代表性论文：

1.     Shi, Z.; Usman, M.; He, J.; Chen, H.; Zhang, S.; Luo, G.*, Combined microbial transcript and metabolic analysis reveals the different roles of hydrochar and biochar in promoting anaerobic digestion of waste activated sludge. Water Research 2021, 205, 117679.

2.     Shi, Z.; Campanaro, S.; Usman, M.; Treu, L.; Basile, A.; Angelidaki, I.; Zhang, S.; Luo, G.*, Genome-centric metatranscriptomics analysis reveals the role of hydrochar in anaerobic digestion of waste activated sludge. Environmental Science and Technology 2021, 55, (12), 8351-8361.

3.     He, J.; Shi, Z.; Luo, T.; Zhang, S.; Liu, Y.*; Luo, G.*, Phenol promoted caproate production via two-stage batch anaerobic fermentation of organic substance with ethanol as electron donor for chain elongation. Water Research 2021, 204, 117601.

4.     Chen, H.; Chen, Z.; Nasikai, M.; Luo, G.*; Zhang, S., Hydrothermal pretreatment of sewage sludge enhanced the anaerobic degradation of cationic polyacrylamide (cPAM). Water Research 2021, 190, 116704.

5.     Ren, S.; Usman, M.; Tsang, D. C. W.; O-Thong, S.; Angelidaki, I.; Zhu, X.; Zhang, S.; Luo, G.*, Hydrochar-Facilitated Anaerobic Digestion: Evidence for Direct Interspecies Electron Transfer Mediated through Surface Oxygen-Containing Functional Groups. Environmental Science and Technology 2020, 54, (9), 5755-5766.

6.     Chen, H.; Hao, S.; Chen, Z.; O-Thong, S.; Fan, J.; Clark, J.; Luo, G.*; Zhang, S.*, Mesophilic and thermophilic anaerobic digestion of aqueous phase generated from hydrothermal liquefaction of cornstalk: Molecular and metabolic insights. Water Research 2020, 168, 115199.

7.     Wan, J.; Jing, Y.; Rao, Y.; Zhang, S.; Luo, G.*, Thermophilic alkaline fermentation followed by mesophilic anaerobic digestion for efficient hydrogen and methane production from waste-activated sludge: Dynamics of bacterial pathogens as revealed by the combination of metagenomic and quantitative PCR analyses. Applied and Environmental Microbiology 2018, 84, (6), e02632-17.

8.     Rao, Y.; Wan, J.; Liu, Y.; Angelidaki, I.; Zhang, S.; Zhang, Y.; Luo, G.*, A novel process for volatile fatty acids production from syngas by integrating with mesophilic alkaline fermentation of waste activated sludge. Water Research 2018, 139, 372-380.

9.     Campanaro, S.; Treu, L.; Kougias, P. G.*; Luo, G.*; Angelidaki, I., Metagenomic binning reveals the functional roles of core abundant microorganisms in twelve full-scale biogas plants. Water Research 2018, 140, 123-134.

10.   Luo, G.*; Li, B.; Li, L. G.; Zhang, T.; Angelidaki, I.*, Antibiotic Resistance Genes and Correlations with Microbial Community and Metal Resistance Genes in Full-Scale Biogas Reactors As Revealed by Metagenomic Analysis. Environmental Science and Technology 2017, 51, (7), 4069-4080.

11.    Jing, Y.; Wan, J.; Angelidaki, I.; Zhang, S.; Luo, G.*, iTRAQ quantitative proteomic analysis reveals the pathways for methanation of propionate facilitated by magnetite. Water Research 2017, 108, 212-221.

12.   Jing, Y.; Campanaro, S.; Kougias, P.; Treu, L.; Angelidaki, I.; Zhang, S.; Luo, G.*, Anaerobic granular sludge for simultaneous biomethanation of synthetic wastewater and CO with focus on the identification of CO-converting microorganisms. Water Research 2017, 126, 19-28.

