¿­Ê±

¸±½ÌÊÚ/¸±Ñо¿Ô±

ÍõÏþ»Ô

Ðû²¼Ê±¼ä£º2021-09-24


¸±.jpg

ÍõÏþ»Ô£¬ÄУ¬1987Äê11ÔÂÉú£¬ºº×壬ËÄ´¨Ê¡ËìÄþÊÐÈË£¬²©Ê¿£¬¸±½ÌÊÚ£¬²©Ê¿Éúµ¼Ê¦£¬ÈëÑ¡Ììϲ©Ê¿ºóÁ¢ÒìÈ˲ÅÖ§³ÖÍýÏëºÍУÇàÄê°Î¼âÈ˲Å¡£ÏÖΪ»¯Ñ§¹¤³ÌϵÎ÷ϯ£¬ËùÔÚѧ¿ÆΪ»¯Ñ§¹¤³ÌÓëÊÖÒÕ£¬Ö÷Òª´ÓÊÂ×ÔÈ»ÆøË®ºÏÎï¡¢¸ßѹÁ÷ÌåÏà̬ÓëÎïÐÔ¡¢Ì¼²¶¼¯Óë·â´æ·½ÃæµÄ¿ÆѧÑо¿ºÍÊÖÒÕ¿ª·¢¡£ÔÚApplied Energy¡¢Energy¡¢Nature Communications¡¢Chemical Engineering ScienceµÈÄÜÔ´¡¢»¯¹¤ÀàtopÆÚ¿¯½ÒÏþÂÛÎÄ50Óàƪ£¬ÊÚȨÖйú·¢Ã÷רÀû6¼þ£¬»ñÈí¼þÖø×÷Ȩ2Ï»ñ½ÌÓý²¿×ÔÈ»¿Æѧ½±¶þµÈ½±1Ïî¡£½üÄêÀ´Ö÷³ÖºÍ¼ÓÈëÁ˹ú¼Ò×ÔÈ»¿Æѧ»ù½ðÃæÉÏÏîÄ¿¡¢ÇàÄê¿Æѧ»ù½ð¡¢Ììϲ©ÐÂÍýÏë¡¢ÖØ´ó¿ÆÑÐÒÇÆ÷ÑÐÖÆÏîÄ¿¡¢Æóҵ͎Ἧ³ÉÏîÄ¿¿ÎÌâ¡¢ÖصãÏîÄ¿ºÍÆóÊÂÒµµ¥Î»ÏîÄ¿µÈ10ÓàÏî¡£

¡¾ÁªÏµ·½·¨¡¿E-mail£ºxh.wang@cup.edu.cn

¡¾½ÌÓýÅä¾°¡¿

£¨1£©2011.09-2017.06 ¿­Ê±£¨±±¾©£© »¯Ñ§¹¤³ÌÓëÊÖÒÕ ²©Ê¿Ñ§Î»£¨Ë¶²©Á¬¶Á£© µ¼Ê¦£º³Â¹â½ø

£¨2£©2015.10-2016.10 ÃÀ¹ú¿ÆÂÞÀ­¶à¿óÒµ´óѧ ÍŽá×÷Óý²©Ê¿Ñо¿Éú£¨¹ú¼Ò¹«ÅÉ£© ÏàÖúµ¼Ê¦£ºCarolyn A. Koh

£¨3£©2007.09-2011.06 ÖØÇì´óѧ »¯Ñ§¹¤³ÌÓ빤ÒÕ Ñ§Ê¿Ñ§Î»

