九州体育

王海晖


个(ge)人履历(li)

九(jiu)州体育火(huo)灾科学国家重点(dian)实验(yan)室(shi),

历任助教(jiao)(jiao)、讲(jiang)师、副(fu)教(jiao)(jiao)授1989.8-1997.3;

The University of Newcastle,

School of Engineering,

New South Wales, Australia,

Teaching Assistant1997.9-1998.12;

The University of Newcastle,

School of Engineering,

New South Wales, Australia,

Research Assistant2000.4-2001.8;

The University of Newcastle,

 School of Engineering,

New South Wales, Australia,

Research Associate2001.9-2004.6;

CSIRO Sustainable Ecosystems, North Ryde,

New South Wales, Australia,

Research Scientist (CSFO4M) 2004.7-2007.9;

九(jiu)州体(ti)育(yu)火灾科(ke)学国家(jia)重点实(shi)验室,

高级访问学者(zhe)2007.10-2008.10;

九州(zhou)体育火(huo)灾科学国家重点实验室

研究员2008.11-

  

主要研究方向

煤等有(you)机质氧化并自加(jia)热的机理和防治技术研究

森(sen)林和城(cheng)镇交(jiao)界域火灾特征、形(xing)成条件(jian)和预(yu)防对策分析(xi)

生物(wu)质可燃(ran)性标定和分类

疏松固相材料火(huo)蔓(man)延

  

主讲课程

资源利用中的火灾问题及防(fang)治(zhi)技术

(课程(cheng)编号: SE15225;学时: 40;学分2)

  

学位(wei)/职称

工学博士

九(jiu)州(zhou)体(ti)育教授

博士生导师(shi)

  

办公室电话

(+86)551 63607057

E-mail: HHWang4@fun-genius.com



个人获奖(jiang)

中(zhong)国科学院自(zi)然科学二等奖(1996);

多次荣获(huo)九州体(ti)育和(he)安徽省奖项(xiang);

在海外留学和工作期间(jian)也(ye)曾得到澳洲联邦(bang)政府教育、

科(ke)学和(he)培(pei)训部(bu)、澳洲科(ke)学院和(he)纽卡(ka)斯尔大学奖励(li)。


学术任职

中国(guo)能(neng)源学会常务理事

中国林学(xue)会森林防(fang)火专(zhuan)业委员(yuan)会委员(yuan)

 

科研情况

参(can)与或主持了各(ge)类(lei)科(ke)研(yan)(yan)(yan)项(xiang)目近(jin)二十项(xiang),包括国(guo)家森林防(fang)火灭(mie)火特别(bie)基金(jin)(jin)项(xiang)目、国(guo)家自然(ran)科(ke)学(xue)基金(jin)(jin)重(zhong)(zhong)点课(ke)(ke)题(ti)、澳(ao)洲(zhou)(zhou)研(yan)(yan)(yan)究基金(jin)(jin)重(zhong)(zhong)大课(ke)(ke)题(ti)、澳(ao)洲(zhou)(zhou)丛(cong)林火联合(he)研(yan)(yan)(yan)究中心(Bushfire CRC)课(ke)(ke)题(ti)、澳(ao)洲(zhou)(zhou)科(ke)学(xue)院课(ke)(ke)题(ti)以及(ji)澳(ao)洲(zhou)(zhou)联邦科(ke)学(xue)和工业(ye)研(yan)(yan)(yan)究机(ji)构(CSIRO)内部课(ke)(ke)题(ti)等。

发表学术论(lun)文(wen)和完成内部(bu)技术报告九十余(yu)篇(pian)。文(wen)章出现(xian)在Combustion and Flame、Fuel、Energy and Fuels、Combustion Science and Technology等国际学术刊物上。

受邀(yao)为权威刊物 Progress in Energy and Combustion Science 撰写煤自燃现象机理研究工(gong)作进展的(de)(de)综述。与国际(ji)火灾领域的(de)(de)专家一道完成了一部(bu)九州(zhou)体育材料可燃性测试技术(shu)的(de)(de)专著(zhu)。

 

近(jin)期发表论(lun)著(zhu)

著作

[1]. Wang H-H, Dlugogorski BZ and Kennedy EM "Chapter 16: Tests for spontaneous ignition of solid materials",

In: V Apte (editor) "Flammability testing of materials in construction, transport and mining sectors",

Woodhead Publishing, Cambridge, UK, 2006, pp 385-442.