13.   Wan, J.; Jing, Y.; Zhang, S.; Angelidaki, I.; Luo, G.*, Mesophilic and thermophilic alkaline fermentation of waste activated sludge for hydrogen production: Focusing on homoacetogenesis. Water Research 2016, 102, 524-532.

14.   Chen, H.; Wan, J.; Chen, K.; Luo, G.*; Fan, J.; Clark, J.; Zhang, S.*, Biogas production from hydrothermal liquefaction wastewater (HTLWW): Focusing on the microbial communities as revealed by high-throughput sequencing of full-length 16S rRNA genes. Water Research 2016, 106, 98-107.

15.   Luo, G.; Angelidaki, I., Analysis of bacterial communities and bacterial pathogens in a biogas plant by the combination of ethidium monoazide, PCR and Ion Torrent sequencing. Water Research 2014, 60, 156-163.

16.   Luo, G.; Wang, W.; Angelidaki, I., Anaerobic digestion for simultaneous sewage sludge treatment and CO biomethanation: Process performance and microbial ecology. Environmental Science and Technology 2013, 47, (18), 10685-10693.

17.   Luo, G.; Johansson, S.; Boe, K.; Xie, L.; Zhou, Q.; Angelidaki, I., Simultaneous hydrogen utilization and in situ biogas upgrading in an anaerobic reactor. Biotechnology and Bioengineering 2012, 109, (4), 1088-1094.

18.   Luo, G.; Angelidaki, I., Integrated biogas upgrading and hydrogen utilization in an anaerobic reactor containing enriched hydrogenotrophic methanogenic culture. Biotechnology and Bioengineering 2012, 109, (11), 2729-2736.

19.   Luo, G.; Karakashev, D.; Xie, L.; Zhou, Q.; Angelidaki, I., Long-term effect of inoculum pretreatment on fermentative hydrogen production by repeated batch cultivations: Homoacetogenesis and methanogenesis as competitors to hydrogen production. Biotechnology and Bioengineering 2011, 108, (8), 1816-1827.

其他论文：

20.  Yu, I. K. M.; Chen, H.; Abeln, F.; Auta, H.; Fan, J.; Budarin, V. L.; Clark, J. H.; Parsons, S.; Chuck, C. J.; Zhang, S.; Luo, G.; Tsang, D. C. W., Chemicals from lignocellulosic biomass: A critical comparison between biochemical, microwave and thermochemical conversion methods. Critical Reviews in Environmental Science and Technology 2021, 51, (14), 1479-1532.

21.   Xing, X.; Wang, R.; Bauer, N.; Ciais, P.; Cao, J.; Chen, J.; Tang, X.; Wang, L.; Yang, X.; Boucher, O.; Goll, D.; Peñuelas, J.; Janssens, I. A.; Balkanski, Y.; Clark, J.; Ma, J.; Pan, B.; Zhang, S.; Ye, X.; Wang, Y.; Li, Q.; Luo, G.; Shen, G.; Li, W.; Yang, Y.; Xu, S., Spatially explicit analysis identifies significant potential for bioenergy with carbon capture and storage in China. Nature Communications 2021, 12, (1), 3159.

22.   Wu, S. L.; Luo, G.; Sun, J.; Wei, W.; Song, L.; Ni, B. J., Medium chain fatty acids production from anaerobic fermentation of waste activated sludge. Journal of Cleaner Production 2021, 279, 123482.

23.   Usman, M.; Shi, Z.; Ji, M.; Ren, S.; Luo, G.; Zhang, S., Microbial insights towards understanding the role of hydrochar in alleviating ammonia inhibition during anaerobic digestion. Chemical Engineering Journal 2021, 419, 129541.

24.   Shi, Z.; Zhao, R.; Wan, J.; Li, B.; Shen, Y.; Zhang, S.; Luo, G., Metagenomic analysis reveals the fate of antibiotic resistance genes in two-stage and one-stage anaerobic digestion of waste activated sludge. Journal of Hazardous Materials 2021, 406, 124595.

