九州体育

师(shi)资(zi)队(dui)伍

刘乃安

 

个人履历:

九州体育工程(cheng)热物理专业博士(2000)

九(jiu)州(zhou)体育副研究员(2004-2007)

九州体(ti)育研究员(2007至今)

火灾科学(xue)国家重点(dian)实验室副(fu)主(zhu)任(2008-2019)

火灾科学国家重点实(shi)验室主任(ren)(2019至(zhi)今(jin))

入选教育部新世纪优秀(xiu)人才计划(2005)

获第十一届霍英东(dong)青年教师(shi)基金(2008)

入选科(ke)技部(bu)创新人才推进计划(中青年科(ke)技创新领军人才)(2013)

入选中国科学院青年创新促(cu)进(jin)会(hui)优秀会(hui)员(yuan)(2016)

入选第二批国家“万人(ren)计划”领军(jun)人(ren)才(2016)

获国家杰出青(qing)年(nian)科学基金(2016)

入(ru)选国家百千万人才工(gong)程(2017)

入选国际(ji)燃(ran)烧学会(hui)会(hui)士(2018)


研究方向(xiang):

森林可燃物热解动力学与(yu)可燃性

森林与草原火蔓(man)延动力学(xue)

森林极端火行为动力学(xue)


主讲(jiang)课(ke)程:

课程名(ming)称: 安全工(gong)程专业(ye)英语

(课程编号: 23206601;学时: 40;学分2)

  

学位/职称

工学博士

九州体(ti)育研究(jiu)员(yuan)

博士生导师

  

办公室(shi)电话:

(+86)551 63601668

E-mail: liunai@fun-genius.com


个人获奖:

安徽(hui)省教学成果特等奖(2020

获国务院(yuan)政府特殊(shu)津贴(tie)(2019)

37届(jie)国际(ji)燃烧学会杰出论文奖(2019

首(shou)届“中(zhong)国科(ke)大-唐立新(xin)优秀学者奖”(2018

第(di)九届“杨亚基(ji)金-教(jiao)育奖”(2014

第(di)六届(jie)“吴仲(zhong)华奖励基金”优秀青年学者奖(2013

国家科(ke)学技术进(jin)步奖(jiang)(jiang)一等(deng)奖(jiang)(jiang)(2010

首届(jie)中国科学院卢嘉锡青年人(ren)才奖(2008

梁希科学技术(shu)奖(jiang)(jiang)二等奖(jiang)(jiang)(2007

张宗(zong)植青年教师奖(2000


学(xue)术任职:

国际火灾(zai)安全科学学会(International Association for Fire Safety Science, IAFSS)理(li)事(2021)

国际(ji)燃烧学会中国分会主席(2020至(zhi)今(jin))

国际(ji)燃烧学会(The Combustion Institute)理(li)事(2020-2026)

亚澳火灾(zai)科学技术学会(Asia-Oceania Association for Fire Science and Technology)副主席(2020至(zhi)今)

国(guo)际火灾研究机构主任(ren)论坛(International FORUM of Fire Research Directors)成(cheng)员(2010至今)

国际森林火灾学会(International Association of Wildland Fire)理事(2015-2018

国际(ji)尺度模拟委员会(International Scale Modeling Committee)委员(2011至今)

14届国际火(huo)灾安全科(ke)学会议(the 14th International Symposium on Fire Safety Science)共同主席(2022

第(di)13届国(guo)际火灾(zai)安全科学会议(the 13th International Symposium on Fire Safety Science)科学程序(xu)委(wei)员(yuan)会共同(tong)主席(2020

37届(jie)国际燃烧会议(the 37th International Symposium on Combustion) Fire Research”主题(ti)主席(2018

8届火(huo)灾(zai)与爆(bao)炸国际(ji)研讨会(hui)(the 8th International Seminar on Fire and Explosion Hazards)组委会主席(2016

9届亚澳火灾科学技术大会(the 9th Asia-Oceania Symposium on Fire Science and Technology)程(cheng)序(xu)委员(yuan)会(hui)(hui)主(zhu)席、大(da)会(hui)(hui)组(zu)委会(hui)(hui)执行主(zhu)席(2013