¡¾ÊÂÇéÂÄÀú¡¿

£¨1£©2021.05-ÖÁ½ñ ¿­Ê±£¨±±¾©£© »¯Ñ§¹¤³ÌÓëÇéÐÎѧԺ ¸±½ÌÊÚ

£¨2£©2019.11-2021.05 ¿­Ê±£¨±±¾©£© »¯Ñ§¹¤³ÌÓëÇéÐÎѧԺ ½²Ê¦

£¨3£©2017.07-2019.11 ¿­Ê±£¨±±¾©£© »¯Ñ§¹¤³ÌÓëÇéÐÎѧԺ ʦ×ʲ©Ê¿ºó

¡¾½Ìѧ¿Î³Ì¡¿

£¨1£©±¾¿ÆÉú¿Î³Ì:¡¶»¯¹¤Ô­Àí¡·¡¢¡¶×ÔÈ»ÆøË®ºÏÎï¡·¡¢¡¶»¯¹¤ÈÈÁ¦Ñ§ÊµÑé¡·

£¨2£©Ñо¿Éú¿Î³Ì:¡¶¸ßµÈ»¯¹¤ÈÈÁ¦Ñ§¡·

¡¾´ú±íÐÔ¿ÆÑÐÏîÄ¿¡¿

£¨1£©¹ú¼Ò×ÔÈ»¿Æѧ»ù½ðÃæÉÏÏîÄ¿£¬¸»Ë®ÇéÐÎÖÐË®ºÏÎïÆÊÎöµÄÈÈ/¶¯Á¦Ñ§¿ØÖÆ»úÀíÑо¿£¬2023.01-2026.12£¬Ö÷³Ö

£¨2£©¹ú¼Ò×ÔÈ»¿Æѧ»ù½ðÇàÄê¿Æѧ»ù½ðÏîÄ¿£¬CO2Ë®ºÏÎïÔÚº£µ×³Á»ýÎïÖеÄÍË»¯ËÙÂÊÑо¿£¬2020.01-2022.12£¬Ö÷³Ö

£¨3£©Öйú²©Ê¿ºó¿Æѧ»ù½ðÌìϲ©Ê¿ºóÁ¢ÒìÈ˲ÅÖ§³ÖÍýÏ룬×ÔÈ»ÆøË®ºÏÎïÄ£Ä⿪²É¼°·Å´óЧӦÑо¿£¬2017.07-2019.11£¬Ö÷³Ö

£¨4£©Öйú²©Ê¿ºó¿Æѧ»ù½ðÃæÉÏÏîÄ¿£¬º¬Ë®ºÏÎï³Á»ýÎïµÄÉùѧÎïÐÔÑо¿£¬2017.11-2019.11£¬Ö÷³Ö

£¨5£©¹ú¼Ò×ÔÈ»¿Æѧ»ù½ð¹ú¼ÒÖØ´ó¿ÆÑÐÒÇÆ÷ÑÐÖÆÏîÄ¿£¬´ó±ê×¼-·Öά¶È×éºÏʽ×ÔÈ»ÆøË®ºÏÎ↑²ÉʵÑéÄ£Äâϵͳ£¬2022.01-2026.12£¬ÏîÄ¿Ö÷¸É

£¨6£©¹ú¼Ò×ÔÈ»¿Æѧ»ù½ðÆóҵ͎Ἧ³ÉÏîÄ¿¿ÎÌ⣬һÁ¬ÅŲɡ¢Æø-Ë®-É°-Ë®ºÏÎï¶àÏàÁ÷ÌåÇå¾²ÊäÔË»úÀí¼°ÒªÁ죬2021.01-2024.12£¬ÏîÄ¿Ö÷¸É

£¨7£©¹ú¼Ò×ÔÈ»¿Æѧ»ù½ðÖصãÏîÄ¿£¬×ÔÈ»ÆøË®ºÏÎ↑²ÉÀú³ÌÄÜԴЧÂʵÄÒªº¦Ó°ÏìÒòËؼ°Ìá¸ßÄÜЧµÄÒªÁ죬2017.01-2021.12£¬ÏîÄ¿Ö÷¸É

¡¾´ú±íÐÔ¿ÆÑÐÂÛÎÄ¡¿

[1] X.H. Wang, Y.F. Sun, Y.F. Wang, N. Li, C-Y Sun*, G.J. Chen, B. Liu, L.Y. Yang. Gas production from hydrates by CH4 ¨C CO2/H2 replacement. Applied Energy, 2017, 188: 305-314.

[2] X.H. Wang*, Y. Chen, X.X. Li, Q. Xu, J.Y. Kan, C.Y. Sun, G.J. Chen*. An exergy-based energy efficiency analysis on gas production from gas hydrates reservoir by brine stimulation combined depressurization method. Energy, 2021, 231:120960

[3] J.L. Cui#, X.H Wang#, Y.L. Li, Z.X. Wang*, G.J. Chen*, L.W. Cheng*, S. Xu, M. Cao, L.W. Sun. Influence of gravity on methane hydrate dissociation characteristics by depressurization in marine hydrate reservoirs. Energy, 2024, 296, 131133.