25.   Shi, Y.; Chen, Z.; Cao, Y.; Fan, J.; Clark, J. H.; Luo, G.; Zhang, S., Migration and transformation mechanism of phosphorus in waste activated sludge during anaerobic fermentation and hydrothermal conversion. Journal of Hazardous Materials 2021, 403, 123649.

26.   Kumar, M.; You, S.; Beiyuan, J.; Luo, G.; Gupta, J.; Kumar, S.; Singh, L.; Zhang, S.; Tsang, D. C. W., Lignin valorization by bacterial genus Pseudomonas: State-of-the-art review and prospects. Bioresource Technology 2021, 320, 124412.

27.   Kumar, M.; Dutta, S.; You, S.; Luo, G.; Zhang, S.; Show, P. L.; Sawarkar, A. D.; Singh, L.; Tsang, D. C. W., A critical review on biochar for enhancing biogas production from anaerobic digestion of food waste and sludge. Journal of Cleaner Production 2021, 305, 127143.

28.   He, J.; Ren, S.; Zhang, S.; Luo, G., Modification of hydrochar increased the capacity to promote anaerobic digestion. Bioresource Technology 2021, 341, 125856.

29.   Dan, Y.; Ji, M.; Tao, S.; Luo, G.; Shen, Z.; Zhang, Y.; Sang, W., Impact of rice straw biochar addition on the sorption and leaching of phenylurea herbicides in saturated sand column. Science of the Total Environment 2021, 769, 144536.

30.   Cheng, D.; Liu, Y.; Ngo, H. H.; Guo, W.; Chang, S. W.; Nguyen, D. D.; Zhang, S.; Luo, G.; Bui, X. T., Sustainable enzymatic technologies in waste animal fat and protein management. Journal of Environmental Management 2021, 284, 112040.

31.   Chen, Z.; Rao, Y.; Usman, M.; Chen, H.; Białowiec, A.; Zhang, S.; Luo, G., Anaerobic fermentation of hydrothermal liquefaction wastewater of dewatered sewage sludge for volatile fatty acids production with focuses on the degradation of organic components and microbial community compositions. Science of the Total Environment 2021, 777, 146077.

32.   Cao, Y.; He, M.; Dutta, S.; Luo, G.; Zhang, S.; Tsang, D. C. W., Hydrothermal carbonization and liquefaction for sustainable production of hydrochar and aromatics. Renewable and Sustainable Energy Reviews 2021, 152, 111722.

33.   Zhao, W.; Lian, L.; Wu, Y.; Liu, Y.; Zhang, R.; Luo, G.; Hou, H., Decomposition of dioxin-like components in a DBD reactor combined with Hg/Ar electrodeless ultraviolet. Plasma Science and Technology 2020, 22, (3), 034005.

34.   Zhao, W.; Lian, L.; Jin, X.; Zhang, R.; Luo, G.; Hou, H.; Chen, S.; Zhang, R., In situ electron-induced reduction of NO x via CNTs activated by DBD at low temperature. Frontiers of Environmental Science and Engineering 2020, 14, (2), 20.

35.   Ye, Y.; Ngo, H. H.; Guo, W.; Chang, S. W.; Nguyen, D. D.; Zhang, X.; Zhang, S.; Luo, G.; Liu, Y., Impacts of hydraulic retention time on a continuous flow mode dual-chamber microbial fuel cell for recovering nutrients from municipal wastewater. Science of the Total Environment 2020, 734, 139220.

36.   Xu, J.; Bu, F.; Zhu, W.; Luo, G.; Xie, L., Microbial consortiums of hydrogenotrophic methanogenic mixed cultures in lab-scale ex-situ biogas upgrading systems under different conditions of temperature, ph and CO. Microorganisms 2020, 8, (5), 772.

