Liu Lina Associate professor

Sep. 2009-Jul. 2013, Bachelor's degree in School of Chemistry and Environment, Beihang University

Sep. 2013-Jul. 2018, PhD in School of Energy and Power Engineering, Beihang University

Non-thermal plasma catalysis for environmental and energy applications;

Biomass gasification for bio-hydrogen evolution;

Catalytic reforming of biomass tar;

CO₂ capture and utilization.

1.         National Natural Science Foundation of China, 22006075, In situ mechanism of producing hydrogen-rich syngas from reforming of biomass tar in a hybrid non-thermal plasma catalysis system, 2021.01-2023.12, PI.

2.         Fundamental Research Funds for the Central Universities, 63201136, Synergy of dilectrict barrier discharge plasma and catalysts in reforming of biomass tar, 2020.01-2021.12, PI.

3.         Open Fund of Guangdong Provincial Key Laboratory of Solid Wastes Pollution Control and Recycling, 2020B121201003, Plasma-assisted catalytic removal of tar from biomass gasification, 2021.01-2022.12, PI.

4.         The National Environmental Agency, R279-000-491-279, Energy Efficient MSW Incinerator via Integrated Catalytic Membrane Gasification, 1,652,880 SGD, Participant.

5.         National Natural Science Foundation of China, 21477006, Mechanism on plasma-catalysis synergy of tar conversion to bio-hydrogen and higher hydrocarbon from biomass pyrolysis, 2015.1-2018.12, Participant.

6.         National Natural Science Foundation of China, 21677007, Method and mechanism for UPOPs source control and its reduction to low-toxic products in iron ore sintering process, 2017.01-2020.12, Participant.

1.       Li Y, Liu L^*, Yu H^*, Zhao Y, Dai J, Yu H, Carbon self-doped boron nitride as an adsorbent for CO₂ capture: Effect of pyrolysis temperature on properties and performance, Science of the Total Environment, (2021) 151384.

2.       Zhang Z, Tang M, Yang Z, Ma J, Liu L^*, Shen B. SO₂ and NO emissions during combustion of high-alkali coal over a wide temperature range: Effect of Na species and contents, Fuel, 2021, 309: 122212.

3.       Li Y, Yu H, Liu L^*, Yu H^*, Application of co-pyrolysis biochar for the adsorption and immobilization of heavy metals in contaminated environmental substrates, Journal of Hazardous Materials, 420 (2021) 126655.

4.       Liu L, Dai J, Zhang Z^*, Liu S, Sun Y^*, Mechanism and Prediction of Cr and Zn Immobilization from Industrial Residues by Glass-ceramics, ACS ES&T Engineering, 1 (2021) 1323−1332.

5.       He O, Zhang Y, Wang P, Liu L^*, Wang Q, Yang N, Li W, Champagne P, Yu H^*. Experimental and Kinetic Study on the Production of Furfural and HMF from Glucose, Catalysts, 11(2021) 11.

6.       Liu L, Yu H, Li Y, Zhang Z^*. Stabilization behavior and mechanism of heavy metals in eco-friendly glass-ceramics derived from wastes, J Clean. Prod., 269 (2020) 122417.

7.       Liu L, Das S, Chen T, Dewangan N, Ashok J, Xi S, Borgna A, Li Z, Kawi S^*. Low temperature catalytic reverse water-gas shift reaction over perovskite catalysts in DBD plasma, Appl. Catal. B: Environ., 265 (2020) 118573.

8.       Liu L, Zhang Z, Das S, Xi S, Kawi S^*. LaNiO₃ as a precursor of Ni/La₂O₃ for reverse water-gas shift in DBD plasma: Effect of calcination temperature, Energ. Convers. Manage. 206 (2020) 112475.

9.       Liu L, Liu Y, Song J, Ahmad S, Liang J, Sun Y^*. Plasma-enhanced steam reforming of different model tar compounds over Ni-based fusion catalysts, J. Hazard. Mater., 377 (2019) 24-33.

10.   Liu L, Zhang Z^*, Das S, Kawi S^*. Reforming of tar from biomass gasification in a hybrid catalysis-plasma system: A review, Appl. Catal. B: Environ., 250 (2019) 250-272.

11.   Liu L, Li W, Xu J, Xiong Z, Sun Y^*, Synergistic effect of iron and copper oxides on the formation of persistent chlorinated aromatics in iron ore sintering based on in situ XPS analysis, J. Hazard. Mater., 366 (2019), 202-209.

12.   Liu L, Meng Y, Liang J, Xia D, Sun Y^*. Low-temperature decomposition of Aroclor 1254 over AC-supported Ni-Fe bimetallic catalysts: Kinetic and thermodynamic study, Sci. Total Environ., 666 (2019) 591-597.