国际期(qi)刊(kan)Applications in Energy and Combustion Science首届编委(wei)(2019至今)

国际(ji)森林火灾学会(hui)(hui)会(hui)(hui)刊(kan)International Journal of Wildland Fire副主(zhu)编(2016至今)

国际期刊Fire Technology副主编(2016至今)

国际火灾科学学会(hui)会(hui)刊Fire Safety Journal副主编(2013-2015)、编委(2016至今)

中(zhong)国工(gong)程热物理学会燃(ran)烧学分会副主任(ren)委(wei)员(2015至今(jin))

中国(guo)工程热物理学会理事(shi)(2019至今(jin))

公(gong)共安(an)全科学(xue)技术(shu)学(xue)会常务理事(2012至今)

《火灾科学》期刊执(zhi)行主编(2003至今)

《燃烧科学与技术》期刊编委(2009至今)

 

科研(yan)项目:

国(guo)家(jia)重点研发(fa)计划项目: 重大事故灾难(nan)次生衍生与多灾种耦合致灾机理与规律(lv),主持,执行(xing)期: 2016.07-2020.06

国家(jia)杰出青(qing)年科学基金: 森林火(huo)灾动力学,主持,执(zhi)行期: 2017.01-2021.12

国家自然科(ke)学基金重点项(xiang)目: 森林地表火(huo)蔓延(yan)的(de)加(jia)速效(xiao)应及其物理预测模(mo)型(xing)研究,主持,执行期: 2020.01-2024.12

国(guo)家自然科(ke)学基金委员会与(yu)金砖国(guo)家科(ke)技和(he)创新框(kuang)架计划合作(zuo)研究项目: 森林火灾(zai)发生和(he)蔓延的机理与(yu)预测模型研究,主持,执行期: 2020.01-2022.12

国家自然科学基(ji)金重(zhong)大国际(地区)合作研究项目: 森(sen)林-城镇交界域火灾安全(quan)的(de)关键科(ke)学问题研究,主持(chi),执行(xing)期: 2012.1-2016.12

国家自然科学基(ji)金(jin)面上(shang)项目: 森(sen)林爆发火的形成机制与动力(li)学规律(lv)基(ji)础(chu)研究,主持,执(zhi)行期: 2015.01-2018.12

国(guo)家“十二(er)五”科技支撑计划(hua)重大项目课题: 城(cheng)市复杂环(huan)境下(xia)多(duo)灾(zai)种时(shi)空耦合(he)模拟(ni)技术研(yan)究(jiu),主持,执(zhi)行期(qi): 2011.1-2013.12

科技部(bu)973项目课题: 森林(lin)草原火灾辨(bian)识、预测(ce)与火行为(wei),主持,执行期(qi): 2002.04-2007.03

国家自然科学(xue)基金面上(shang)项(xiang)目: 火旋风的燃烧(shao)与(yu)流动(dong)(dong)耦合(he)作用机(ji)制与(yu)动(dong)(dong)力学(xue)规(gui)律(lv)基础(chu)研究,主持,执行期: 2011.1-2013.12

财政部(bu)与科技部(bu)“十(shi)一(yi)五”公(gong)益性行业(ye)(ye)(林业(ye)(ye))科研(yan)专项重点(dian)项目: 森林雷(lei)击火发生发展规(gui)律和监(jian)测(ce)预(yu)报(bao)技术研(yan)究(jiu),主持,执行期(qi): 2007.1-2011.12

国家自然科(ke)学基金面上项目(mu): 防火树种热(re)解动力学行(xing)为(wei)的尺度效应与燃烧性表征问(wen)题研(yan)究(jiu),主持,执行(xing)期(qi): 2006.1-2008.12

国家自(zi)然(ran)科学基金(jin)主(zhu)任基金(jin)项目: 基于森林(lin)可燃物热(re)解动力学与热(re)稳(wen)定性(xing)的森林(lin)火(huo)灾预防与控制(zhi)方(fang)法(fa)研究,主(zhu)持,执行期: 2004.1-2004.12

国(guo)家自然(ran)科学基金(jin)科普(pu)基金(jin)项(xiang)目: 森林火灾中的(de)科学,主持,执行期: 2008.1-2009.12

