王爽,男,1983年4月生,江蘇大學教授,博士生導師,能源與動力工程學院系主任。
基本介紹
- 中文名:王爽
- 民族:漢
- 出生日期:1983年4月
- 學位/學歷:博士
- 主要成就:發表學術論文30餘篇,專利10餘項
- 現工作單位:江蘇大學能源與動力工程學院
研究領域,主要成就,研究項目,主要論著,主要專利,獎勵與榮譽,
研究領域
1.生物質的燃燒利用與熱解制油技術
2.藻類生物質的養殖與利用
3.固體廢棄物燃燒
4.量子化學與分子模擬
主要成就
研究項目
2017.01-2020.12 國家自然科學基金面上項目
2018.06-2020.06 中國博士後基金面上項目一等資助
2014.01-2016.12 國家自然科學基金青年基金項目
2014.01-2015.12 中國博士後基金面上項目一等資助
2013.01-2016.12 教育部博士點新教師基金
2014.01-2015.12 農業部南海漁業資源開發利用重點實驗室開放基金
2012.01-2014.12 江蘇省高校自然科學基金
2014.01-2017.12 江蘇大學青年骨幹教師項目
主要論著
[1]王爽,劉馨琳,馮永強著.藻類生物質的熱化學轉化利用技術[M].江蘇大學出版社,2017
[2]王爽,馮永強,Abd-El-Fatah Abomohra. Renewable Energy[M].江蘇大學出版社,2017
[3]李迺璐,王爽,喬芬編著.新能源專業英語[M].2016
[4]Wang S, Jiang D, Cao B, et al. Study on the interaction effect of seaweed bio-coke and rice husk volatiles during co-pyrolysis[J]. Journal of Analytical and Applied Pyrolysis, 2018, 132:111-122.
[5]Wang S, Hu Y, Uzoejinwa B B, et al. Pyrolysis Mechanisms of Typical Seaweed Polysaccharides[J]. Journal of Analytical and Applied Pyrolysis, 2017, 124: 373–383
[6]Wang S, Xia Z, Hu Y, et al. Co-pyrolysis mechanism of seaweed polysaccharides and cellulose based on macroscopic experiments and molecular simulations.[J]. Bioresource Technology, 2016, 228:305.
[7]Wang S, Xia Z, Wang Q, et al. Mechanism research on the pyrolysis of seaweed polysaccharides by Py-GC/MS and subsequent density functional theory studies[J]. Journal of Analytical & Applied Pyrolysis, 2017, 126.
[8]Wang S, Hu Y, He Z, et al. Study of pyrolytic mechanisms of seaweed based on different components (soluble polysaccharides, proteins, and ash)[J]. Journal of Renewable & Sustainable Energy, 2017, 9(2):023102.
[9]Wang S, Hu Y, Wang Q, et al. TG–FTIR–MS analysis of the pyrolysis of blended seaweed and rice husk[J]. Journal of Thermal Analysis & Calorimetry, 2016, 126(3):1-14.
[10]Shuang Wang, Bin Cao, Xinlin Liu, et al. A comparative study on the quality of bio-oil derived from green macroalgaeEnteromorpha clathrataover metal modified ZSM-5 catalysts[J]. Bioresource technology. 2018, 256: 446-455.
[11]Wang S, Wang Q, Hu Y M, et al. Study on the synergistic co-pyrolysis behaviors of mixed rice husk and two types of seaweed by a combined TG-FTIR technique[J]. Journal of Analytical & Applied Pyrolysis, 2015, 114:109-118.
[12]Wang S, Wang Q, Jiang X, et al. Combustion mathematical simulation of single seaweed particle in a bench-scale fluidized bed[J]. Journal of Renewable & Sustainable Energy, 2015, 7(2):6505-6513.
[13]Wang S, Cao B, Abomohra E F, et al. Comparative Study of Combustion Properties of Two Seaweeds in a Batch Fluidized Bed[J]. Combustion Science & Technology, 2018:1-15.
[14]Wang S, Jiang X M, Wang Q, et al. Research of specific heat capacities of three large seaweed biomass[J]. Journal of Thermal Analysis & Calorimetry, 2014, 115(3):2071-2077.
[15]Wang S, Wang Q, Jiang X M, et al. Compositional analysis of bio-oil derived from pyrolysis of seaweed.[J]. Energy Conversion & Management, 2013, 68(3):273-280.
[16]Wang S, Jiang X M, Wang Q, et al. Experiment and grey relational analysis of seaweed particle combustion in a fluidized bed.[J]. Energy Conversion & Management, 2013, 66(1):115-120.
[17]Wang S, Jiang X M, Han X X, et al. Combustion Characteristics of Seaweed Biomass. 1. Combustion Characteristics of Enteromorpha clathrata and Sargassum natans[J]. Energy & Fuels, 2009, 23(10):5173-5178.
[18]Wang S, Jiang X M, Han X X, et al. Fusion Characteristic Study on Seaweed Biomass Ash[J]. Energy & Fuels, 2008, 22(4):2229-2235.
