Total 196 refereed journal papers and conference papers, h-index: 32, Citations > 3300, 9 patents of China, 2 books/chapters, major international publications are listed as follows:
[1]Yujie Lin, Michael A. Delichatsios, Xiaolei Zhang, Longhua Hu*, Experimental study and physical analysis of flame geometry in pool fires under relatively strong cross flows, Combustion and Flame, accepted.
[2]Xiaolei Zhang, Longhua Hu*, Long Wu, Larry W. Kostiuk, Flame radiation emission from pool fires under the influence of cross airflow and ambient pressure, Combustion and Flame, 202 (2019): 243-251.
[3]Chen Kuang, Longhua Hu*, Xiaolei Zhang, Yujie Lin, Larry W. Kostiuk, An experimental study on the burning rates of n-heptane pool fires with various lip heights in cross flow, Combustion and Flame, 201 (2019) 93-103.
[4]Longhua Hu*, Lili Huang, Qiang Wang, Kazunori Kuwana*, Experimental study and analysis on the interaction between two slot-burner buoyant turbulent diffusion flames at various burner pitches, Combustion and Flame, 186 (2017) December 2017, 105-113.
[5]Qiang Wang, Longhua Hu*, Suk Ho Chung, Blow-out of nonpremixed turbulent jet flames at sub-atmospheric pressures, Combustion and Flame, Volume 176, February 2017, Pages 358-360.
[6]Xiaochun Zhang, Haowen Tao, Wenbin Xu, Xiaozhou Liu, Xiaolei Zhang, Longhua Hu*, Flame extension lengths beneath an inclined ceiling induced by rectangular-source fires, Combustion and Flame, Volume 176, February 2017, Pages 349-357.
[7]Xiaolei Zhang, Longhua Hu*, Xiaochun Zhang, Fei Tang, Yong Jiang*, Yujie Lin, Flame projection distance of horizontally oriented buoyant turbulent rectangular jet fires, Combustion and Flame, Volume 176, February 2017, Pages 370-376.
[8]Qiang Wang, Longhua Hu*, Sung Hwan Yoon, Shouxiang Lu, Michael Delichatsios, Suk Ho Chung, Blow-out limits of nonpremixed turbulent jet flames in a cross flow at atmospheric and sub-atmospheric pressures, Combustion and Flame Volume 162, Issue 10, October 2015, Pages 3562-3568.
[9]Qiang Wang, Longhua Hu*, Mi Zhang, Fei Tang, Xiaochun Zhang, Shouxiang Lu, Lift-off of jet diffusion flame in sub-atmospheric pressures: an experimental investigation and interpretation based on laminar flame speed, Combustion and Flame 161 (2014) 1125-1130.
[10]Longhua Hu*, Xiaochun Zhang, Xiaolei Zhang, Lizhong Yang, A re-examination of entrainment constant and an explicit model for flame heights of rectangular jet fires, Combustion and Flame Volume 161, Issue 11, November 2014, Pages 3000-3002.
[11]Longhua Hu*, Junjun Hu, John L. de Ris, Flame necking-in and instability characterization in small and medium pool fires with different lip heights, Combustion and Flame Volume 162, Issue 4, April 2015, Pages 1095-1103.
[12]Longhua Hu*, Shuai Liu, Long Wu, Flame radiation feedback to fuel surface in medium ethanol and heptane pool fires with cross air flow, Combustion and Flame 160 (2013) 295-306.
[13]Longhua Hu*, Kiahua Lu, Michael Delichatsios, Linghui He, Fei Tang, An experimental investigation and statistical characterization of intermittent flame ejecting behavior of enclosure fires with an opening, Combustion and Flame 159 (2012) 1178-1184.
[14]Longhua Hu*, Shuai Liu, Yong Xu, Dong Li, A wind tunnel experimental study on burning rate enhancement behavior of gasoline pool fires by cross air flow, Combustion and Flame 158 (2011) 586-591.