科技部“十(shi)一五”科技支撑重大(da)项目“国家(jia)应急平(ping)台(tai)体系关键技术研究与应用示范(fan)”子课题: 森林与城市火灾综合风险(xian)评价(jia)与预测预警技术研究,主(zhu)持(chi),执行期(qi): 2006.1-2008.12

科(ke)技部(bu)“十(shi)一五(wu)”科(ke)技支撑重点项目(mu)“农业重大气象灾(zai)害监测预警(jing)与调控技术(shu)研(yan)究”专题(ti): 复杂环境森林火(huo)行(xing)为与扑救辅助决策,主持,执行(xing)期: 2006.1-2010.12

 

代(dai)表(biao)性论著:

[1]. Liu N, Liu Q, Lozano JS, et al. Global burning rate of square fire arrays:

Experimental correlation and interpretation. Proceedings of the Combustion Institute.

2009;32: 2519-2526.[Fulltex Download]

[2]. Liu, N. A.; Liu, Q., Deng, Z. H.; Satoh, K.; Zhu, J. P.

Burn-out Time Data Analysis on Interaction Effects among Multiple Fires in Fire Arrays,

Proceedings of the Combustion Institute 31, 2007, 31(2): 25892597.

[3]. Liu N. A. and Liu Q., Experimental Research on Multiple Fires Burning:

New Method of Correlation Analysis and Interpretation, Invited Lecture,

8th Asia-Oceania Symposium for Fire Science and Technology, Melbourne, Australia, Dec. 2010.

[4]. Liu, N. A.; Chen H. X. Two-Step Kinetic Models for Thermal Decomposition of Forest

Combustibles: Three Kinetic Schemes, Invited lecture in 7th Asia-Oceania Symposium

on Fire Science & Technology, 20-22 September, 2007.

[5]. Liu, N. A.; Chen, H. X.; Shu, L. F., New Method for Kinetic Analysis of Decomposition

of Biomass Materials-Based on Critical Analysis of Moll Method.

Journal of Applied Polymer Science 2009, 114, (1), 524-530.

[6]. Chen H.X.; Zhao W.T.; Liu N.A.; Thermal Analysis and Decomposition Kinetics

of Chinese Forest Peat under Nitrogen and Air Atmospheres. Energy & Fuels, 2011. 25: 797-803.

[7]. Chen, H. X.; Liu, N. A.; Zhao, W. T. Critical study on the identification of reaction

mechanism by the shape of TG/DTG curves, Solid State Sciences 2010, 12, (4), 455-460.

[8]. Lei J.; Liu N.A.*; Zhang L. H.; Chen H. X.; Shu L. F.; Chen P.; Deng Z. H.; Zhu J. P.;

Satoh K.; de Ris John L. Experimental Research on Combustion Dynamics of Medium-scale Fire Whirl.

Proceedings of the Combustion Institute, 2010, 33: 2407-2415.

[9]. Chen H. X. and Liu N.A., Application of Non-Arrhenius Equations in Interpreting Calcium

Carbonate Decomposition Kinetics: Revisited.

Journal of the American Ceramic Society, 2010, 93(2): 548-553.

[10]. Han Y.; Chen H. and Liu N. A.*, New incremental isoconversional method for kinetic analysis

of solid thermal decomposition. Journal of Thermal Analysis and Calorimetry,

2011: 10.1007/s10973-010-1029-9.

[11]. Dai J.; Liu N. A*. and Shu L., Applicability of bi-pseudo component separated-stage model

for decomposition of lignocellulosic materials in air at multiple heating rates.

Journal of Thermal Analysis and Calorimetry, 2010: doi: 10.1007/s10973-010-1237-3.

[12]. Chen, H. X.; Liu, N. A., Application of Non-Arrhenius Equations in Interpreting Calcium

Carbonate Decomposition Kinetics: Revisited.

Journal of the American Ceramic Society 93, (2), 548-553.

[13]. Liu, N. A.; Chen, H. X.; Shu, L. F.; Zong, R. W.; Milt STATHEROPOULOS; Gaussian Smoothing

Strategy of Thermogravimetric Data of Biomass Materials in Air Atmosphere,

Industrial & Engineering Chemistry Research, 2004, 43: 4087-4096.