37.   Xiong, X.; Yu, I. K. M.; Tsang, D. C. W.; Chen, L.; Su, Z.; Hu, C.; Luo, G.; Zhang, S.; Ok, Y. S.; Clark, J. H., Study of glucose isomerisation to fructose over three heterogeneous carbon-based aluminium-impregnated catalysts. Journal of Cleaner Production 2020, 268, 122378.

38.   Usman, M.; Shi, Z.; Ren, S.; Ngo, H. H.; Luo, G.; Zhang, S., Hydrochar promoted anaerobic digestion of hydrothermal liquefaction wastewater: Focusing on the organic degradation and microbial community. Chemical Engineering Journal 2020, 399, 125766.

39.   Usman, M.; Ren, S.; Ji, M.; O-Thong, S.; Qian, Y.; Luo, G.; Zhang, S., Characterization and biogas production potentials of aqueous phase produced from hydrothermal carbonization of biomass – Major components and their binary mixtures. Chemical Engineering Journal 2020, 388, 124201.

40.   Sun, Y.; Yu, I. K. M.; Tsang, D. C. W.; Fan, J.; Clark, J. H.; Luo, G.; Zhang, S.; Khan, E.; Graham, N. J. D., Tailored design of graphitic biochar for high-efficiency and chemical-free microwave-assisted removal of refractory organic contaminants. Chemical Engineering Journal 2020, 398, 125505.

41.   Liu, C.; Wang, W.; O-Thong, S.; Yang, Z.; Zhang, S.; Liu, G.; Luo, G., Microbial insights of enhanced anaerobic conversion of syngas into volatile fatty acids by co-fermentation with carbohydrate-rich synthetic wastewater. Biotechnology for Biofuels 2020, 13, (1), 53.

42.   Liu, C.; Luo, G.; Liu, H.; Yang, Z.; Angelidaki, I.; O-Thong, S.; Liu, G.; Zhang, S.; Wang, W., CO as electron donor for efficient medium chain carboxylate production by chain elongation: Microbial and thermodynamic insights. Chemical Engineering Journal 2020, 390, 124577.

43.   Kovalovszki, A.; Treu, L.; Ellegaard, L.; Luo, G.; Angelidaki, I., Modeling temperature response in bioenergy production: Novel solution to a common challenge of anaerobic digestion. Applied Energy 2020, 263, 114646.

44.   Johnravindar, D.; Liang, B.; Fu, R.; Luo, G.; Meruvu, H.; Yang, S.; Yuan, B.; Fei, Q., Supplementing granular activated carbon for enhanced methane production in anaerobic co-digestion of post-consumer substrates. Biomass and Bioenergy 2020, 136, 105543.

45.   Ji, M.; Zhou, L.; Zhang, S.; Luo, G.; Sang, W., Effects of biochar on methane emission from paddy soil: Focusing on DOM and microbial communities. Science of the Total Environment 2020, 743, 140725.

46.   Ji, M.; Sang, W.; Tsang, D. C. W.; Usman, M.; Zhang, S.; Luo, G., Molecular and microbial insights towards understanding the effects of hydrochar on methane emission from paddy soil. Science of the Total Environment 2020, 714, 136769.

47.   Hao, S.; Ren, S.; Zhou, N.; Chen, H.; Usman, M.; He, C.; Shi, Q.; Luo, G.; Zhang, S., Molecular composition of hydrothermal liquefaction wastewater from sewage sludge and its transformation during anaerobic digestion. Journal of Hazardous Materials 2020, 383, 121163.

48.   Cheng, D.; Liu, Y.; Ngo, H. H.; Guo, W.; Chang, S. W.; Nguyen, D. D.; Zhang, S.; Luo, G.; Liu, Y., A review on application of enzymatic bioprocesses in animal wastewater and manure treatment. Bioresource Technology 2020, 313, 123683.

