宋健

姓名

宋健

出生年月

1987年1月

政治面貌

中共党员

民族

汉

职称

教授

学历

研究生

学位

博士

联系方式

532730567(QQ)

电子邮箱

jian.song@sdut.edu.cn

主要学习（工作）经历

2023.07—至今，山东理工大学，化学化工学院，教授

2020.07—2023.06，山东理工大学，化学化工学院，副教授

2017.07—2020.05，天津工业大学，分离膜与膜过程国家重点实验室，博士后

2015.11—2016.11，澳大利亚联邦科学与工业研究组织（CSIRO），Energy，联培博士

2012.09—2017.03，天津工业大学，纺织科学与工程学院/材料科学与工程学院，膜科学与技术，博士

2009.09—2012.06，山东理工大学，化学工程学院，物理化学，硕士

2005.09—2009.07，山东理工大学，化学工程学院，应用化学，学士

主要研究方向

无机膜：钙钛矿陶瓷膜、金属膜、复合膜；

甲烷、CO₂等低碳化合物催化转化、制氢；

气体分离：H₂、O₂、CO₂等；

固体氧化物燃料电池。

主讲课程

《化工原理》

《化工过程设计》

荣誉奖励

天津市自然科学奖三等奖、山东理工大学双百工程第四层次人才

科研项目

国家自然科学基金面上项目：用于甲烷干-湿双重整的金属镍中空纤维催化膜制备与性能研究（在研）

国家自然科学基金青年基金项目：甲烷干重整-部分氧化催化钙钛矿中空纤维膜制备与性能调控（结题）

山东省高等学校青年创新团队项目：非对称结构Ni中空纤维催化膜与高效OSRE制纯氢膜反应器（在研）

论著专利

以第一、第二作者或通讯作者身份发表SCI一区和二区论文30余篇，获授权发明专利2项；

期刊论文：

2024年

[1] J. Zhang, G. Zhang, J. Song, F. Yu, N.H. Wong, J. Sunarso, N. Yang, B. Meng, X. Tan, S. Liu, Highly stable 3D-printed monolithic Al₂O₃-supported Ni-based structured catalysts for dry reforming of methane, Addit. Manuf., 80 (2024) 103983.

[2] D. Xu, Y. Jin, C. Li, Y. Fan, S. Kawi, X. Meng, J. Song, N. Yang, COF/MXene composite membranes compact assembled by electrostatic interactions: A strategy for H₂/CO₂ separation, J. Membr. Sci., 700 (2024).

[3] W. Wang, Y. Fan, J. Sunarso, Y. Jin, J. Song, X. Meng, N. Yang, Designing bioinspired nanofiltration membrane for enhanced water permeance and efficient ion sieving, Chem. Eng. J., 483 (2024).

[4] Z. Lu, Y. Shi, C. Li, J. Song, G. Geng, J. Sunarso, S. Kawi, N. Yang, X. Tan, S. Liu, Integrated syngas and nitrogen production in La_0.6Ca_0.4Co_0.2Fe_0.8O_3−δ hollow fiber membrane reactor through oxidative CO₂ reforming of methane, Sep. Purif. Technol., 342 (2024) 126990.

[5] Y. Li, T. Ge, Y. Li, Y. Zheng, X. Wang, H. Guo, Z. Jing, J. Song, X. Guo, M. Wang, H. Huang, C. Zuo, L. Zhang, Preparation and surface hydrophilic modification of MOR zeolite membrane potentially appling for acetic acid aldol condensation reaction system, Micropor. Mesopor. Mat., 370 (2024) 113072.

2023年

[1] Z. Zhou, S. Zhang, X. Meng, J. Song, N. Yang, C. Li, S. Kawi, S. Liu, High CO₂-resistance Ag modified La_0.8Ca_0.2Fe_0.94O_3-δ hollow fiber membrane with a three-layer sandwich structure for oxygen separation, Sep. Purif. Technol., 317 (2023) 123879.

[2] J. Wang, B. Shao, C. Li, J. Song, B. Meng, X. Meng, N. Yang, S. Kawi, J. Sunarso, X. Tan, S. Liu, Preparation of BCYF_0.10–YDC/BCYF_0.10–Ni dual-layer hollow fiber membrane for dry reforming of methane and hydrogen purification, Catal. Sci. Technol., 13 (2023) 4673-4683.