[4] X.H. Wang*, X.J. Xu, J. Cai, H.X. Zheng, X.X. Li, W.X. Pang, C.Y. Sun, G.J. Chen*. Effect of residual guest concentration in aqueous solution on hydrate reformation kinetics. Fuel, 2023, 339:126923.

[5] J. Cai#, X.H. Wang#, P. Xiao, H. Tang, B. Liu, C.Y. Sun*, G.J. Chen. Modeling on the phase equilibrium of gas hydrate in electrolytes containing system. Fuel, 2023, 333:126282.

[6] X.H. Wang*, X.J. Xu, J. Cai, H.X. Zheng, Y.X. Chen, W.X. Pang, Y. Yu, C.Y. Sun, G.J. Chen*. CO2 concentration in aqueous solution from gas-liquid equilibrium system to gas-liquid-hydrate coexistence system. Gas Science and Engineering, 2023, 115:205024.

[7] X.H. Wang*, X.J. Xu, J. Cai, Y.W. Wu, Y.X. Chen, W.X. Pang, C.Y. Sun, G.J. Chen*. Experimental study on the intrinsic dissociation rate of methane hydrate. Chemical Engineering Science, 2023, 282:119278.

[8] X.H. Wang, C.Y. Sun*, G.J. Chen, Y.N. He, Y.F. Sun, Y.F. Wang, N. Li, X.X. Zhang, B. Liu, L.Y. Yang. Influence of gas sweep on methane recovery from hydrate-bearing sediments. Chemical Engineering Science, 2015,134, 727-736.

[9] P. Xiao, J.J. Li, W. Chen, W.X. Pang, X.W. Peng, Y. Xie, X.H. Wang, C. Deng, C.Y. Sun*, B. Liu*, Y.J. Zhu, Y.L. Peng, P. Linga*, G.J. Chen*. Enhanced formation of methane hydrate from active ice with high gas uptake. Nature Communications, 2023, 14:8068.

[10] M.K Yang, H.S. Wang, J.Y. Zuo, C. Deng, B. Liu, L. Chai, K. Li, H. Xiao, P. Xiao, X.H. Wang, W. Chen, X.W. Peng, Y. Han, Z.X. Huang, B.C. Dong, C.Y. Sun*, G.J. Chen*. Efficient separation of butane isomers via ZIF-8 slurry on laboratory- and pilot-scale. Nature Communications, 2022, 13:4792.

[11] X.H. Wang, F.G. Li, Y.X. Xu, C.Y. Sun*, H. Pan, B. Liu, L.Y. Yang, G.J. Chen*, Q.P. Li. Elastic properties of hydrate-bearing sandy sediment during CH4¨CCO2 replacement. Energy Conversion and Management, 2015. 99, 274-281.

[12] Q. Yuan#, X.H. Wang#, A. Dandekar, C.Y. Sun*, Q.P. Li, Z.W. Ma, B. Liu, G.J. Chen*. Replacement of Methane from Hydrates in Porous Sediments with CO2-in-water. Emulsions. Ind. Eng. Chem. Res., 2014, 53, 12476?84.

[13] X.H. Wang, Y.F. Wang, Y. Xie, C.Y. Sun*, G.J. Chen*. Study on the decomposition conditions of gas hydrate in quartz sand-brine mixture systems, J. Chem. Thermodynamics, 2019, 131:247¨C253.

[14] R. Li#, X.H. Wang#, B.J. Cao, H.N. Chen, W.X. Pang, Q.P. Li, Y.F. Sun, Q.L. Ma, C.Y. Sun*, G.J. Chen. Experimental and modeling on hydrate phase equilibrium conditions for hydrogen-containing gas mixtures in pure water and brines. J. Chem. Thermodynamics, 2023, 179:107001.

[15] X.H. Wang, H.B. Qin, A. Dandekar, Y.F. Wang, Y.F. Sun, Q.L. Ma, B. Liu, L.Y. Yang, C.Y. Sun*, G.J. Chen. Hydrate phase equilibrium of H2/CH4/CO2 ternary gas mixtures and cage occupancy percentage of hydrogen molecules. Fluid Phase Equilibria, 2015, 403, 160-166.

[16] X.H. Wang, J.S. Sun; L.Y. Jiang, Y.F. Sun, C.Y. Sun*. Occurrence characteristics of gas hydrates formed from seepage gas in sandy deposits, Journal of Petroleum Science and Engineering, 2016, 147: 451-458.