49.   Campanaro, S.; Treu, L.; Rodriguez-R, L. M.; Kovalovszki, A.; Ziels, R. M.; Maus, I.; Zhu, X.; Kougias, P. G.; Basile, A.; Luo, G.; Schlüter, A.; Konstantinidis, K. T.; Angelidaki, I., New insights from the biogas microbiome by comprehensive genome-resolved metagenomics of nearly 1600 species originating from multiple anaerobic digesters. Biotechnology for Biofuels 2020, 13, (1), 25.

50.   Usman, M.; Hao, S.; Chen, H.; Ren, S.; Tsang, D. C. W.; O-Thong, S.; Luo, G.; Zhang, S., Molecular and microbial insights towards understanding the anaerobic digestion of the wastewater from hydrothermal liquefaction of sewage sludge facilitated by granular activated carbon (GAC). Environment International 2019, 133, 105257.

51.   Usman, M.; Chen, H.; Chen, K.; Ren, S.; Clark, J. H.; Fan, J.; Luo, G.; Zhang, S., Characterization and utilization of aqueous products from hydrothermal conversion of biomass for bio-oil and hydro-char production: A review. Green Chemistry 2019, 21, (7), 1553-1572.

52.   Shi, Y.; Luo, G.; Rao, Y.; Chen, H.; Zhang, S., Hydrothermal conversion of dewatered sewage sludge: Focusing on the transformation mechanism and recovery of phosphorus. Chemosphere 2019, 228, 619-628.

53.   Liu, Y.; Luo, G.; Ngo, H. H.; Guo, W.; Zhang, S., Advances in thermostable laccase and its current application in lignin-first biorefinery: A review. Bioresource Technology 2019, 122511.

54.   Khan, M. A.; Ngo, H. H.; Guo, W.; Liu, Y.; Nghiem, L. D.; Chang, S. W.; Nguyen, D. D.; Zhang, S.; Luo, G.; Jia, H., Optimization of hydraulic retention time and organic loading rate for volatile fatty acid production from low strength wastewater in an anaerobic membrane bioreactor. Bioresource Technology 2019, 271, 100-108.

55.   Chen, H.; Rao, Y.; Cao, L.; Shi, Y.; Hao, S.; Luo, G.; Zhang, S., Hydrothermal conversion of sewage sludge: Focusing on the characterization of liquid products and their methane yields. Chemical Engineering Journal 2019, 357, 367-375.

56.   Angelidaki, I.; Xie, L.; Luo, G.; Zhang, Y.; Oechsner, H.; Lemmer, A.; Munoz, R.; Kougias, P. G., Biogas upgrading: Current and emerging technologies. In Biomass, Biofuels, Biochemicals: Biofuels: Alternative Feedstocks and Conversion Processes for the Production of Liquid and Gaseous Biofuels, 2019; pp 817-843.

57.   Luo, G.; Jing, Y.; Lin, Y.; Zhang, S.; An, D., A novel concept for syngas biomethanation by two-stage process: Focusing on the selective conversion of syngas to acetate. Science of the Total Environment 2018, 645, 1194-1200.

58.   Liu, C.; Luo, G.; Wang, W.; He, Y.; Zhang, R.; Liu, G., The effects of pH and temperature on the acetate production and microbial community compositions by syngas fermentation. Fuel 2018, 224, 537-544.

59.   Chen, K.; Luo, G.; Lei, Z.; Zhang, Z.; Zhang, S.; Chen, J., Chromatographic separation of glucose, xylose and arabinose from lignocellulosic hydrolysates using cation exchange resin. Separation and Purification Technology 2018, 195, 288-294.

60.   Cao, L.; Luo, G.; Tsang, D. C. W.; Chen, H.; Zhang, S.; Chen, J., A novel process for obtaining high quality cellulose acetate from green landscaping waste. Journal of Cleaner Production 2018, 176, 338-347.

61.   Cao, L.; Chen, H.; Tsang, D. C. W.; Luo, G.; Hao, S.; Zhang, S.; Chen, J., Optimizing xylose production from pinewood sawdust through dilute-phosphoric-acid hydrolysis by response surface methodology. Journal of Cleaner Production 2018, 178, 572-579.