[3] Y. Shi, J. Wang, C. Li, J. Song, B. Meng, J. Sunarso, X. Meng, N. Yang, X. Tan, S. Liu, High flux and CO₂ stable La_0.6Ca_0.4Co_0.2Fe_0.8O_3-δ hollow fiber membranes through internal coagulation bath optimization, J. Eur. Ceram. Soc., 43 (2023) 5575-5586.

[4] T. Han, Y. Xie, L. Li, K. Miao, Y. Mei, J. Song, J. Zhang, X. Meng, N. Hing Wong, J. Sunarso, F. Yu, N. Yang, Experimental and numerical study of micro-tubular direct carbon solid oxide fuel cell fueled by the oilseed rape straw-derived biochar, Chem. Eng. J., 465 (2023).

[5] J. Cui, Y. Fu, J. Song, B. Meng, J. Zhou, Z. Zhou, Z. Su, A CuI cluster-based covalent metal-organic framework as a photocatalyst for efficient visible-light-driven reduction of CO2, ChemSusChem, 16 (2023) e202202079.

2022年

[6] J. Song, C. Li, S. Zhang, K. Wang, B. Meng, X. Tan, J. Sunarso, S. Liu, Scandium-doped barium ceria ferrites-based composite mixed conducting hollow fiber membranes for H₂ and O₂ permeation, J. Ind. Eng. Chem., 107 (2022) 100-108.

[7] J. Song, C. Li, S. Zhang, X. Meng, B. Meng, J. Sunarso, Catalyst-modified perovskite hollow fiber membrane for oxidative coupling of methane, Chin. J. Chem. Eng., 41 (2022) 412-419.

[8] J. Song, Y. Hei, C. Li, N. Yang, B. Meng, X. Tan, J. Sunarso, S. Liu, Dehydrogenation coupling of methane using catalyst-loaded proton-conducting perovskite hollow fiber membranes, Membranes, 12 (2022) 191.

[9] B. Meng, S. Wu, S. Zhang, C. Li, J. Song, N. Yang, J. Sunarso, X. Tan, M. Wang, S. Liu, CO₂-stable and cobalt-free Ce_0.8Sm_0.2O_2-δ-La_0.8Ca_0.2Al_0.3Fe_0.7O_3-δ dual-phase hollow fiber membranes for oxygen separation, Sep. Purif. Technol., 300 (2022) 121900.

2021年

[10] S. Zhang, S. Wang, Y. Jin, J. Song, X. Meng, B. Meng, N. Yang, X. Tan, Z. Zhu, S. Liu, One stone two birds: Simultaneous realization of partial oxidation of methane to syngas and N₂ purification via robust ceramic oxygen-permeable membrane reactors, Chem. Eng. J., 419 (2021).

[11] J. Song, Z. Wang, X. Tan, Y. Cui, S. Kawi, S. Liu, Simultaneous hydrogen and oxygen permeation through BaCe_0.70Fe_0.10Sc_0.20O_3-δ perovskite hollow fiber membranes, J. Membr. Sci., 635 (2021) 119513.

[12] C. Li, J. Song, S. Zhang, X. Tan, X. Meng, J. Sunarso, S. Liu, SDC‐SCFZ dual‐phase ceramics: Structure, electrical conductivity, thermal expansion, and O₂ permeability, J. Am. Ceram. Soc., 104 (2021) 2268-2284.

[13] B. Feng, J. Song, Z. Wang, N. Dewangan, S. Kawi, X. Tan, CFD modeling of the perovskite hollow fiber membrane modules for oxygen separation, Chem. Eng. Sci., 230 (2021) 116214.

2020年及以前

[14] Y. Zhang, J. Song, X. Tan, Preparation and CO₂ adsorption performance of PSF-TEPA membrane-based solid amine, Chemical Engineering(China), 47 (2019) 27-31+78.

[15] J. Song, B. Feng, X. Tan, N. Han, J. Sunarso, S. Liu, Oxygen selective perovskite hollow fiber membrane bundles, J. Membr. Sci., 581 (2019) 393-400.

[16] J. Song, B. Feng, Y. Chu, X. Tan, J. Gao, N. Han, S. Liu, One-step thermal processing to prepare BaCo_0.95-xBi_0.05Zr_xO_3-δ membranes for oxygen separation, Ceram. Int., 45 (2019) 12579-12585.

