated 316 stainless steel samples in supercritical water oxidation of municipal sludge. Journal of Supercritical Fluids 155 (2020) 104663. (IF: 4.1)

[18]   Donghai Xu*, Ning Wei, Yu Liang, et al., Biocrude Upgrading in Different Solvents after Microalgae Hydrothermal Liquefaction[J]. Industrial & Engineering Chemistry Research. 2021 60: 7966-7974. (IF: 4.2).

[19]   Zhen He1, Donghai Xu1*, Liang Liu, et al., Product characterization of multi-temperature steps of hydrothermal liquefaction of chlorella microalgae[J]. Algal Research. 2018, 33: 8-15. (IF:5.5)

[20]   Shuwei Guo1, Donghai Xu1*, Ning Wei, et al., Oxidation processes and involved chemical reactions of corrosion-resistant alloys in supercritical water. Industrial & Engineering Chemistry Research.2020, 59, 10278−10288. (IF:4.2)

[21]   Shuwei Guo1, Donghai Xu1*, Yu Liang, et al., Corrosion Characteristics of Typical Ni−Cr Alloys and Ni−Cr−Mo Alloys in Supercritical Water: A Review. Industrial & Engineering Chemistry Research. 2020, 59, 42, 18727–18739. (IF:4.2)

[22]   Shuwei Guo1, Donghai Xu1*, Yanhui Li, et al., Corrosion characteristics and mechanisms of typical Ni-based corrosion-resistant alloys in sub-and supercritical water. The Journal of Supercritical Fluids 170 (2020) 105138. (IF :4.1)

[23]   Ning Wei1, Donghai Xu1, Botian Hao, et al., Chemical reactions of organic compounds in supercritical water gasification and oxidation. Water Research 190 (2021) 116634. (IF :13.3) .

[24]   Botian Hao1, Donghai Xu1*, Guanyu Jiang, et al., Chemical reactions in the hydrothermal liquefaction of biomass and in the catalytic hydrogenation upgrading of biocrude. Green Chemistry, 2021 (IF :9.8).

[25]   Yu Liang, Donghai Xu*, Peng Feng, et al., Municipal sewage sludge incineration and its air pollutant control. Journal of Cleaner Production, 2021 (IF :11.1) .

[26]   Guanyu Jiang, Donghai Xu*, Peng Feng, et al.,Corrosion of FeCrAl alloys used as fuel cladding in nuclear reactors. Journal of Alloys and Compounds, 869 (2021) 159235 (IF: 6.2).

[27]   Guanyu Jiang, Donghai Xu*, Botian Hao, et al., Thermochemical methods for the treatment of municipal sludge[J]. Journal of Cleaner Production. 2021 311: 127811.(IF : 11.1).

[28]   Shuwei Guo, Donghai Xu*, Guanyu Jiang, et al., High-temperature corrosion of Fe-Ni-based alloy HR6W, Ni-based alloys Haynes 282 and Inconel 740 in supercritical water at 450 °C and 25 MPa[J]. Journal of Alloys and Compounds. 2021 878: 160350. (IF: 6.2).

[29]   Donghai Xu1*, Shuwei Guo1, Guanyu Jiang, et al.,Superior protective performance of Ni–Cr coating on stainless steel 316L in pure, oxygenated and chlorinated supercritical water. Surface & Coatings Technology 432 (2022) 128029 (IF: 5.4).

[30]   Donghai Xu*, Peng Feng, Yang Wang, et al., Effects of structural parameters on water film properties of transpiring wall reactor.  AIChE J. 2022, 68, e17472. (IF: 3.7).

[31]   Shuwei Guo1, Donghai Xu1*, Guanyu Jiang, et al., Sulfate corrosion and phosphate passivation of Ni-based alloy in supercritical water. The Journal of Supercritical Fluids, 2022.3 (IF: 4.1).

[32]   Zhen He, Donghai Xu*, Shuzhong Wang, et al., Catalytic upgrading of water-soluble biocrude from hydrothermal liquefaction of chlorella [J]. Energy & Fuels. 2018, 32: 1893-1899. (IF: 5.3).

