Ò¼ºÅÓéÀÖAPP

»ù±¾ÇéÐΣº£º£º

ºúÁÖ£¬ºþ±±ËÉ×ÌÈË£¬1993Äê4ÔÂÉú£¬¹¤Ñ§²©Ê¿£¬½²Ê¦¡£¡£¡£¡£

ÁªÏµ·½Ê½£º£º£ºµç×ÓÓÊÏ䣺£º£ºlinhu0410@163.com

½ÌÓýÅä¾°£º£º£º

2011.09-2015.06£¬±±·½Ãñ×å´óѧ£¬»¯Ñ§»¯¹¤Ñ§Ôº»¯Ñ§¹¤³ÌÓ빤ÒÕרҵ£¬»ñ¹¤Ñ§Ñ§Ê¿Ñ§Î»2015.09-2018.06£¬Î人¿Æ¼¼´óѧ£¬»¯Ñ§»¯¹¤Ñ§Ôº»¯Ñ§¹¤³ÌÓëÊÖÒÕרҵ£¬»ñ¹¤Ñ§Ë¶Ê¿Ñ§Î»2018.09-2022.06£¬Öйú¿óÒµ´óѧ£¨½­ËÕ£©£¬»¯Ñ§¹¤³ÌѧԺ»¯Ñ§¹¤ÒÕרҵ£¬»ñ¹¤Ñ§²©Ê¿Ñ§Î»

ÊÂÇéÂÄÀú£º£º£º

2022.06-2023.01£¬ÖпÆÔº¹ãÖÝÄÜÔ´Ñо¿Ëù£¬ÖúÀíÑо¿Ô±/ÌØÊâÑо¿ÖúÀí£¬´ÓÊÂï®Àë×Ó¶¯Á¦µç³Ø¸ßÄøÈýÔªÕý¼«ÖÊÁϵÄÉè¼ÆÊÂÇé

20023.02-2023.10£¬ºþ±±ÍòÈóÐÂÄÜÔ´¿Æ¼¼¹É·ÝÓÐÏÞ¹«Ë¾Ñз¢ÖÐÐÄ£¬¸ß¼¶Ñз¢¹¤³Ìʦ£¬´ÓÊÂï®Àë×Ó¶¯Á¦µç³ØÁ×ËáÃÌÌú﮺ÍÄƵç³ØÕý¼«ÖÊÁϲã×´¹ý¶É½ðÊôÑõ»¯ÎïµÄÉè¼ÆÓ빤ҵ»¯µÄÊÂÇé

2023.10ÖÁ½ñ£¬Ò¼ºÅÓéÀÖAPP»¯Ñ§¹¤³ÌѧԺ£¬½²Ê¦/ÄÚƸ¸±½ÌÊÚ

Ñо¿Æ«Ïò£º£º£º

1¡¢½ðÊô-¹ÌÌåËáµÄϸÄåÐÞ½¨¼°ÓÃÓÚº¬Ì¼×ÊÔ´µÄ´ß»¯×ª»¯£»£»£»2¡¢ÉúÎïÖÊÈȽ⣻£»£»3¡¢ï®Àë×Ó¶¯Á¦µç³ØÒªº¦Õý¼«ÖÊÁϵĿɿØÖƱ¸¼°Æä´¢ÄÜÑо¿

ѧÊõ¼æÖ°£º£º£º

EnergyºÍJournalofEnvironmentalManagementµÈSCIÆÚ¿¯µÄÉó¸åÈË

´ú±íÐÔЧ¹û£º£º£º

½ü3Äê½ÒÏþSCIÊÕ¼ÂÛÎÄ9ƪ£¬ÆäÖÐÒÔµÚÒ»×÷Õß½ÒÏþÖпÆÔºÒ»Çø2ƪºÍ¶þÇø5ƪ¡£¡£¡£¡£

1.HuLin*£¬GuoXian-Hou,WeiXian-Yong, etal. Researchonthe influenceofsequentialisopropanolysis liquefaction on the composition of liquid tars and physicochemicalstructureevolutionofRenbeilignite.Energy,2023,279:128097.DOI:10.1016/j.energy.2023.128097(ÖпÆÔºÒ»ÇøTOP£¬IF£º£º£º9.0)

2. HuLin*,WeiXian-Yong,XuMei-Ling, etal.Insightsintotheinfluenceofmethanolysisonthephysicochemical structurevariationandpyrolysisreactivity ofwheatstraw.Industrial Crops&Products,2022, 187: 115495. DOI: 10.1016/j.indcrop.2022.115495 (ÖпÆÔºÒ»ÇøTOP£¬IF£º£º£º5.9)