[15]Sung Hwan Yoon, Longhua Hu, Osamu Fujita*, Experimental observation of pulsating instability under acoustic field in downward-propagating flames at large Lewis number, Combustion and Flame, Volume 188, February 2018, Pages 1-4.
[16]Fei Ren, Xiaolei Zhang, Longhua Hu*, Xiepeng Sun, An experimental study on the effect of fire growth in a lower-floor compartment on fire evolution and facade flame ejection from an upper-floor compartment, Proceedings of the Combustion Institute, 37 (3) (2019) 3909-3917.
[17]Xiepeng Sun, Longhua Hu*, Xiaolei Zhang, Fei Ren, Experimental study on evolution of compartment fire and facade flame through an opening with the fire source attached to a backwall at different elevations, Proceedings of the Combustion Institute, 37 (3) (2019) 3919-3926.
[18]Shixiang Liu, Longhua Hu*, An experimental study on flame envelope morphologic characteristics of downward-orientated buoyant turbulent jet fires, Proceedings of the Combustion Institute, 37 (3) (2019) 3935-3942.
[19]Longhua Hu*, Xiepeng Sun, Xiaolei Zhang, Fei Ren, Facade flame height and horizontal extending distance from opening of compartment fire with external sideward wind, Proceedings of the Combustion Institute, 37 (3) (2019) 3859-3867.
[20]Xiaolei Zhang, Longhua Hu*, Michael A. Delichatsios, Jianping Zhang, Experimental study and analysis on flame lengths induced by wall-attached fire impinging upon an inclined ceiling, Proceedings of the Combustion Institute, 37 (3) (2019) 3879-3887.
[21]Qiang Wang, Longhua Hu*, Adriana Palacios, Suk Ho Chung, Burning characteristics of candle flames in sub-atmospheric pressures: an experimental study and scaling analysis, Proceedings of the Combustion Institute, 37 (2) (2019) 2065-2072.
[22]Yong Lu, Xinyan Huang*, Longhua Hu*, Carlos Fernandez-Pello, The interaction between fuel inclination and horizontal wind: experimental study using thin wire, Proceedings of the Combustion Institute, 37 (3) (2019) 3809-3816.
[23]Xiepeng Sun, Xiaolei Zhang, Longhua Hu*, Kazunori Kuwana, Temperature evolution and transition inside fire compartment with an opening subject to external sideward wind, Proceedings of the Combustion Institute, 37 (3) (2019) 3869-3877.
[24]Longhua Hu*, Chen Kuang, Xinpeng Zhong, Fei Ren, Xiaolei Zhang, Hang Ding, An experimental study on burning rate and flame tilt of optical-thin heptane pool fires in cross flows, Proceedings of the Combustion Institute, 36 (2017) 3089-3096.
[25]Longhua Hu, Yong Lu, Kosuke Yoshioka, Yangshu Zhang, Carlos Fernandez-Pello, Suk Ho Chung, Osamu Fujita*, Limiting oxygen concentration for extinction of upward spreading flames over inclined thin polyethylene-insulated NiCr electrical wires with opposed-flow under normal- and micro-gravity, Proceedings of the Combustion Institute, 36 (2017), 3045-3053.
[26]Longhua Hu*, Xiaochun Zhang*, Xiaolei Zhang, Kaihua Lu, Zunmeng Guo, Flame heights and fraction of stoichiometric air entrained for rectangular turbulent jet fires in a sub-atmospheric pressure, Proceedings of the Combustion Institute, 36 (2017) 2995-3002.
[27]Longhua Hu*, Fei Ren, Kaizhi Hu, Fei Tang, Kaihua Lu, An experimental study on temperature evolution inside compartment with fire growth and flame ejection through an opening under external wind, Proceedings of the Combustion Institute, 36 (2017) 2955-2962.
[28]Longhua Hu*, Xiaolei Zhang, Michael A. Delichatsios*, Long Wu, Chen Kuang, Pool fire flame base drag behavior with cross flow in a sub-atmospheric pressure, Proceedings of the Combustion Institute, 36 (2017) 3105-3112.