[33]   ShuweiGuo, DonghaiXu*, YuLiang, et al., Corrosion characterization of ZrO2 and TiO2 ceramic coatings via air plasma spraying on 316 stainless steel in oxygenated sub-and supercritical water. The Journal of Supercritical Fluids, 157(2020), 104716. (IF: 4.1)

[34]   Peng Feng1, Yang Wang1, Donghai Xu*, et al., Effect of operating parameters on water film properties of transpiring wall reactor[J]. The Journal of Supercritical Fluids. 2021 176: 105304. (IF: 4.1).

[35]   Shuwei Guo, Donghai Xu*, Guanyu Jiang, et al., Corrosion behavior and mechanism of Ni-based alloys Hastelloy C2000 and Inconel 740 in chloride-containing supercritical water oxidation. Journal of Alloys and Compounds, 2022, 164452. (IF: 6.2).

[36]   Ma Mingyan, Liang Yu, Xu Donghai*, et al., Gas emission characteristics of sewage sludge co-combustion with coal: Effect of oxygen atmosphere and feedstock mixing ratio [J]. Fuel. 2022. 322:124102. (IF: 7.4).

[37]   Wanpeng Yang, Donghai Xu*, Han Wang, et al., Supercritical water oxidation of coal pyrolysis wastewater: Effects of main operating parameters and reaction pathways of 2-(N-Morpholino) ethanesulfonic acid. Fuel, 2022, 322:124261(IF: 7.4).

[38]   Guanyu Jiang, Donghai Xu*, Shuwei Guo, et al., Corrosion behavior and mechanisms of Al2O3 and Mo coated Zircaloy-4 in high-temperature lithiated water [J]. Corrosion Science. 2022, 201, 110270. (IF: 8.6).

[39]   Guanyu Jiang, Donghai Xu*, Yu Wang, et al., Corrosion behavior of FeCrAl alloy and NiCr coated Zircaloy-4 in hydrogenated water [J]. International Journal of Hydrogen Energy. 2022, 47: 16698-16709. (IF: 7.2).

[40]   Ning Wei, Donghai Xu*, Botian Hao, et al., Partial oxidation gasification kinetics of indole in supercritical water for hydrogen production. Fuel Processing Technology, 2022.6 (IF: 7.5).

[41]   Botian Hao, Wanpeng Yang, Yu Wang, Donghai Xu*, et al., Hydrothermal liquefaction of municipal sludge: coupling effects of temperature and time on nitrogen migration. Journal of Analytical and Applied Pyrolysis 165 (2022) 105562 (IF: 6.0).

[42]   Botian Hao, Wei Ning, Donghai Xu*, et al., Wang.Catalytic gasification of indole in supercritical water with non-noble bimetallic catalysts. Biomass and Bioenergy. 2022,106601 (IF: 6.0).

[43]   Wanpeng Yang, Donghai Xu*, Guanyu Jiang, et al., Inorganic salts crystallization and deposition characteristics and mechanisms in supercritical water. Desalination 540 (2022) 116016 (IF:9.9)

[44]   Botian Hao, Donghai Xu*, Yu Wang, et al., Catalytic hydrothermal liquefaction of municipal sludge for biocrude production over non-noble bimetallic catalyst in ethanol solvent. Fuel 331 (2023) 125812. (IF: 7.4)

[45]   Shaoyan Sun, Donghai Xu*, Ya Wei, et al., Influence laws of operating parameters on coal pyrolysis characteristics. Journal of Analytical and Applied Pyrolysis 167 (2022) 105684 (IF: 6.0)

[46]   Peng Feng, Wanpeng Yang, Donghai Xu*, et al., Characteristics, mechanisms and measurement methods of dissolution and deposition of inorganic salts in sub-/supercritical water. Water Research 225 (2022) 119167. (IF:13.3)

[47]   Wanpeng Yang, Donghai Xu*, Yunfei Diao, et al., Molecular dynamics simulations on K2SO4 nucleation in supercritical water. Journal of Molecular Liquids 367 (2022) 120565. (IF: 6.0)

[48]   Guanyu Jiang, Donghai Xu*, Lu Liu, et al., Oxidation of typical Zr-1 Nb alloy in high-temperature air under 700–900 C. Corrosion Science 209 (2022) 110701. (IF: 8.6)

[49]   Mingyan Ma, Donghai Xu*, Youwei Zhi, et al., Co-pyrolysis re-use of sludge and biomass waste: Development, kinetics, synergistic mechanism and industrialization. Journal of Analytical and Applied Pyrolysis 168 (2022) 105746. (IF : 6.0)