 

论文

[2]. 王海晖(hui) "煤自(zi)燃倾向性(xing)测试方法综述", 安全(quan)与环境学报(bao),2009.

[3]. Wang H-H "Analytical model for determining thermal radiance of fire plumes with implication

to wildland fire", Combustion Science and Technology, 2009, 181(2): 245-63.

[4]. 王海晖 "交界域(yu)火灾现象和预防对(dui)策探讨(tao)", 森林防火,2008,(4): 13-5.

[5]. Wang H-H "Kinetic analysis of dehydration of a bituminous coal using TGA technique",

Energy and Fuels, 2007, 21(6): 3070-75.

[6]. Wang H-H, Dowling VP "Ignition conditions for the houses exposed to external radiation sourced

from adjacent bushfires", Proc of the 7th Asia-Oceania Symposium on Fire Science and Technology,

Hong Kong, PR China, September 2007.

[7]. Wang H-H "Ember attack: Its role in the destruction of houses during ACT bushfire in 2003", Proc of

Australasian Bushfire Conference – Life in a Fire-Prone Environment: Translating Science into Practice,

Brisbane, Australia, June 2006.

[8]. Delichatsios MA, Wang H-H, Kennedy EM, Moghtaderi B, Dlugogorski BZ "Opposed flame spread in narrow

channel apparatus to assist in suppression studies", Proc of the 8th International Symposium on

Fire Safety Science, Beijing, PR China, September 2005.

[9]. Wang H-H, Dlugogorski BZ, Hicks JM, Moghtaderi B, Delichatsios MA, Kennedy EM "Characterisation of

creeping flame over PMMA in narrow channel", Proc of Interflam – the 10th International Conference on

Fire Science and Engineering, Edinburgh, UK, July 2004.

[10]. Wang H-H, Hicks JM, Kennedy EM, Moghtaderi B, Delichatsios MA, Dlugogorski BZ "Flame spread over

PMMA in narrow channel", Proc of the 2004 Halon Options Technical Working Conference,

NIST Special Publication 984-2, Albuquerque, USA, May 2004.

[11]. Wang H-H, Dlugogorski BZ, Kennedy "Coal oxidation at low temperatures: oxygen consumption,

oxidation products, reaction mechanism and kinetic modelling",

Progress in Energy and Combustion Science, 2003, 29(6): 487-513.

[12]. Wang H-H, Dlugogorski BZ, Kennedy EM "Analysis of reaction mechanism in low-temperature oxidation

of coal", Combustion and Flame, 2003, 134(1-2): 107-17.

[13]. Wang H-H, Dlugogorski BZ, Kennedy EM "Role of inherent water in low-temperature oxidation of coal",

Combustion Science and Technology, 2003, 175(2): 253-70.

[14]. Wang H-H, Dlugogorski BZ, Kennedy EM "Pathways for production of CO2 and CO in low-temperature

oxidation of coal", Energy and Fuels, 2003, 17(1): 150-8.

[15]. Wang H-H, Dlugogorski BZ, Kennedy EM "Kinetic modelling of coal oxidation at low temperatures",

Combustion and Flame, 2002, 131(4): 452-69.

[16]. Wang H-H, Dlugogorski BZ, Kennedy EM "Thermal decomposition of solid oxygenated complexes

formed by coal oxidation at low temperatures", Fuel, 2002, 81(15): 1913-23.

[17]. Wang H-H, Dlugogorski BZ, Kennedy EM "Oxygen consumption by a bituminous coal: Time dependence of

the rate of oxygen consumption", Combustion Science and Technology, 2002, 174(9): 147-67.

[18]. Wang H-H, Dlugogorski BZ, Kennedy EM "Examination of CO2, CO and H2O formation during

low-temperature oxidation of coal", Energy and Fuels, 2002, 16(3): 586-92.

[19]. Dlugogorski BZ, Wang H-H, Kennedy EM, Delichatsios MA "Testing of gaseous fire suppressants in narrow

channel apparatus", Proc of the 2002 Halon Options Technical Working Conference,

NIST Special Publication 984, Albuquerque, USA, May 2002.

 

九州体育