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1. Co-production of hydrogen and carbon nanotubes from real-world waste plastics: Influence of catalyst composition and operational parameters. Dingding Yao, Yeshui Zhang, Paul T Williams, Haiping Yang*, Hanping Chen. Applied Catalysis B: Environmental 2018, 221: 584-597
2. Investigation of nickel-impregnated zeolite catalysts for hydrogen/syngas production from the catalytic reforming of waste polyethylene. Dingding Yao, Haiping Yang*, Paul T Williams, Hanping Chen. Applied Catalysis B: Environmental 2018, 277: 477-487
3. Co-precipitation, impregnation and so-gel preparation of Ni catalysts for pyrolysis-catalytic steam reforming of waste plastics. Dingding Yao, Haiping Yang,⁎, Hanping Chen, Paul T. Williams. Applied Catalysis B: Environmental. 239 (2018) 565–577.
4. Influence of NH3 concentration on biomass nitrogen-enriched pyrolysis. Wei Chen, Kaixu Li, Mingwei Xia, Yingquan Chen, Haiping Yang⁎, Zhiqun Chen, Xu Chen, Hanping Chen. Bioresour. Technol. 2018,263:350–357
5. Investigation on biomass nitrogen-enriched pyrolysis: Influence of temperature. Wei Chen, Yingquan Chen, Haiping Yang⁎, Kaixu Li, Xu Chen, Hanping Chen. Bioresour. Technol. 2018,249:247–253.
6. Hydrogen production from cellulose catalytic gasification on CeO2/Fe2O3 catalyst. Jun Zou, Japhet Oladipo, Shilong Fu, Amal Al-Rahbi, Haiping Yang,⁎, Chunfei Wu, , Ning Cai, Paul Williams, Hanping Chen. Energy Conversion and Management, 2018, 171: 241-248.
7. The ash fusion characteristics and transformation behaviors during bamboo combustion in comparison with straw and poplar. Youjian Zhu, Junhao Hu, Wei Yang, Wennan Zhang, Kuo Zeng, Haiping Yang* , Shenglei Du, and Hanping Chen. Energy & Fuels 2018,32:5244−5251.
8. Influence of biochar addition on nitrogen transformation during co-pyrolysis of algae and lignocellulosic biomass. Wei Chen, Haiping Yang*, Yingquan Chen*, Kaixu Li, Mingwei Xia, Hanping Chen. Environmental Science and Technology 2018, 52 (16), 9514-9521.
9. Effect of sodium carboxymethyl cellulose addition on particulate matter emissions during biomass pellet combustion. Youjian Zhu, Wei Yang, Jiyuan Fan, Tao Kan, Wennan Zhang, Heng Liu, Wei Cheng,Haiping Yang⁎, Xuehong Wu, Hanping Chen. Applied Energy 2018,230:925–934.
10. Characterization of Hydrochar Pellets from Hydrothermal Carbonization of Agricultural Residues. Youjian Zhu, Yaohui Si, Xianhua Wang, Wennan Zhang, Jingai Shao, Haiping Yang*, Hanping Chen. Energy & Fuels, 2018, 32:11538-11546
11. Effect of minerals and binders on particulate matter emission from biomass pellets combustion. Wei Yang, Youjian Zhu, Wei Cheng, Huiying Sang, Xu Hanshen, Haiping Yang, Hanping Chen. Applied Energy,2018, 215:106-115
12. Ash Fusion Characteristics and Transformation Behaviors during Bamboo Combustion in Comparison with Straw and Poplar. Youjian Zhu, Junhao Hu, Wei Yang, Wennan Zhang, Kuo Zeng, Haiping Yang,*, Shenglei Du, and Hanping Chen. Energy Fuels,2018, 32: 5244−5251
13. Experiment and Modeling Study of Glucose Pyrolysis: Formation of 3 Hydroxy-γ-butyrolactone and 3 (2H) Furanone. Yang Fang, Jian Li, Yingquan Chen, Qiang Lu, Haiping Yang*, Xianhua Wang, Hanping Chen. Energy Fuels,2018, 32: 9519-9529
14. Catalytic fast pyrolysis of cellulose to produce furan compounds with SAPO type catalysts. J of Analytical and Applied Pyrolysis. Xu Chen, Yingquan Chen, Zhen Chen, Danchen Zhu, Haiping Yang*, Peng Liu, Tao Li, Hanping Chen. 2018,129:53-60.
15. Effects of potassium salts loading on calcium oxide on the hydrogen production from pyrolysis-gasification of biomass. Haiping Yang, Daqian Wang, Bin Li, Zhiwei Zeng, Lei Qu, Wennan Zhang, Hanping Chen. Bioresource Technology. 2018, 249: 744-750.