[17] J. Song, Z. Qiu, J. Gao, X. Tan, J. Sunarso, S. Wang, S. Liu, CO₂ erosion of BaCo_0.85Bi_0.05Zr_0.1O_3-δ perovskite membranes under oxygen permeating conditions, Sep. Purif. Technol., 207 (2018) 133-141.

[18] M. Wang, J. Song, Y. Li, X. Tan, Y. Chu, S. Liu, Hydrogen separation at elevated temperatures using metallic nickel hollow fiber membranes, AIChE J., 63 (2017) 3026-3034.

[19] R. An, J. Song, Y. Li, X. Tan, J. Sunarso, C. Zhang, S. Wang, S. Liu, Bundling strategy to simultaneously improve the mechanical strength and oxygen permeation flux of the individual perovskite hollow fiber membranes, J. Membr. Sci., 527 (2017) 137-142.

[20] M. Wang, J. Song, X. Wu, X. Tan, B. Meng, S. Liu, Metallic nickel hollow fiber membranes for hydrogen separation at high temperatures, J. Membr. Sci., 509 (2016) 156-163.

[21] B. Wang, J. Song, X. Tan, B. Meng, J. Liu, S. Liu, Reinforced perovskite hollow fiber membranes with stainless steel as the reactive sintering aid for oxygen separation, J. Membr. Sci., 502 (2016) 151-157.

[22] J. Song, B. Meng, X. Tan, Stability and electrical conductivity of BaCe_0.85Tb_0.05M_0.1O_3−δ (M=Co, Fe, Y, Zr, Mn) high temperature proton conductors, Ceram. Int., 42 (2016) 13278-13284.

[23] J. Song, J. Kang, X. Tan, B. Meng, S. Liu, Proton conducting perovskite hollow fibre membranes with surface catalytic modification for enhanced hydrogen separation, J. Eur. Ceram. Soc., 36 (2016) 1669-1677.

[24] J. Song, B. Meng, X. Tan, S. Liu, Surface-modified proton conducting perovskite hollow fibre membranes by Pd-coating for enhanced hydrogen permeation, Int. J. Hydrog. Energ., 40 (2015) 6118-6127.

[25] H. Li, J. Song, X. Tan, Y. Jin, S. Liu, Preparation of spiral porous stainless steel hollow fiber membranes by a modified phase inversion–sintering technique, J. Membr. Sci., 489 (2015) 292-298.

[26] H. Li, J. Song, X. Tan, Sintering of the Immersion-Induced Porous Stainless Steel Hollow Fiber Membranes, Journal of Membrane Science & Technology, 05 (2015).

[27] G. Tong, J. Song, P. Wang, H. Zhao, X. Tan, Preparation and performance of catalytic hollow fibre membranes for hydrogenation reduction of nitrites in water, Journal of Membrane and Separation Technology, 3 (2014) 146.

[28] L. Li, J. Song, Q. Lu, X. Tan, Synthesis of nano-crystalline Sm_0.5Sr_0.5Co(Fe)O_3−δ perovskite oxides by a microwave-assisted sol–gel combustion process, Ceram. Int., 40 (2014) 1189-1194.

[29] J. Song, L. Li, X. Tan, K. Li, BaCe_0.85Tb_0.05Co_0.1O_3−δ perovskite hollow fibre membranes for hydrogen/oxygen permeation, Int. J. Hydrog. Energ., 38 (2013) 7904-7912.

[30] X. Tan, J. Song, X. Meng, B. Meng, Preparation and characterization of BaCe_0.95Tb_0.05O_3−α hollow fibre membranes for hydrogen permeation, J. Eur. Ceram. Soc., 32 (2012) 2351-2357.

[31] X. Meng, J. Song, N. Yang, B. Meng, X. Tan, Z.-F. Ma, K. Li, Ni–BaCe_0.95Tb_0.05O_3−δ cermet membranes for hydrogen permeation, J. Membr. Sci., 401-402 (2012) 300-305.

[32] X. Meng, N. Yang, J. Song, X. Tan, Z.-F. Ma, K. Li, Synthesis and characterization of terbium doped barium cerates as a proton conducting SOFC electrolyte, Int. J. Hydrog. Energ., 36 (2011) 13067-13072.