[17] X.H. Wang*, Q. Xu, Y.N. He, Y.F. Wang, Y.F. Sun, C.Y. Sun, G.J. Chen. The acoustic properties of sandy and clayey hydrate-bearing sediments, Energies, 2019, 12:825¨C1835.

[18] J. Cai#, X.H. Wang#, Y.W. Wu, H. Tang, L. Jun, X.J. Xu, J.F. Ji, C.Y. Sun*, G.J. Chen*. Modeling on gas hydrate phase equilibrium at high concentration of alcohols. Journal of Molecular Liquids, 2024, 395:123826.

[19] X. Sun#, X.H. Wang#, P. Xiao, Y.F. Sun, X.X. Li, W.X. Pang, Q.P. Li, C.Y. Sun*, G.J. Chen*. Dual-gas co-production behavior for hydrate-bearing coarse sediment with underlying gas via depressurization under constrained conditions. Gas Science and Engineering, 2023, 116: 205038.

[20] ÍõÏþ»Ô, ÐíÇ¿, Ö£»ªÐÇ, ËﳤÓî, ³Â¹â½ø*; ×ÔÈ»ÆøË®ºÏÎïÖû»¿ª²ÉµÄÄÜԴЧÂÊÑо¿, »¯¹¤Ñ§±¨, 2020, 71: 5754-5762.

[21] ²Ì½ø, ÍõÏþ»Ô*, ÌÀº­, ³Â¹â½ø, ËﳤÓî. TBABË®ÈÜҺϵͳÖаëÁýÐÍË®ºÏÎïµÄÏàƽºâÕ¹ÍûÄ£×Ó, »¯¹¤Ñ§±¨, 2023, 74(1):408-415.

[22] Y. Xie, R. Li, X.H. Wang*, T. Zheng, J.L. Cui, Q. Yuan, H.B. Qin, C.Y. Sun*, G.J. Chen*. Review on the accumulation behavior of natural gas hydrates in porous sediments. Journal of Natural Gas Science and Engineering, 2020, 83:103520.

[23] J.L. Cui, Z.F. Sun, X.H. Wang*, B. Yu, S.D. Leng, G.J. Chen, C.Y. Sun*, Fundamental mechanisms and phenomena of clathrate hydrate nucleation, Chinese J. Chem. Eng., 2019, 27:2014¨C2025.

[24] R. Li, B.J. Cao, H.N. Chen, X.H. Wang*, Y.F. Sun, C.Y. Sun*, B. Liu, W.X. Pang, Q.P. Li, G.J. Chen*. Experimental study on the dual-gas co-production from hydrate deposit and its underlying gas reservoir. Energy, 2022, 258:124847.

[25] W. Jiang, J.Y. Kan, B.C. Dong, X.X. Li, X.H. Wang*, C. Deng*, B. Liu, Q.P. Li, C.Y. Sun, G.J. Chen. Natural gas hydrate exploitation and recovered natural gas liquefaction driven by wind power: Process modelling and energy performance evaluation. Energy, 2023, 282:128870.

[26] J.L. Cui, L.W. Cheng, J.Y. Kan, W.X. Pang, J.N. Gu, K. Li, L.B. Wang, C.Y. Sun*, X.H. Wang*, G.J. Chen*, X.X. Li. Study on the spatial differences of methane hydrate dissociation process by depressurization using an L-shape simulator, Energy, 2021, 228:120635.

[27] X. Sun, P. Xiao, X.H. Wang, Y.F. Sun, X.X. Li, W.X. Pang, Q.P. Li, C.Y. Sun*, G.J. Chen*. Study on the influence of well closure and production pressure during dual-gas co-production from hydrate-bearing sediment containing underlying gas. Energy, 2023, 279:128067.

¡¾´ú±íÐÔ¾Û»áÂÛÎÄ¡¿

[1] Xiao-Hui Wang. The CO2 solubility in aqueous solution from Lw-V two-phase system to H-Lw-V coexistence system. International Conference on Properties and Phase Equilibria for Product and Process Design (PPEPPD 2023). 2023.5.21-25, Tarragona, Spain. (»¯¹¤ÈÈÁ¦Ñ§ÁìÓò×î¸ßѧÊõˮƽ¾Û»á£¬3ÄêÕÙ¿ª1´Î£¬Í¨³£Ã¿½ìÖйúÈëÑ¡1¸ö±¨¸æ)