[29]Longhua Hu*, Junjun Hu, Shuai Liu, Wei Tang, Xiaozheng Zhang, Evolution of heat feedback in medium pool fires with cross air flow and scaling of mass burning flux by a stagnant layer theory solution, Proceedings of the Combustion Institute, 35 (3) (2015) 2511-2518.
[30]Longhua Hu*, Yangshu Zhang, Kosuke Yoshioka, Hirokazu Izumo, Osamu Fujita*, Flame spread over electric wire with high thermal conductivity metal core at different inclinations, Proceedings of the Combustion Institute, 35 (2015) 2607-2614.
[31]Kaihua Lu, Longhua Hu*, Michael Delichatsios*, Fei Tang, Zengwei Qiu, Linghui He, Merging behavior of facade flames ejected from two windows of an under-ventilated compartment fire, Proceedings of the Combustion Institute, 35 (2015) 2615-2622.
[32]Xiaozheng Zhang, Xiaolei Zhang, Longhua Hu*, Ran Tu, Michael A. Delichatsios, An experimental investigation and scaling analysis on flame sag of pool fire in cross flow, Fuel, 241 (2019) 845-850.
[33]Yujie Lin, Xiaolei Zhang, Longhua Hu*, An experimental study and analysis on maximum horizontal extents of buoyant turbulent diffusion flames subject to relative strong cross flows, Fuel 234 (2018) 508-515.
[34]Longhua Hu*, Shixiang Liu, Xiaolei Zhang, Flame heights of line-source buoyant turbulent non-premixed jets with air entrainment constraint by two parallel side walls, Fuel, 200 (2017) 583-589.
[35]Longhua Hu*, Xiaozheng Zhang, Xiaolei Zhang, Cheng Kuang, Flame base drag of pool fires with different side wall height in cross flows: a laboratory-scale experimental study and a new correlation, Fuel 182 (2016) 857-863.
[36]Xiaochun Zhang, Wenhao Xu; Longhua Hu*, Xiaolei Zhang, WenbinXu*, A new mathematical method for quantifying trajectory of buoyant line-source gaseous fuel jet diffusion flames in cross air flows, Fuel, Volume 177, 1 August 2016, Pages 107-112.
[37]Fei Tang, Longhua Hu*, Zengwei Qiu, Qiang Wang, A global model of plume axial temperature profile transition from axisymmetric to line-source pool fires in normal and reduced pressures, Fuel 130 (2014) 211-214.
[38]Longhua Hu*, Xiaolei Zhang, Qiang Wang, Adriana Palacios, Flame size and volumetric heat release rate of turbulent buoyant jet diffusion flames in normal- and a sub-atmospheric pressure, Fuel Volume 150, 15 June 2015, Pages 278-287.
[39]Fei Tang, Longhua Hu*, Xiaochun Zhang, Xiaolei Zhang, Mansheng Dong, Burning rate and flame tilt characteristics of radiation-controlled rectangular hydrocarbon pool fires with cross air flows in a reduced pressure, Fuel Volume 139, 1 January 2015, Pages 18-25.
[40]Xiaochun Zhang; Longhua Hu*; Wei Zhu, Xiaolei Zhang, Lizhong Yang, Axial temperature profile in buoyant plume of rectangular source fuel jet fire in normal- and a sub-atmospheric pressure, Fuel 134 (2014) 455-459.
[41]L.H. Hu*, Q. Wang, M.A. Delichatsios, S.X. Lu, F. Tang, Flame radiation fraction behaviors of sooty buoyant turbulent jet diffusion flames in reduced- and normal atmospheric pressures and a global correlation with Reynolds number, Fuel 116 (2014) 781-786.
[42]L.H.Hu*, F. Tang, Q. Wang, Z.W. Qiu, Burning characteristics of conduction-controlled rectangular hydrocarbon pool fires in a reduced pressure atmosphere at high altitude in Tibet, Fuel 111 (2013) 298-304.