[19]Wang S, Jiang X M, Wang N, et al. Research on Pyrolysis Characteristics of Seaweed[J]. Proceedings of the Csee, 2007, 21(6):3723-3729.
[20]Xu S, Wang S*, Zhang Z, et al. Study on pore structure of seaweed particles after combustion[J]. Journal of Energy Resources Technology, 2016, 138(5).
[21]Benjamin BernardUzoejinwa, Xiuhua He*, ShuangWang*, et al. Co-pyrolysis of biomass and waste plastics as a thermochemical conversion technology for high-grade biofuel production: Recent progress and future directions elsewhere worldwide.[J] Energy Conversion and Management, 2018, 163: 468-492.
[22]Abomohra, A. E., Eladel, H., El-Esawi, M., Wang, S.*, Wang, Q., & He, Z., et al. (2018). Effect of lipid-free microalgal biomass and waste glycerol on growth and lipid production of scenedesmus obliquus: innovative waste recycling for extraordinary lipid production. Bioresource Technology, 249, 992.
[23]Hu Y, Wang S*, Wang Q, et al. Effect of different pretreatments on the thermal degradation of seaweed biomass[J]. Proceedings of the Combustion Institute, 2016, 36(2).
[24]Yamin Hu, Shuang Wang*, Jiancheng Li, et al. Co-pyrolysis and co-hydrothermal liquefaction of seaweeds and rice husk: Comparative study towards enhanced biofuel production.[J] Journal of Analytical and Applied Pyrolysis, 2018, 129: 162-170
主要專利
1.王爽,胡亞敏,曹斌,王謙,吉恆松,林驍馳,一種微波加熱乾燥與熱解海藻的一體化裝置,CN201510354078.8,發明專利
2.王爽,夏禛,金敏姝,王謙,胡亞敏,林驍馳,孫超群,一種大型海藻增壓加氫熱解制油、產氣系統及工藝201610022469.4,發明專利
3.王爽,孫超群,曹斌,王謙,何志霞,胡亞敏,一種利用電廠抽汽微藻水熱液化製取生物油的裝置和工藝,授權,CN201610003104.7,發明專利
4.王爽,王謙,胡亞敏,何志霞,吉恆松,楊戈爾,林驍馳,一種海藻生物質的太陽能螺旋漸進式乾燥系統及方法,授權,201410631970.1,發明專利
5.王爽,孫超群,吳元元,王謙,何志霞,胡亞敏,一種利用化學鏈燃燒CO2以及灰分培養微藻的系統和工藝,授權,201610003112.1,發明專利
6.徐姍楠,王爽,劉永,一種海藻與水生外來入侵植物協同微波熱解多聯產利用的方法,授權,CN201410485977.7,發明專利
7.王爽,王謙,姜秀民,吉恆松,何志霞,徐姍楠,韓向新,劉建國,海藻熱解制油海藻熱解制油、半焦燃燒雙循環組合系統及處理方法,授權,CN201310418786.4, 發明專利
8.王爽,姜秀民,韓向新,王輝,劉建國.海藻生物質的異密度循環流化床燃燒處理方法[P].發明專利授權號:ZL200710172603.X
9.王爽,姜秀民,韓向新,王輝,劉建國.利用海藻與陸上生物質共同熱解製取生物油的方法[P].發明專利授權號:ZL200810041468.X
10.姜秀民, 王爽, 韓向新, 劉建國, 劉加勛, 王輝. 海藻生物質綜合利用的方法[P].發明專利授權號:ZL200910045965.1
11.王爽;王謙;何志霞;吉恆松;楊戈爾;林驍馳,一種海藻生物質的太陽能迴轉乾燥系統,授權,CN201420670859.9,實用新型專利
12.王爽;王謙;胡亞敏;何志霞;吉恆松;楊戈爾;林驍馳,一種海藻生物質的太陽能螺旋漸進式乾燥系統,授權,CN201420669975.9,實用新型專利
13.王爽;王謙;姜秀民;吉恆松;何志霞;徐姍楠;韓向新;劉建國,海藻熱解制油、半焦燃燒雙循環組合系統,授權, CN201320570274.5,實用新型專利
14.胡亞敏,王爽,王謙,吉恆松,林驍馳,一種微波加熱乾燥與熱解海藻的一體化裝置,授權,CN201520438871.1,實用新型專利
15.徐姍楠,王爽,劉純厚.一種新型晾曬海藻的裝置授權,CN201320411073.0,實用新型專利
獎勵與榮譽
2018年 江蘇省“333工程”培養對象第三層次人才
2018年 江蘇省“六大人才高峰”高層次人才
2018年 江蘇省“雙創計畫”科技副總
2018年 江蘇大學“新長征突擊手”
2017年 江蘇省科學技術獎二等獎:二代生物柴油的製備及發動機適應性關鍵技術(第三)
2014年 江蘇大學優秀教師
2013年 江蘇大學“青年骨幹教師培養工程”青年學術帶頭人培育人選
2010年 上海市優秀博士畢業生