[2] Xiao-Hui Wang, Yi-Wei Wu, Chang-Yu Sun, Guang-Jin Chen. Exergy-based energy efficiency analysis for the production process of natural gas hydrates, 10th International Conference on Gas Hydrates (ICGH10), 2023.7.9-14, Singapore. (¿ÚÍ·»ã±¨)

[3] ÍõÏþ»Ô. »¯¹¤ÈÈÁ¦Ñ§ÔÚÆøÌåË®ºÏÎïÑо¿ÖеÄÓ¦ÓÃ. µÚÊ®½ìÌìÏ»¯¹¤ÈÈÁ¦Ñ§½ÌѧºÍÎ÷²¿ÄÜÔ´Éú³¤×êÑлá, 2023.8.15-19, ¿ËÀ­ÂêÒÀ. (¿ÚÍ·»ã±¨)

[4] ÍõÏþ»Ô. Æø-Ë®-É°¶àÏàÁ÷ϵͳÖÐË®ºÏÎï¶þ´ÎÐγɼ°Ó°ÏìÒòËØÑо¿. µÚÊ®°Ë½ìÖйú¿ÉÔÙÉúÄÜԴѧÊõ´ó»á. 2023.4.1-3, ÄϾ©. (¿ÚÍ·»ã±¨)

[5] ÍõÏþ»Ô. ×ÔÈ»ÆøË®ºÏÎ↑²ÉÀú³ÌÄÜԴЧÂʵÄÆÀ¼ÛÒªÁì. µÚÆß½ì·ÇͨÀýÓÍÆøµØÖÊÆÀ¼ÛѧÊõ×êÑлá, 2023.7.31-2023.8.2, ±±¾©. (ÌØÑû±¨¸æ)

[6] ÍõÏþ»Ô. º¬¹Ì½¬ÒºÏµÍ³µÄÕ³¶È¼°ÆäÓ°ÏìÒòËØÑо¿. µÚÒ»½ìÁ÷±äѧÇàÄêѧÊõɳÁú, 2022.8.12-14, Çൺ. (¿ÚÍ·»ã±¨)

[7] Xiao-Hui Wang. Natural gas hydrate exploitation & CO2 geological storage. 2019 Nano Petro Science and Technology International Conference. 2019.12.16-17. Beijing. (¿ÚÍ·»ã±¨)

[8] ÍõÏþ»Ô£¬³ÂÔÆ£¬ËﳤÓ³Â¹â½ø. ×ÔÈ»ÆøË®ºÏÎï×¢ÈÈ-½µÑ¹ÍŽῪ²ÉÀú³ÌµÄÄÜЧÆÊÎö. 2018Öйú¿ÉÔÙÉúÄÜԴѧÊõ´ó»á. 2018.8.21-23, ±±¾©.£¨×î¼Ñ¿ÚÍ·»ã±¨£©

¡¾·¢Ã÷רÀûÓëÈí¼þÖø×÷Ȩ¡¿

[1] CUPB_HYDPack Ë®ºÏÎïÅÌËãÈí¼þV1.0, ¿­Ê±£¨±±¾©£©, 2021.12.02£¬ 2021SR2108589.£¨¿ÉÅÌËã´¿Ë®¡¢¸ßº¬ÑΡ¢¸ßº¬´¼¡¢Ôö½ø¼Á¡¢³Á»ýÎï¡¢HÐÍË®ºÏÎïµÈÖØ´óϵͳ£¬·º»¯ÄÜÁ¦¸üºÃ£»¿Éµ¥µã/¶àµãÅÌËã¡¢»æͼºÍÊý¾Ýµ¼³öµÈ¹¦Ð§£©

[2] CUPB_PPEC CO2Ïà̬ÓëÎïÐÔÅÌËãÈí¼þV1.0£¬¿­Ê±£¨±±¾©£©, 2023.03.01£¬ 2023SR0609589.£¨°üÀ¨ËĸöÄ £¿é£¬Ä £¿é1£ºCO2Ïà̬Óë»ù´¡ÎïÐÔÅÌË㣬È磺CO2Æø/Òº/³¬ÁÙ½ç̬չÍû£¬¼°ìÊ¡¢ìØ¡¢ÒݶȵÈÅÌËã£»Ä £¿é2£º¿íÎÂѹÌõ¼þÏÂCO2ÏûÈÚ¶ÈÅÌË㣬ÁýÕÖÆø-ÒºÁ½Ïàϵͳ¡¢Æø-Òº-Ë®ºÏÎïÈýÏàϵͳ¡¢´¿Ë®/ÑÎˮϵͳ£»Ä £¿é3£ºCO2Ë®ºÏÎïÏàƽºâÌõ¼þÅÌËã£»Ä £¿é4£ºCO2-Ô­ÓÍ×îС»ìÏàѹÁ¦ÅÌË㣩