62.   Angelidaki, I.; Treu, L.; Tsapekos, P.; Luo, G.; Campanaro, S.; Wenzel, H.; Kougias, P. G., Biogas upgrading and utilization: Current status and perspectives. Biotechnology Advances 2018, 36, (2), 452-466.

63.   Ma, J.; Chen, Y.; Luo, G.; Nie, J.; Guo, Z.; Liu, Y.; Ma, L., Microbial nitrate removal by waste iron shavings from the biological and catalytic ozonation treated dyeing and finishing wastewater. AMB Express 2017, 7, (1), 3.

64.   Ma, J.; Chen, Y.; Luo, G.; Nie, J.; Guo, Z.; Liu, Y., Application of catalytic iron for microbial nitrate removal from wastewater. Desalination and Water Treatment 2017, 82, 300-307.

65.   Liu, C.; Luo, G.; Wang, W.; Liu, G., Research progress in biofuel and biochemicals production from syngas fermentation. Beijing Huagong Daxue Xuebao (Ziran Kexueban)/Journal of Beijing University of Chemical Technology (Natural Science Edition) 2017, 44, (5), 2-12.

66.   Chen, K.; Hao, S.; Lyu, H.; Luo, G.; Zhang, S.; Chen, J., Ion exchange separation for recovery of monosaccharides, organic acids and phenolic compounds from hydrolysates of lignocellulosic biomass. Separation and Purification Technology 2017, 172, 100-106.

67.   Chen, H.; Zhang, C.; Rao, Y.; Jing, Y.; Luo, G.; Zhang, S., Methane potentials of wastewater generated from hydrothermal liquefaction of rice straw: Focusing on the wastewater characteristics and microbial community compositions. Biotechnology for Biofuels 2017, 10, (1), 140.

68.   Cao, L.; Zhang, C.; Chen, H.; Tsang, D. C. W.; Luo, G.; Zhang, S.; Chen, J., Hydrothermal liquefaction of agricultural and forestry wastes: state-of-the-art review and future prospects. Bioresource Technology 2017, 245, 1184-1193.

69.   Younas, R.; Zhang, S.; Zhang, L.; Luo, G.; Chen, K.; Cao, L.; Liu, Y.; Hao, S., Lactic acid production from rice straw in alkaline hydrothermal conditions in presence of NiO nanoplates. Catalysis Today 2016, 274, 40-48.

70.   Lyu, H.; Fang, Y.; Ren, S.; Chen, K.; Luo, G.; Zhang, S.; Chen, J., Monophenols separation from monosaccharides and acids by two-stage nanofiltration and reverse osmosis in hydrothermal liquefaction hydrolysates. Journal of Membrane Science 2016, 504, 141-152.

71.   Luo, G.; Fotidis, I. A.; Angelidaki, I., Comparative analysis of taxonomic, functional, and metabolic patterns of microbiomes from 14 full-scale biogas reactors by metagenomic sequencing and radioisotopic analysis. Biotechnology for Biofuels 2016, 9, (1), 465.

72.   Liu, Y.; Wan, J.; Han, S.; Zhang, S.; Luo, G., Selective conversion of carbon monoxide to hydrogen by anaerobic mixed culture. Bioresource Technology 2016, 202, 1-7.

73.   Hao, S.; Chen, K.; Cao, L.; Zhu, X.; Luo, G.; Zhang, S.; Chen, J., Separation of high-purity syringol and acetosyringone from rice straw-derived bio-oil by combining the basification-acidification process and column chromatography. Electrophoresis 2016, 37, (19), 2522-2530.

74.   Han, S.; Liu, Y.; Zhang, S.; Luo, G., Reactor performances and microbial communities of biogas reactors: effects of inoculum sources. Applied Microbiology and Biotechnology 2016, 100, (2), 987-995.