16. Generalized two-dimensional correlation infrared spectroscopy to reveal mechanisms of CO2 capture in nitrogen enriched biochar. Xiong Zhang, Shihong Zhang, Haiping Yang, Jingai Shao, Yingquan Chen, Xinjie Liao, Xianhua Wang, Hanping Chen. Proceedings of the Combustion Institute. 2017, 36(3): 3933-3940
17. Characteristics of Particulate Matter Emitted from Agricultural Biomass Combustion.Wei Yang, Youjian Zhu, Wei Cheng, Huiying Sang, Haiping Yang, Hanping Chen, Energy & Fuels, 2017. 31(7): 7493-7501.
18. Correlation of Feedstock and Bio-oil Compound Distribution. Jian Li, Yingquan Chen, Haiping Yang, Danchen Zhu, Xu Chen, Xianhua Wang, Hanping Chen, Energy & Fuels, 2017. 31(7): 7093-7100.
19. Hydrogen production from agricultural biomass wastes gasification in a fluidized bed with calcium oxide enhancing.Bin Li, Haiping Yang, Liangyuan Wei, Jingai Shao, Xianhua Wang, Hanping Chen, International Journal of Hydrogen Energy, 2017. 42(8): 4832-4839.
20. Absorption-enhanced steam gasification of biomass for hydrogen production: Effects of calcium-based absorbents and NiO-based catalysts on corn stalk pyrolysis-gasification. Bin Li, Haiping Yang, Liangyuan Wei, Jingai Shao, Xianhua Wang, Hanping Chen, International Journal of Hydrogen Energy, 2017. 42(9): 5840-5848.
21. Evolution of char structure during mengdong coal pyrolysis: Influence of temperature and K2CO3. Junhao Hu, Yingquan Chen, Kezhen Qian, Zixu Yang, Haiping Yang, Yang Li, Hanping Chen, Fuel Processing Technology, 2017. 159: 178-186.
22. Fast pyrolysis of cotton stalk biomass using calcium oxide. Xu Chen, Yingquan Chen, Haiping Yang, Wei Chen, Xianhua Wang, Hanping Chen, Bioresource Technology, 2017. 233: 15-20.
23. Algae pyrolytic poly-generation: Influence of component difference and temperature on products characteristics. Wei Chen, Haiping Yang, Yingquan Chen, Mingwei Xia, Zixu Yang, Xianhua Wang, Hanping Chen. Energy, 2017. 131: 1-12.
24. Transformation of Nitrogen and Evolution of N-Containing Species during Algae Pyrolysis.Wei Chen, Haiping Yang, Yingquan Chen, Mingwei Xia, Xu Chen, Hanping Chen, Environmental Science & Technology, 2017. 51(11): 6570-6579.
25. Co-gasification of coal and biomass: Synergy, characterization and reactivity of the residual char Junhao Hu, Jingai Shao, Haiping Yang, Guiying Lin, Yingquan Chen, Xianhua Wang, Wennan Zhang, Hanping Chen. Bioresource Technology, 2017, 244: 1-7.
26. The effects of contact time and coking on the catalytic fast pyrolysis of cellulose. Haiping Yang, Robert Coolman, Pranav Karanjkar, Haoyi Wang, Paul Dornath, Hanping Chen, Wei Fan, William Curtis Connerc T. J., Mountziaris , George Huber. Green Chemistry, 2017, 19(1): 286-297
27. Application of biomass pyrolytic polygeneration technology using retort reactors.Yang Haiping, Liu Biao,Chen Yingquan*, Chen Wei,Yang Qing,Chen Hanping. Bioresource Technology,2016,200:64-71
28. Biomass Pyrolytic Polygeneration of Tobacco Waste: Product Characteristics and Nitrogen Transformation. Chen Hanping, Lin Guiying, Chen Yingquan, Chen, Wei, Yang, Haiping. Energy & Fuels, 2016, 9(1):126-130.
29. Effect of Carboxymethyl Cellulose Binder on the Quality of Biomass Pellets. Si Yaohui, Hu Junhao, Wang Xianhua, Yang Haiping, Chen Yingquan, Shao Jingai, Chen Hanping. Energy & Fuels, 2016. 30(7): 5799-5808
30. Physicochemical properties and hygroscopicity of tobacco stem biochar pyrolyzed at different temperatures. Chen Hanping, Lin Guiying, Wang Xianhua, Chen, Yingquan, Liu Yingpeng, Yang Haiping , Shao Jingai. JOURNAL OF RENEWABLE AND SUSTAINABLE ENERGY. 2016,8(1):1812
31. Sulfur behavior during coal combustion in oxy-fuel circulating fluidized bed condition by using TG-FTIR. Tian Luning,Yang Wei,Chen Zhenhui,Wang Xianhua,Yang Haiping,Chen Hanping. JOURNAL OF THE ENERGY INSTITUTE. 2016,89(2):264-270
32. The densification of bio-char: Effect of pyrolysis temperature on the qualities of pellets. Hu Qiang,Yang Haiping,Yao Dingding,Zhu Danchen,Wang Xianhua,Shao Jingai,Chen Hanping. Bioresource Technology. 2016,200:521-527
33. The moisture sorption characteristics and modelling of agricultural biomass. Lin Guiying,Yang Haiping,Wang Xianhua,Mei Yanyang,Li Pan,Shao Jingai,Chen Hanping. Biosystems Engineering. 2016. 150: 191-200.