[43]Longhua Hu*, Long Wu, Shuai Liu, Flame length elongation behavior of medium hydrocarbon pool fires in cross air flow, Fuel Volume 111, September 2013, Pages 613-620.
[44]Longhua Hu*, Qiang Wang, Michael Delichatsios, Fei Tang, Xiaochun Zhang, Shouxiang Lu*, Flame height and lift-off of turbulent buoyant jet diffusion flames in a reduced pressure atmosphere, Fuel 109 (2013) 234-240.
[45]Longhua Hu*, Shuai Liu, John L de Ris, Long Wu, A new mathematical quantification of wind-blown flame tilt angle of hydrocarbon pool fires with a new global correlation model, Fuel 106 (2013) 730-736.
[46]LongHua Hu*, Qiang Wang, Fei Tang, XiaoChun Zhang, Axial temperature profile in vertical buoyant turbulent jet fire in a reduced pressure atmosphere, Fuel 106 (2013) 779-786.
[47]L.H. Hu*, L.F. Chen, W. Tang, A global model on temperature profile of buoyant ceiling gas flow in a channel with combining mass and heat loss due to ceiling extraction and longitudinal forced air flow, International Journal of Heat and Mass Transfer 79 (2014) 885-892.
[48]K.H.Lu, L.H.Hu*, F.Tang, L.H.He, X.C.Zhang, Experimental investigation on window ejected facade flame heights with different constraint side wall lengths and global correlation, International Journal of Heat and Mass Transfer Volume 78, November 2014, Pages 17-24.
[49]F. Tang, L.H. Hu*, Q. Wang, Z.J. Ding, Flame pulsation frequency of conduction-controlled rectangular hydrocarbon pool fires of different aspect ratios in a sub-atmospheric pressure, International Journal of Heat and Mass Transfer Volume 76, September 2014, Pages 447-451.
[50]L.H.Hu*, K.H.Lu, F.Tang, M. Delichatsios, L.H.He, A global non-dimensional factor characterizing side wall constraint effect on facade flame entrainment and flame height from opening of compartment fires, International Journal of Heat and Mass Transfer 75 (2014) 122-129.
[51]F. Tang, L.H. Hu*, Z.W. Qiu, X.C. Zhang, Longitudinal distributions of CO concentration and temperature in buoyant tunnel fire smoke flow in a reduced pressure atmosphere with lower air entrainment at high altitude, International Journal of Heat and Mass Transfer 75 (2014) 130-134.
[52]L.H. Hu*, F. Tang, M.A. Delichatsios, Q. Wang, K.H. Lu, X.C. Zhang, Global behaviors of enclosure fire and facade flame heights in normal and reduced atmospheric pressures at two altitudes, International Journal of Heat and Mass Transfer 56 (2013) 119-126.
[53]L.H. Hu*, F. Tang, M.A. Delichatsios, K.H. Lu, A mathematical model on lateral temperature profile of buoyant window spill plume from a compartment fire, International Journal of Heat and Mass Transfer 56 (2013) 447-453.
[54]L.H. Hu*, X.Y. Zhao, W. Zhu, F. Tang, An experimental investigation and characterization on flame bifurcation and leaning transition behavior of a pool fire in near wake of a square cylinder, International Journal of Heat and Mass Transfer, Volume 55, Issues 23-24, November (2012) 7024-7035
[55]F. Tang, L.H. Hu*, Q. Wang, K.H. Lu, X.C. Zhang, L.Z. Yang, An experimental investigation on temperature profile of buoyant spill plume from under-ventilated compartment fires in a reduced pressure atmosphere at high altitude, International Journal of Heat and Mass Transfer, Volume 55, Issues 21-22, October 2012, Pages 5642-5649.