[50]   Guanyu Jiang, Donghai Xu*, Youwei Zhi, et al., High-temperature oxidation of sprayed alumina and zirconium‑yttrium-based coatings on Zircaloy-4 in air and oxygen: Investigation on microstructure evolution and phase changes. Surface & Coatings Technology 449 (2022) 128994. (IF : 5.4)

[51]   Shaoyan Sun, Donghai Xu*, Yu Liang, et al., Effect of temperature, oxygen concentration, and CaO addition on SO2 and NOx emissions during oxygen-fuel combustion of municipal sludge. Journal of the Energy Institute, 105 (2022) 424–432. (IF : 5.7)

[52]   Peng Feng, Donghai Xu *, Mingyan Ma, et al., Effects of key parameters on water film properties and temperature field distribution inside transpiring wall reactor. The Journal of Supercritical Fluids 192 (2023) 105811. (IF:4.1)

[53]   Guanyu Jiang1, Lu Liu1, Donghai Xu*, et al., Waterside corrosion of M5 alloy in lithiated/borated and supercritical water: influences of aqueous environments, The Journal of Supercritical Fluids 193 (2023) 105828. (IF:4.1)

[54]   Botian Hao, Donghai Xu*, Ya Wei, et al., Mathematical models application in optimization of hydrothermal liquefaction of biomass. Fuel Processing Technology 243 (2023) 107673. (IF : 7.5)

[55]   Guanyu Jiang, Donghai Xu*, Ya Wei, et al., Corrosion of Zircaloy-4, Zr-1Nb and FeCrAl alloys in deaerated water at 330 °C and 14 MPa: Superior corrosion resistance and corrosion mechanism of FeCrAl alloy by experiments and molecular dynamics simulations, Chemical Engineering Journal, 2023, 462(142143) (IF:15.1)

[56]   Guanyu Jiang, Donghai Xu*, Huanteng Liu, et al., Insights into oxidation and nitridation of alumina-forming FeCrAl alloy after supercritical water exposure: Effect of pre-corrosion on high-temperature damage behavior. The Journal of Supercritical Fluids,2023.6.6 (IF: 4.1)

[57]   Guanyu Jiang, Donghai Xu*, Huanteng Liu et al., Hydrothermal corrosion of Cr–C and Ti-Al-C carbide ceramic coatings on Zircaloy: Corrosion behavior, mechanism and influence of water exposure on pressurized steam oxidation resistance. Surface & Coatings Technology 467 (2023) 129723. (IF: 5.4)

[58]   Mingyan Ma, Donghai Xu*, Xuehan Gong, et al., Municipal sewage sludge product recirculation catalytic pyrolysis mechanism from a kinetic perspective. Renewable Energy 215 (2023) 118955. (IF: 8.7)

[59]   Youwei Zhi, Donghai Xu*, Guanyu Jiang, et al., A review of hydrothermal carbonization of municipal sludge: Process conditions, physicochemical properties, methods coupling, energy balances and life cycle analyses. Fuel Processing Technology 254 (2024) 107943. (IF: 7.5)

[60]   Ya Wei, Donghai Xu*, Mingxin Xu, et al., Hydrothermal liquefaction of municipal sludge and its products applications. Science of the Total Environment 908 (2024) 168177. (IF: 9.8)

[61]   Xuehan Gong, Donghai Xu*, Yunfei Diao et al., Nitrogen removal mechanisms and effect enhancement of N-containing organic matters in supercritical water. Journal of Cleaner Production 434 (2024) 139974 (IF: 11.1)

[62]   Guanyu Jiang, Donghai Xu*, Junhao Liu, et al., Corrosion protection and failure mechanism of ZrO2 coating on zirconium alloy Zry-4 under varied LiOH concentrations in lithiated water at 360 °C/18.5 MPa, Applied Surface Science 650 (2024) 159173. (IF: 6.7)

[63]   Youwei Zhi, Yu Wang, Donghai Xu*, et al., Phosphorus recovery from hydrothermal conversion products of sewage sludge through wet-chemical methods. Process Safety and Environmental Protection 182 (2024) 1024–1034. (IF: 7.8)

[64]   Yunfei Diao, Xuehan Gong, Donghai Xu*, et al., From culture, harvest to pretreatment of microalgae and its high-value utilization. Algal Research, 2024 78:103405. (IF: 5.5)