34. Torrefaction of different parts from a corn stalk and its effect on the characterization of products. Mei Yanyang,Che Qingfeng,Yang Qing,Draper Christopher,Yang Haiping,Zhang Shihong,Chen Hanping. Industrial Crops and Products. 2016. 92: 26-33
35. Utilization of pyrolytic char derived from bamboo chips for furfural removal: Kinetics, isotherm, and thermodynamics. Y. C. Li, X. H. Wang, J. A. Shao, P. Li, H. P. Yang & H. P. Chen. ENERGY SOURCES PART A-RECOVERY UTILIZATION AND ENVIRONMENTAL EFFECTS. 2016,38(11):1520-1529
36. Biomass pyrolysis for nitrogen-containing liquid chemicals and nitrogen-doped carbon materials. Chen, Wei, Yang, Haiping, Chen, Yingquan, Chen, Xu, Fang, Yang, Chen, Hanping. Journal of Analytical and Applied Pyrolysis, 2016. 120: 186-193
37. Biomass Pyrolytic Polygeneration System: Adaptability for Different Feedstocks. Chen, Yingquan, Yang Haiping, Wang Xianhua, Chen Wei, Chen Hanping. ENERGY & FUELS 2016,30(1):414-422
38. Li Pan, Li Di, Yang, Haiping, Wang Xianhua, Chen Hanping. Effects of Fe-, Zr-, and Co-Modified Zeolites and Pretreatments on Catalytic Upgrading of Biomass Fast Pyrolysis Vapors. ENERGY & FUELS. 2016, 30(4):3004-3013
39. Yao, Dingding, Hu, Qiang , Wang, Daqian , Yang, Haiping , Wu, Chunfei , Wang, Xianhua , Chen, Hanping. Hydrogen production from biomass gasification using biochar as a catalyst/support Bioresource Technology. 2016,216:159-164
40. Zou, Jun , Yang, Haiping ,Zeng, Zhiwei ,Wu, Chunfei , Williams, Paul T.,Chen, Hanping. Hydrogen production from pyrolysis catalytic reforming of cellulose in the presence of K alkali metal. International Journal of Hydrogen Energy. 2016, 41(25):10598-10607
41. Yang Qing ,Han Fei,Chen Yingquan,Yang Haiping *, Chen Hanping. Greenhouse gas emissions of a biomass-based pyrolysis plant in China.Renewable and Sustainable Energy Reviews,2016,53:1580-1590.
42. H. Yang, R. J. Coolman, P. Karanjkar, H. Wang, Z. Xu, H. Chen, T. J. Moutziaris , G. W. Huber. The effect of steam on the catalytic fast pyrolysis of cellulose, Green Chemistry, 2015, 17, 2912–2923
43. Xin Shanzhi, Chen Yingquan,Yang Haiping *,Yang Mingfa,Chen Lei,Wang Xianhua,Chen Hanping.Chemical structure evolution of char during the pyrolysis of cellulose. Journal of Analytical and Applied Pyrolysis,2015,116:263-271.
44. SL Du, HP Yang*, KZ Qian, XH Wang, HP Chen. Fusion and transformation properties of the inorganic components in biomass ash. Fuel, 2014, 117, Part B : 1281-1287
45. Effect of catalysts on the reactivity and structure evolution of char in petroleum coke steam gasification. Y Li, HP Yang*, JH Hu, XH Wang, HP Chen. Fuel, 2014, 117, Part B : 1174-1180
46. Torrefaction of agriculture straws and its application on biomass pyrolysis poly-generation. YQ Chen, HP Yang*, Q Yang, HM Hao, B Zhu, H Chen. Bioresource Technology, 2014, 156: 70–77
47. Evolution of functional groups and pore structure during cotton and corn stalks torrefaction and its correlation with hydrophobicity. YQ Chen, Biao Liu, HP Yang *, Q Yang, H Chen Fuel, 2014, 137: 41-48.