[56]L.H. Hu*, M.A. Delichatsios, J. Li, X.L. Zhang, S.F. Wang, R. Huo, Experimental study on diffusive solid combustion behavior during transition from normal- to reduced-gravity, International Journal of Heat and Mass Transfer , 55 (2012) 2035-2043
[57]F. Tang, L.H. Hu*, M.A. Delichatsios, K.H. Lu, W. Zhu, Experimental study on flame height and temperature profile of buoyant window spill plume from an under-ventilated compartment fire, International Journal of Heat and Mass Transfer, 55 Issues 1-3, (2012), 93-101. 15 January 2012
[58]L.H.Hu*, F. Tang, D.Yang, S. Liu, R. Huo, Longitudinal distributions of CO concentration and difference with temperature field in a tunnel fire smoke flow, International Journal of Heat and Mass Transfer, 53 (2010) 2844–2855
[59]X.Q. Sun, L.H. Hu*, W.K. Chow, Y. Xu, F. Li, A theoretical model to predict plume rise in shaft generated by growing compartment fire, International Journal of Heat and Mass Transfer 54 (2011) 910-920
[60]Ang Qiu, Longhua Hu*, LongFei Chen, Ricky O. Carvel, Flame extension lengths beneath a confined ceiling induced by fire in a channel with longitudinal air flow, Fire Safety Journal, Volume 97, April 2018, Pages 29-43.
[61]Longhua Hu*, Kaizhi Hu, Fei Ren, Xiepeng Sun, Facade flame height ejected from an opening of fire compartment under external wind, Fire Safety Journal, Volume 92, September 2017, Pages 151-158.
[62]Longhua Hu*, A review of physics and correlations of pool fire behaviour in wind and future challenges, Fire Safety Journal, Volume 91, July 2017, Pages 41-55.
[63]Longhua Hu*, Zengwei Qiu, Kaihua Lu, Fei Tang, Window ejected flame width and depth evolution along facade from under-ventilated enclosure fires, Fire Safety Journal Volume 76, August 2015, Pages 44-53.
[64]F. Tang, L.H. Hu*, Z.W. Qiu, X.C. Zhang, K.H. Lu, Window ejected flame height and heat flux along facade with air entrainment constraint by a sloping facing wall, Fire Safety Journal Volume 71, January 2015, Pages 248-256.
[65]K.H. Lu, L.H.Hu*, F.Tang, L.H.He, X.C.Zhang, Z.W.Qiu, Heat flux profile upon building facade with side walls due to window ejected fire plume: an experimental investigation and global correlation, Fire Safety Journal 70(2014)14-22.
[66]L.F. Chen, L.H. Hu*, W. Tang, L. Yi, Studies on buoyancy driven two-directional smoke flow layering length with combination of point extraction and longitudinal ventilation tunnel fires, Fire Safety Journal 59 (2013) 94-101.
[67]K.Y. Li, L.H. Hu, R. Huo, Y.Z. Li, Z.B. Chen, X.Q. Sun, S.C. Li, A mathematical model on interaction of smoke layer with sprinkler spray, Fire Safety Journal 44(2009) 96-105
[68]D. Yang, L.H. Hu*, Y.Q. Jiang, R. Huo, S. Zhu, X.Y. Zhao, Comparison of FDS predictions by different combustion models with measured data for enclosure fires, Fire Safety Journal 45 (2010) 298-313.
[69]Fengju Shang, Longhua Hu*, Xiepeng Sun, Qiang Wang, Adriana Palacios, Flame downwash length evolution of non-premixed gaseous fuel jets in cross-flow: experiments and a new correlation, Applied Energy, 198 (15) July 2017, 99-107.
[70]Qiang Wang, Longhua Hu*, Xiaozheng Zhang, Xiaolei Zhang, Shouxiang Lu, Hang Ding*, Turbulent jet diffusion flame length evolution with cross flows in a sub-pressure atmosphere, Energy Conversion and Management Volume 106, December 2015, Pages 703-708.
[71]Xiaolei Zhang, Longhua Hu*, Qiang Wang, Xiaochun Zhang*, Peng Gao*, A mathematical model for flame volume estimation based on flame height of turbulent gaseous fuel jet, Energy Conversion and Management Volume 103, October 2015, Pages 276-283.