[65]   Bing He, Peng Feng, Huanteng Liu, Lijie Yang, Donghai Xu*, Qingshan Liu, Pan Wang. Molecular dynamics study on the nucleation characteristics of mixed Na2SO4/K2SO4 solution in supercritical water. Industrial & Engineering Chemistry Research,2024. (IF: 4.3)

[66]   Tonggui Liu, Weijin Zhang, Donghai Xu*, et al., Predicting co-liquefaction bio-oil of sewage sludge and algal biomass via machine learning with experimental optimization: Focus on yield, nitrogen content, and energy recovery rate. Science of The Total Environment, 2024. 920: p. 170779. (IF: 9.8)

[67]   Ya Wei, Donghai Xu*, Mingxin Xu, et al., Catalytic hydrothermal liquefaction of municipal sludge by hydrochar to produce biocrude. Journal of the Energy Institute, 2024,101562. (IF: 5.7)

[68]   Mingxin Xu, Yu Wang, Tonggui Liu, Lijie Yang, Huanteng Liu, Donghai Xu*, Evaluation on phosphorus extraction potential in hydrochar obtained from hydrothermal liquefaction of sewage sludge. Biomass and Bioenergy, 2024,107121. (IF: 6.0)

[69]   Youwei Zhi, Donghai Xu*, Shaoyan Sun, et al., Co-pyrolysis of low-rank coal and rice stalk: A comprehensive study on product distributions, product properties, and synergistic effects, Journal of Analytical and Applied Pyrolysis,2024,106434. (IF: 6.0)

[70]   Guanyu Jiang, Donghai Xu*, Junhao Liu, et al., Corrosion protection and failure mechanism of ZrO2 coating on zirconium alloy Zry-4 under varied LiOH concentrations in lithiated water at 360 °C/18.5 MPa. Applied Surface Science,2024,159173. (IF: 6.7)

[71]   ……

2)发明专利(第一发明人)

[1]      徐东海, 冯鹏, 杨万鹏等,一种高温高压水中收集水溶性无机盐沉积颗粒的连续式系统及方法,发明专利ZL202211058417.4,授权时间:2024.01;

[2]      徐东海,郝博天,李赟等,一种吲哚及其衍生物水热转化制气体燃料的 Ni-Cu/AC催化剂及其制备方法,发明专利ZL202211182178.3,授权时间:2023.10 ;

[3]      徐东海,姜观宇,郝博天等,一种催化热水解辅助水热碳化的污泥处置系统及方法,发明专利ZL202110374307.8,授权时间:2023.03;

[4]      徐东海,姜观宇,郭树炜等,一种提高Inconel625合金在含氧超临界水中耐腐蚀性的方法,发明专利ZL202111547458.5,授权时间:2022.12;

[5]      徐东海,姜观宇,刘璐等,一种低温碳化辅助两段式热解的污泥热化学处置系统及方法,发明专利ZL202110267407.0,授权时间:2021.03;

[6]      徐东海; 王瀚; 郭树炜等,一种高浓度含氮有机废水超临界水氧化的脱氮装置,发明专利ZL202011141879.3,授权时间:2020.10;

[7]      徐东海,魏宁,汪洋等,一种超临界水氧化蒸发壁式反应器,发明专ZL202010675971.1,授权时间:2020.07;

[8]      徐东海,张誉川,李彬乾等,一种基于超声空化效应的衣物清洗装置,发明专利ZL 201911419403.9,授权时间:2019.12;

[9]      徐东海,郭树炜,梁钰等,一种耐含氯亚临界水腐蚀的磷酸盐钝化处理方法,发明专利ZL201910663029.0,授权时间:2019.07;

[10]   徐东海,郭树炜,魏宁等,一种大气等离子喷涂制备耐超临界水腐蚀的陶瓷涂层的方法,发明专利ZL201910662051.3,授权时间:2019.07;

[11]   徐东海,林桂柯,王树众等,一种微藻液化油的连续式催化提质反应系统,发明专利ZL201710167124.6,授权时间:2018.12;

[12]   徐东海,汪洋,郭树炜等,一种用于优化调节超临界水氧化蒸发壁式反应器水膜厚度的方法,发明专利ZL2018107985479,授权时间:2018.10;