48. Hydrogen production from catalytic reforming of the aqueous fraction of pyrolysis bio-oil with modified Ni/Al catalysts. DD Yao, CF Wu, HP Yang*, Q Hu, MA Nahil, HP Chen, P T. Williams. International J. of Hydrogen Energy, 2014,39:14642-14652,
49. The enhancing mechanism of calcium oxide on water gas shift reaction for hydrogen production. B Li, LY Wei, HP Yang*, XH Wang , HP Chen. Energy, 2014, 68 :248-254
50. Fractional condensation of multicomponent vapors from pyrolysis of cotton stalk. HQ Sui, HP Yang*, JA Shao, XH Wang, YC Li, HP Chen. Energy& Fuels, 2014, 28(8): 5095-5102
51. Effect of oxygen and steam on gasification of palm oil wastes. SL Du, HP Yang*, XH Wang, SH Zhang, HP Chen. Proceedings of the ICE - Waste and Resource Management, 2014, 167, ( 1):25 –34
52. Characteristics of the Temperature Distribution and Product Gas Evolving of an Updraft Biomass Gasifier. Bin Li , HP Chen , HP Yang*, XH Wang Shihong Zhang. Energy Fuels, 2013, 27 (3), pp 1460–1465
53. Assessment of pyrolysis polygeneration of biomass based on major components: Product characterization and elucidation of degradation pathways. S Xin, HP Yang*, Y Chen, X Wang, H Chen. Fuel, 20131,13, 266–273
54. Influence of NH3/CO2 Modification on the Characteristic of Biochar and the CO2 Capture. X Zhang, S Zhang, HP Yang*, Tao S, Y Chen. BioEnergy Research, 2013, 6, (4):1147-1153
55. The influence of alkali and alkaline earth metal compounds on pyrolysis of peanut shell. XH Wang, HP Chen, HP Yang*, J Wang, F Xin. Asia-Pac. J. Chem. Eng. 2012,7(3):463-468
56. Influence of pyrolysis condition and coal type on char gasification reactivity. XH Wang, HP Chen, HP Yang*, FD Ju, SH Zhang. Asia-Pac. J. Chem. Eng. 2012,7(S2): 173-176
57. Biomass-Based Pyrolytic Polygeneration system on Cotton Stalk Pyrolysis: Influence of Temperature. YQ Chen, HP Yang*, XH Wang, HP Chen, SH, Zhang. Bioresource Technology 2012, 107: 411–418
58. Experimental Investigation of Biomass Gasification in a Fluidized Bed Reactor. Chen HP, Li B, Yang HP*, Zhang SH, Wang XH. Energy & Fuels, 2008, 22(5), 3493-3498
59. Pressurized pyrolysis and gasification of Chinese typical coal samples, Chen HP, Luo ZW, Yang HP*, Ju FD, Zhang SH. Energy & Fuel, 2008. 22(2): 1136-1141.
60. Influence of pressure on coal pyrolysis and char gasification, Yang HP, Chen HP, Ju FD, et al. Energy & Fuels, 2007, 21(6): 3165-3170.
61. Prediction of gaseous products from biomass pyrolysis through combined kinetic and thermodynamic simulations, Lee D.H., Yang HP, Yan R., Liang T.D. Fuel, 2007, 86: 410-417
62. Characteristics of hemicellulose, cellulose and lignin pyrolysis, HP Yang, R. Yan, HP Chen, DH Lee, CG Zheng. Fuel. 2007, 86: 1781-1788
63. The effect of pressure and temperature on coal pyrolysis gasification, Chen H.P., Yang HP*, Ju F.D. Wang J., Zhang S.H., Xu M.H. Asia-Pac. J. Chem. Eng. 2007, 2(3): 203-212
64. An in-depth investigation of biomass pyrolysis based on three major components: xylan, cellulose and lignin, Yang HP, Yan R., Chen H.P., Liang T.D., Lee D.H., Zheng C.G. Energy & Fuels, 2006, 20(1):388-393.
65. Mechanism of palm oil waste pyrolysis in a packed bed, Yang HP, Yan R., Chen H.P., Liang T.D., Lee D.H., Zheng C.G. Energy & Fuels, 2006, 20: 1321-1328
66. Influence of mineral matter on pyrolysis of palm oil wastes, Yang HP, Yan R., Chen HP, Liang TD, Lee DH, Zheng CG. Combustion and Flame, 2006, 146, 605–611
67. Pyrolysis of palm oil wastes for enhanced production of hydrogen rich gases, Yang HP, Yan R, Chen HP, Liang TD, Lee DH, Zheng CG, Fuel Processing Technology, 2006, 87: 935-942
68. Influence of temperature on the distribution of gaseous products from pyrolyzing palm oil wastes, Yan R, Yang, HP, Chen HP, Chin T, Liang TD, Zheng CG. Combustion and Flames, 2005, 142: 24-32
69. Thermogravimetric Analysis-Fourier Transform Infrared Analysis of Palm Oil Waste Pyrolysis, Yang HP, Yan R, Chen HP, Chin T, Liang TD, Zheng CG. Energy & Fuels 2004, 18, 1814-1821
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