13.   Zhang Z, Zhu Z, Shen B^*, Liu L^*, Insights into biochar and hydrochar production and applications: A review, Energy, 171 (2019) 581-598. (TOP 25 most-cited articles from Energy)

14.   Zhang Z, Liu L^*, Shen B^*, Wu C^*. Preparation, modification and development of Ni-based catalysts for catalytic reforming of tar produced from biomass gasification, Renew. Sust. Energ. Rev., 94 (2018) 1086-1109.

15.   Liu L, Wang Q, Song J, Yang X, Sun Y^*. Dry reforming of model biomass pyrolysis products to syngas by dielectric barrier discharge plasma, Int. J. Hydrogen Energ., 43 (2018) 10281-10293.

16.   Liu L, Wang Q, Shakeel A, Yang X, Sun Y^*. Steam reforming of toluene as model biomass tar to H₂-rich syngas in a DBD plasma-catalytic system, J. Energ. Inst., 91 (2018) 927-939.

17.   Liu L, Wang Q, Song J, Shakkel A, Yang X, Sun Y^*. Plasma-assisted catalytic reforming of toluene to hydrogen rich syngas, Catal. Sci. Technol., 7 (2017) 4216-4231.

18.   Sun Y^*, Liu L, Fu X, Zhu T, Buekens A, Yang X, Wang Q. Mechanism of unintentionally produced persistent organic pollutant formation in iron ore sintering, J. Hazard. Mater., 306 (2016) 41–49.

19.   Sun Y^*, Liu L, Oshita K, Zeng X, Wang W, Zhang Y. Influence of activated-carbon-supported transition metals on the decomposition of polychlorobiphenyls. Part II: Chemical and physical characterization and mechanistic study. Chemosphere, 159 (2016) 668-675.

20.   Sun Y^*, Liu L, Wang Q, Yang X, Tu X. Pyrolysis products from industrial waste biomass based on a neural network model, J. Anal. Appl. Pyrol., 120 (2016) 94–102.

21.   Saleem F, Rehman A, Abbas Aumbe, khoja AH, Ahmad F, Liu L, Zhang K, Harvey A. A Comparison of the decomposition of biomass gasification tar compound in CO, CO₂, H₂ and N₂ carrier gases using non-thermal plasma, J. Energ. Inst., 97 (2021) 161-168.

22.   Das S, Bhattar S, Liu L, Wang Z, Xi S, Spivey JJ, Kawi S. Effect of partial Fe substitution in La_0.9Sr_0.1NiO₃ perovskite-derived catalysts on reaction mechanism of methane dry reforming. ACS Catalysis, 2020, 10, 21, 12466–12486.

23.   Zhang Z, Wang J, Liu L, Ma J, Shen B^*. Preparation of additive-free glass-ceramics from MSW incineration bottom ash and coal fly ash. Construction and Building Materials, 254 (2020) 119345.

24.   Liu Y, Song J, Diao X, Liu L, Sun Y^*. Removal of tar derived from biomass gasification via synergy of non-thermal plasma and catalysis. Sci. Total Environ., 721 (2020) 137671.

25.   Zhang Z, Wang Y, Wang J, Liu L, An W, Shen B^*. Preparation and characterization of glass-ceramics from oil shale ash: Effect of basicity and sintering temperature on crystallization behavior, properties, and environmental risk. Materials Chemistry and Physics, 249 (2020) 123012.

26.   Chen T, Wang Z, Liu L, Pati S, Wai M H, Kawi S^*.Coupling CO₂ separation with catalytic reverse water-gas shift reaction via ceramic-carbonate dual-phase membrane reactor. Chem. Eng. J., 379 (2020) 122182.

27.   Zhang Z, Wang J, Liu L, Shen B^*, Preparation and characterization of glass-ceramics via co-sintering of coal fly ash and oil shale ash-derived amorphous slag, Ceram. Int., 45 (2019) 20058-20065.

28.   Chen T, Wang Z, Das S, Liu L, Li Y, Kawi S^*, Lin J^*, A novel study of sulfur-resistance for CO₂ separation through asymmetric ceramic-carbonate dual-phase membrane at high temperature, J. Membrane Sci., 581 (2019) 72-81.

29.   Zhang Y, Liu L, Sun Y, Zhu R, Gao X^*, Yang J, Han Z, Wang H. Formation of persistent chlorinated aromatic compounds in simulated and real fly ash from iron ore sintering. J. Mater. Cycles Waste Manage., 19 (2017) 1437-1445.

30.   Sun Y^*, Tao F, Liu L, Zeng X, Wang W. Influence of activated-carbon-supported transition metals on the decomposition of polychlorobiphenyls. Part I: Catalytic decomposition and kinetic analysis, Chemosphere, 159 (2016) 659-667.

31.   Zhang Y, Buekens A, Liu L, Zhang Y, Zeng X, Sun Y^*. Suppression of chlorinated aromatics by nitrogen and sulphur inhibitors in iron ore sintering, Chemosphere, 155 (2016) 300-307.