3. Guo, Xian-Hou, Wei,Xian-Yong, HuLin, etal. Molecularcharacterizationofamiddle/low-temperaturecoaltarbymultiplemassspectrometries.Fuel,2021,306:121435.DOI:10.1016/j.fuel.2021.121435 (ÖпÆÔºÒ»ÇøTOP,IF: 7.4)

4. Kang Yu-Hong,Chen Tao, Gao Juan, Li Fan,HuLin,etal.Comprehensiveinvestigationofthemechanismsfor pyrolyzingmacromolecularnetworks inHecaogousubbituminouscoal bycomparingtheethanolysisandflash pyrolysis. Fuel, 2022, 324: 124619. DOI:10.1016/j.fuel.2022.124619 (ÖпÆÔºÒ»ÇøTOP,IF: 7.4)

5.Hu Lin*£¬Wei Xian-Yong, XuMei-Ling,etal.Selectiveorganic phasehydrodeoxygenationoftypical phenolic monomers and two ligninoils overhighlyactivePd/Hbetacatalystforhigh-gradebio-fuelproduction.JournalofEnvironmentalChemicalEngineering, 2021, 9(6):106599.DOI:10.1016/j.jece.2021.106599 (ÖпÆÔº¶þÇø,IF£º£º£º7.7)

6. HuLin*,WeiXian-Yong, GuoXian-Hou, etal. Investigationonthekineticbehavior,thermodynamicandvolatileproductsanalysisof chili strawwastepyrolysis.JournalofEnvironmentalChemicalEngineering,2021,9(5): 105859.DOI: 10.1016/j.jece.2021.105859(ÖпÆÔº¶þÇø,IF£º£º£º7.7)

7.HuLin,WeiXian-Yong,ZhangFeng-Bin,etal.Effectofisopropanolysisonthestructurevariation and pyrolysis behaviorsof Wucaiwan lignite.JournalofAnalyticalandAppliedPyrolysis, 2021,154:105012.DOI:10.1016/j.jaap.2020.105012 (ÖпÆÔº¶þÇø,IF£º£º£º6.0)

8. HuLin, WeiXian-Yong, ZongZhi-Ming. Ru/Hbetacatalystpreparedbythedeposition-precipitationmethodforenhancinghydrodeoxygenationabilityof guaiacol andlignin-derivedbio-oiltoproducehydrocarbons.JournaloftheEnergyInstitute, 2021,97:48-57.DOI:10.1016/j.joei.2021.04.001 (ÖпÆÔº¶þÇø,IF£º£º£º5.7)

9.HuLin,WeiXian-Yong,KangYu-Hong,etal.Mordenite-supportedrutheniumcatalystforselectivehydrodeoxygenationof ligninmodelcompoundsandlignin-derivedbio-oiltoproducecycloalkanes. JournaloftheEnergyInstitute, 2021, 96: 269-279. DOI:10.1016/j.joei.2021.03.017 (ÖпÆÔº¶þÇø,IF£º£º£º5.7)

Ö÷³ÖºÍ¼ÓÈëÏîÄ¿£º£º£º

1¡¢Ä¾ÖÊËؽâÀë¿ÉÈÜÎïµÄ´ß»¯¼ÓÇâת»¯µÄÑо¿(KYCX20_2006)£¬2020.05-2-2021.05£¬Ö÷³Ö£¬4ÍòÔª£¬½­ËÕÊ¡½ÌÓýÌüÑо¿ÉúÁ¢ÒìÏîÄ¿¡£¡£¡£¡£

2¡¢´Ö·ÓµÄ´ß»¯Íé»ù»¯»úÀí¿¼²ìºÍÀú³ÌÓÅ»¯£¬±àºÅ£º£º£º22178376£¬60ÍòÔª£¬¹ú¼Ò×ÔÈ»¿Æѧ»ù½ðÃæÉÏÏîÄ¿£¬2022.01-2025.12£¬Ö÷ҪѧÊõÖ÷¸É¡£¡£¡£¡£

3¡¢¸ßÎÂú½¹Ó͸ßÖµ»¯Ê¹ÓõĻù´¡Ñо¿£¬±àºÅ£º£º£ºU1610223£¬256ÍòÔª£¬¹ú¼Ò×ÔÈ»¿Æѧ»ù½ðÁªºÏÖصãÏîÄ¿£¬2017.01-2020.12£¬Ö÷Òª¼ÓÈëÖ°Ô±¡£¡£¡£¡£