[3] ÍõÏþ»Ô, ³Â¹â½ø, ËﳤÓî, ´Þ½ðÁú, ÁõÝí, ÂíÇìÀ¼, ÑîÀ¼Ó¢. Ò»ÖÖº£µ××ÔÈ»ÆøË®ºÏÎ↑²É×°Öü°¿ª²ÉÒªÁì, Öйú·¢Ã÷רÀû, ZL201810139716.8.

[4] ËﳤÓî, ³Â¹â½ø, ÍõÏþ»Ô, Ëïäôö­, Àîéª, ÁõÝí, ÑîÀ¼Ó¢. Ò»ÖÖʹÓÃCO2ºÍH2µÄ»ìÏýÆøÌ忪²É×ÔÈ»ÆøË®ºÏÎïµÄÒªÁì, Öйú·¢Ã÷רÀû, ZL 201410217147.6.

[5] ËﳤÓî, ³Â¹â½ø, ´Þ½ðÁú, ÍõÏþ»Ô, ³ÌÁ¢Î°, ÀîÀ¥. Ò»ÖÖÀ©Õ¹×ÔÈ»ÆøË®ºÏÎ↑²ÉÏàËÆÄ£ÄâµÄ×éºÏ¹ÜµÀ, Öйú·¢Ã÷רÀû, ZL201920468130.6.

[6] ³Â¹â½ø, ËﳤÓî, ´Þ½ðÁú, ÍõÏþ»Ô. ¶à¸ª»¥ÁªÊ½×ÔÈ»ÆøË®ºÏÎï³É²Ø¿ª²É·ÂÕæÄ£Äâ×°Öü°ÓÃ;, Öйú·¢Ã÷רÀû, ZL 201810101187.2.

[7] ³Â¹â½ø, ËﳤÓî, ÀîÀ¥, ´Þ½ðÁú, ÍõÏþ»Ô. ×ÔÈ»ÆøË®ºÏÎ↑²ÉµÄÄ£Äâ×°Öá¢Ä£Äâϵͳ£¬Öйú·¢Ã÷רÀû, ZL 201910529986.4.

[8] ³Â¹â½ø, ´Þ½ðÁú, ËﳤÓî, ÀîÀ¥, ³ÌÁ¢Î°, ÍõÏþ»Ô. Ò»ÖÖÀ©Õ¹×ÔÈ»ÆøË®ºÏÎ↑²ÉÏàËÆÄ£Äâ¹ÜµÀ¼°ÏµÍ³, Öйú·¢Ã÷רÀû, ZL 201920469855.7.

¡¾¿ÆÑн±Àø¡¿

[1] 2023Ä꣬עCO2Öû»¿ª²É×ÔÈ»ÆøË®ºÏÎï»úÀíÓëÌá¸ßÖû»Ð§ÂÊÒªÁìÑо¿, ÖлªÈËÃñ¹²ºÍ¹ú½ÌÓý²¿, ×ÔÈ»¿Æѧ½±¶þµÈ½± (ÅÅÃû£º8/15)

[2] 2018Ä꣬ÈëÑ¡¿­Ê±£¨±±¾©£©Ð£ÇàÄê°Î¼âÈ˲Å

[3] 2017Ä꣬ÈëÑ¡Ììϲ©Ê¿ºóÁ¢ÒìÈ˲ÅÖ§³ÖÍýÏë

¡¾Ñ§Êõ¼æÖ°¡¿

[1] ¡¶Petroleum Science¡·£¬µÚÒ»½ì/µÚ¶þ½ìÇàÄê±àί£¬2020.8-ÖÁ½ñ

[2] ¡¶Processes¡·£¬¿Í×ù±à¼­

[3] ¡¶Frontiers in Energy Research¡·£¬¿Í×ù±à¼­

[4] Applied Energy¡¢Energy¡¢Fuel¡¢CEJµÈÖøÃûÆÚ¿¯Éó¸åÈË

¡¾ÍøÕ¾µØͼ¡¿¡¾sitemap¡¿