75.   Cao, L.; Zhang, C.; Hao, S.; Luo, G.; Zhang, S.; Chen, J., Effect of glycerol as co-solvent on yields of bio-oil from rice straw through hydrothermal liquefaction. Bioresource Technology 2016, 220, 471-478.

76.   Cao, L.; Luo, G.; Zhang, S.; Chen, J., Bio-oil production from eight selected green landscaping wastes through hydrothermal liquefaction. RSC Advances 2016, 6, (18), 15260-15270.

77.   Lyu, H.; Chen, K.; Yang, X.; Younas, R.; Zhu, X.; Luo, G.; Zhang, S.; Chen, J., Two-stage nanofiltration process for high-value chemical production from hydrolysates of lignocellulosic biomass through hydrothermal liquefaction. Separation and Purification Technology 2015, 147, 276-283.

78.   Luo, G.; De Francisci, D.; Kougias, P. G.; Laura, T.; Zhu, X.; Angelidaki, I., New steady-state microbial community compositions and process performances in biogas reactors induced by temperature disturbances. Biotechnology for Biofuels 2015, 8, (1), 3.

79.   Chen, K.; Lyu, H.; Hao, S.; Luo, G.; Zhang, S.; Chen, J., Separation of phenolic compounds with modified adsorption resin from aqueous phase products of hydrothermal liquefaction of rice straw. Bioresource Technology 2015, 182, 160-168.

80.   Chen, H.; Zhou, D.; Luo, G.; Zhang, S.; Chen, J., Macroalgae for biofuels production: Progress and perspectives. Renewable and Sustainable Energy Reviews 2015, 47, 427-437.

81.   Zhu, X.; Liu, Y.; Zhou, C.; Luo, G.; Zhang, S.; Chen, J., A novel porous carbon derived from hydrothermal carbon for efficient adsorption of tetracycline. Carbon 2014, 77, 627-636.

82.   Zhu, X.; Liu, Y.; Luo, G.; Qian, F.; Zhang, S.; Chen, J., Facile fabrication of magnetic carbon composites from hydrochar via simultaneous activation and magnetization for triclosan adsorption. Environmental Science and Technology 2014, 48, (10), 5840-5848.

83.   Luo, G.; Wang, W.; Angelidaki, I., A new degassing membrane coupled upflow anaerobic sludge blanket (UASB) reactor to achieve in-situ biogas upgrading and recovery of dissolved CH4 from the anaerobic effluent. Applied Energy 2014, 132, 536-542.

84.   Fotidis, I. A.; Wang, H.; Fiedel, N. R.; Luo, G.; Karakashev, D. B.; Angelidaki, I., Bioaugmentation as a solution to increase methane production from an ammonia-rich substrate. Environmental Science and Technology 2014, 48, (13), 7669-7676.

85.   Xie, L.; Wang, L.; Luo, G.; Zhou, Q., Influence of activated carbon amended ASBR on anaerobic fermentative hydrogen production. Tongji Daxue Xuebao/Journal of Tongji University 2013, 41, (5), 728-734.

86.   Wang, W.; Xie, L.; Luo, G.; Zhou, Q.; Angelidaki, I., Performance and microbial community analysis of the anaerobic reactor with coke oven gas biomethanation and in situ biogas upgrading. Bioresource Technology 2013, 146, 234-239.

87.   Wang, W.; Xie, L.; Luo, G.; Zhou, Q., Enhanced fermentative hydrogen production from cassava stillage by co-digestion: The effects of different co-substrates. International Journal of Hydrogen Energy 2013, 38, (17), 6980-6988.

88.   Wang, W.; Luo, G.; Xie, L.; Zhou, Q., Enhanced thermophilic fermentative hydrogen production from cassava stillage by chemical pretreatments. Water Science and Technology 2013, 68, (1), 59-67.