[13]   徐东海,汪洋,郭树炜等,一种用于调节超临界水氧化蒸发壁式反应器水膜覆盖率的系统及方法,发明专利ZL2018107991732,授权时间:2018.07;

[14]   徐东海,柳亮,郭树炜等,湿生物质水热液化提取不同类生物原油的分离系统及方法,发明专利ZL2018106306998,授权时间:2018.06;

[15]   徐东海,马志江,汪洋等,一种城市污泥超临界水氧化分段氧化处理系统及工艺,发明专利ZL 201810630035.1,授权时间:2018.06;

[16]   徐东海,柳亮,郭树炜等,一种湿生物质水热液化制取生物油的反应系统及方法,发明专利ZL 201810630691.1,授权时间:2018.06;

[17]   徐东海,林桂柯,王树众等,一种微藻水热液化制取生物油的连续式反应系统及方法,发明专利ZL2016104625222,授权时间:2017.09;

[18]   ……

二、奖励荣誉

[1]      2023.11第五届全国高校混合式教学设计创新大赛优胜奖

[2]      2023.11西安交通大学产教融合之星指导老师

[3]      2023.08第九届中国国际“互联网+”大学生创新创业大赛优秀创新创业导师

[4]      2023.08国家级青年人才

[5]      2023.08指导学生获第九届中国国际“互联网+”大学生创新创业大赛陕西省赛区金奖

[6]      2023.07首届湖南省博士后创新创业大赛优胜奖

[7]      2023.07 指导研究生杨万鹏荣获西安交通大学优秀毕业生、西安交通大学优秀硕士论文

[8]      2023.05第二批国家线上线下混合式一流本科课程

[9]      2023.04第五批西安交通大学校级后备教学名师

[10]   2023.03西安交通大学就业创业工作优秀指导教师

[11]   2022.11指导学生荣获第八届中国国际“互联网+”大学生创新创业大赛国际项目铜奖

[12]   2022.09西安市先进生物质能技术国际科技合作基地主任

[13]   2021.12全国第二十届输出版优秀图书

[14]   2021.12西安交通大学优秀通识课程论文及教学成果“优秀指导教师”

[15]   2021.11西安交通大学优秀通识课程论文及教学成果优秀指导教师

[16]   2021.11指导本科生课程论文荣获西安交通大学优秀通识课程论文三等奖

[17]   2021.02陕西高等学校科学技术一等奖

[18]   2020~2023连续四年入选全球前2%顶尖科学家榜单

[19]   2020.10指导研究生柳亮荣获西安交通大学优秀硕士论文

[20]   2020.10指导研究生汪洋荣获西安交通大学优秀硕士论文

[21]   2020.05西安交通大学“青年拔尖人才支持计划”(A)类

[22]   2020.03咸阳市中青年科技领军人才

[23]   2019~2024指导研究生姜观宇荣获互联网+大学生创新创业大赛省级铜奖,校级银奖,获得国家奖学金,省级优秀毕业生,西安交通大学研究生标兵,西安交通大学优秀硕士论文,学术之星,研究生“产教融合之星”

[24]   2019.11咸阳市首席工程师

[25]   2019.09陕西省精品在线开放课程

[26]   2019.07校青年追踪B类入选者(国家优青培育)

[27]   2018.12中国优秀专利奖

[28]   2018.12西安交通大学首批“课程思政”优秀案例

[29]   2018.09指导研究生马志江荣获西安交通大学优秀硕士论文

[30]   2018.07西安交通大学第四届中国“互联网+”创新创业大赛银奖

[31]   2017.07陕西省科技工作者创新创业大赛金奖

[32]   2016.12陕西省三秦学者创新骨干团队核心成员

[33]   2014.11第八届国际发明展览会金奖

[34]   2013.12陕西省优秀博士论文

三、人才称号

国家级青年人才、西安交通大学青年拔尖人才A类、西安交通大学青年创新团队负责人、后备教学名师;咸阳市首席工程师、咸阳市中青年科技领军人才。担任国家重点研发计划国际合作项目首席、西安先进生物质能技术国际科技合作基地主任。连续四年入选斯坦福大学与爱思唯尔联合发布的全球前2%顶尖科学家“年度影响力”榜单。
联系方式
电子邮箱:xudonghai@mail.xjtu.edu.cn
联系电话:029-82665749
联系地址:西安市咸宁西路28号西安交通大学能源馆419室
更新日期:2024-04-09