[14]. Liu, N. A.; Chen, H. X.; Shu, L. F.; Milt STATHEROPOULOS; Error Evaluation of Integral Methods

by Consideration on the Approximation of Temperature Integral,

Journal of Thermal Analysis and Calorimetry, 2005, 81: 99-105.

[15]. Liu, N. A.; Zong, R. W. Shu, L. F. Fan, W. C.; Zhou, J. J. Kinetic Compensation Effect in

Thermal Decomposition of Cellulosic Materials in Air Atmosphere,

Journal of Applied Polymer Science, 2003, 89: 135-141.

[16]. Liu, N. A.; Fan, W. C.; Dobashi, R.; Huang L. S. Kinetic Modeling of Thermal Decomposition

of Natural Cellulosic Materials in Air Atmosphere,

Journal of Analytical and Applied Pyrolysis, 2002, 63: 303-325.

[17]. Liu, N. A.; Fan, W. C.; Dobashi, R.; Lin Q. Z. New Mass Loss Kinetic Model for Thermal

Decomposition Of Biomass, Chinese Science Bulletin, 2001, 46: 1398-1402.

[18]. Liu, N. A.; Fan, W. C. Critical Consideration on the Freeman and Carroll Methods for

Evaluating Global Mass Loss Kinetics of Polymer Thermal Degradation,

Thermochimica Acta, 1999, 338 (1/2): 85-94.

[19]. Liu, N. A.; Fan, W. C. Modelling the Thermal Decompositions of Wood and Leaves Under

a Nitrogen Atmosphere, Fire and Materials, 1998, 22: 103-108.

[20]. Liu, N. A.; Fan, W. C. The Kinetic Methods for which No Assumption about the Order of

Reaction is Needed, Fire and Materials, 1998, 22: 219-220.

[21]. Liu N. A. Experimental and Theoretical Investigation on Fire Interactions and the Induced

Firewhirls in Square Fire Arrays, Proceedings of Fifth NRIFD International Symposium on Forest

Fires, Mitaka, Tokyo, Nov. 2005, pp.293-301.

[22]. Liu, N. A.; Wang, B. H.; Fan, W. C. Kinetic Compensation Effect in the Thermal

Decomposition of Biomass in Air Atmosphere, Proceedings of 7th International Symposium on

Fire Safety Science, pp.581-593, Worcester, USA, June 19-26, 2002.

[23]. Chen, H. X.; Liu, N. A.; Chow, W. K., Wind effects on smoke motion and temperature of

ventilation-control led fire in a two-vent compartment.

Building and Environment 2009, 44, (12), 2521-2526.

[24]. Chen, H. X.; Liu, N. A., New Approximate Formula for the Genearlized Temperature

Integral. Aiche Journal 2009, 55, (7), 1766-1770.

[25]. Chen, H. X.; Liu, N. A., Approximations for the temperature integral - Their underlying

relationship. Journal of Thermal Analysis and Calorimetry 2008, 92, (2), 573-578.

[26]. Chen, H. X.; Liu, N. A., Approximation expressions for the temperature integral.

Progress in Chemistry 2008, 20, (7-8), 1015-1020.

[27]. Chen, H. X.; Liu, N. A. New procedure for derivation of approximations for temperature

integral, AIChE Journal, 2006, 52(12): 4181-4185.

[28]. Chen, H. X.; Liu, N. A.; Fan, W. C. Two-Step Consecutive Reaction Model and Kinetic Parameters

Relevant to the Decomposition of Chinese Forest Fuels,

Journal of Applied Polymer Science, 2006, 102: 571576.

[29]. Chen, H. X.; Liu, N. A. A New Method to Explain the Model Dependence of Apparent Activation

Energy Derived from a Single Nonisothermal Dynamic Curve,

Polymer Degradation and Stability, 2006, 91, 1726-1730.

[30]. Chen, H. X.; Liu, N. A.; Shu, L. F. Error of Kinetic Parameters for One Kind of Integral

Methods for Thermogravimetric Measurements, Polymer Degradation and Stability, 2005, 90: 132-135.

 

 


九州体育