89.   Luo, G.; Angelidaki, I., Co-digestion of manure and whey for in situ biogas upgrading by the addition of H2: Process performance and microbial insights. Applied Microbiology and Biotechnology 2013, 97, (3), 1373-1381.

90.   Luo, G.; Angelidaki, I., Hollow fiber membrane based H2 diffusion for efficient in situ biogas upgrading in an anaerobic reactor. Applied Microbiology and Biotechnology 2013, 97, (8), 3739-3744.

91.   Wang, W.; Xie, L.; Luo, G.; Zhou, Q.; Lu, Q., Optimization of biohydrogen and methane recovery within a cassava ethanol wastewater/waste integrated management system. Bioresource Technology 2012, 120, 165-172.

92.   Wang, W.; Xie, L.; Chen, J.; Luo, G.; Zhou, Q., Biohydrogen and methane production by co-digestion of cassava stillage and excess sludge under thermophilic condition. Bioresource Technology 2011, 102, (4), 3833-3839.

93.   Luo, G.; Xie, L.; Zhou, Q.; Angelidaki, I., Enhancement of bioenergy production from organic wastes by two-stage anaerobic hydrogen and methane production process. Bioresource Technology 2011, 102, (18), 8700-8706.

94.   Luo, G.; Talebnia, F.; Karakashev, D.; Xie, L.; Zhou, Q.; Angelidaki, I., Enhanced bioenergy recovery from rapeseed plant in a biorefinery concept. Bioresource Technology 2011, 102, (2), 1433-1439.

95.   Zhou, Q.; Zou, Z.; Xie, L.; Luo, G., Seed sludge pretreatment for fermentative bio-hydrogen production. Tongji Daxue Xuebao/Journal of Tongji University 2010, 38, (7), 1029-1035.

96.   Luo, G.; Xie, L.; Zou, Z.; Zhou, Q.; Wang, J. Y., Fermentative hydrogen production from cassava stillage by mixed anaerobic microflora: Effects of temperature and pH. Applied Energy 2010, 87, (12), 3710-3717.

97.   Luo, G.; Xie, L.; Zou, Z.; Zhou, Q., Effect of initial pH on thermophilic fermentative hydrogen production from cassava ethanol wastewater. Tongji Daxue Xuebao/Journal of Tongji University 2010, 38, (7), 1036-1040+1068.

98.   Luo, G.; Xie, L.; Zou, Z.; Zhou, Q. In Cassava stillage treatment by thermophilic anaerobic Continuously Stirred Tank Reactor (CSTR), AIP Conference Proceedings, 2010; 2010; pp 49-52.

99.   Luo, G.; Xie, L.; Zou, Z.; Wang, W.; Zhou, Q.; Shim, H., Anaerobic treatment of cassava stillage for hydrogen and methane production in continuously stirred tank reactor (CSTR) under high organic loading rate (OLR). International Journal of Hydrogen Energy 2010, 35, (21), 11733-11737.

100. Luo, G.; Xie, L.; Zou, Z.; Wang, W.; Zhou, Q., Exploring optimal conditions for thermophilic fermentative hydrogen production from cassava stillage. Renewable Energy 2010, 35, (12), 6161-6169.

101. Luo, G.; Xie, L.; Zou, Z.; Wang, W.; Zhou, Q., Evaluation of pretreatment methods on mixed inoculum for both batch and continuous thermophilic biohydrogen production from cassava stillage. Bioresource Technology 2010, 101, (3), 959-964.

102. Luo, G.; Xie, L.; Zou, Z.; Wang, W.; Zhou, Q., Exploring optimal conditions for thermophilic fermentative hydrogen production from cassava stillage. International Journal of Hydrogen Energy 2010, 35, (12), 6161-6169.

103. Luo, G.; Xie, L.; Zhou, Q., Enhanced treatment efficiency of an anaerobic sequencing batch reactor (ASBR) for cassava stillage with high solids content. Journal of Bioscience and Bioengineering 2009, 107, (6), 641-645.

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