[72][104] L.H. Hu*, W. Peng, R. Huo, Critical wind velocity for arresting upwind gas and smoke dispersion induced by near-wall fire in a road tunnel, Journal of Hazardous Materials, 2008, Vol.150 (1), P. 68–75.
[73][105] L.H. Hu*, N.K. Fong, L.Z. Yang, W.K. Chow, Y.Z. Li, R. Huo, Modeling fire-induced smoke spread and carbon monoxide transportation in a long channel: Fire Dynamics Simulator comparisons with measured data, Journal of Hazardous Materials, 2007, Vol.140, P.293–298.
[74]L.H.Hu*, S. Liu, W. Peng, R. Huo, Experimental study on burning rates of square/rectangular gasoline and methanol pool fires under longitudinal air flow in a wind tunnel, Journal of Hazardous Materials 169(1-3) (2009) 972–979
[75]L.H. Hu*, R. Huo, D. Yang, Large eddy simulation of fire-induced buoyancy driven plume dispersion in an urban street canyon under perpendicular wind flow, Journal of Hazardous Materials, 166(1) (2009), pp. 394-406
[76][102] L.H. Hu*, J.W. Zhou, R. Huo, W. Peng, H.B. Wang, Confinement of fire-induced smoke and carbon monoxide transportation by air curtain in channels, Journal of Hazardous Materials August 2008, Vol 156/1-3, P. 327-334.
[77]L.H. Hu, Y. Xu, W. Zhu, L. Wu, F. Tang, K.H. Lu, Large eddy simulation of pollutant gas dispersion with buoyancy ejected from building into an urban street canyon, Journal of Hazardous Materials 192(3) (2011) 940-948.
[78]Xin Li, Longhua Hu*, Fengju Shang, Flame downwash transition and its maximum length with increasing fuel supply of non-premixed jet in cross flow, Energy, 164 (2018) 298-305.
[79]F. Tang, L.H. Hu*, K.H. Lu, X.C. Zhang, Q. Shi, Heat flux profile upon building facade due to ejected thermal plume from window in a sub-atmospheric pressure at high altitude, Energy and Buildings Volume 92, 1 April 2015, Pages 331-337.
[80]Longhua Hu*, Keke Zhu, Yong Lu, Xiaolei Zhang, An experimental study on flame spread over electrical wire with high conductivity copper core and controlling heat transfer mechanism under sub-atmospheric pressures, International Journal of Thermal Sciences, Volume 141, July 2019, Pages 141-149.
[81]Xiaolei Zhang, Longhua Hu*, Xiepeng Sun, Temperature profile of thermal flow underneath an inclined ceiling induced by a wall-attached fire, International Journal of Thermal Sciences, Volume 141, July 2019, Pages 133-140.
[82]Fei Ren, Longhua Hu*, Xiepeng Sun, Kaizhi Hu, An experimental study on vertical temperature profile of facade fire plume ejected from compartment with an opening subjected to external wind normal to facade, International Journal of Thermal Sciences, Volume 130, August 2018, Pages 94-99.
[83]Xiepeng Sun, Longhua Hu*, Fei Ren, Kaizhi Hu, Flame height and temperature profile of window ejected thermal plume from compartment fire without facade wall, International Journal of Thermal Sciences, 127 (2018) 53-60.
[84]Fei Ren, Longhua Hu*, Xiepeng Sun, Kaizhi Hu, Experimental study on flame radiation fraction of facade fire ejected from opening of a compartment, Applied Thermal Engineering, Volume 129, 25 January 2018, Pages 573-576.
[85]F. Tang, L.J. Li, Q. Wang, M.S. Dong, F.Z. Mei, L.H. Hu*, Characterization of buoyant flow stratification behaviors by Richardson (Froude) number in a tunnel fire with complex combination of longitudinal ventilation and ceiling extraction, Applied Thermal Engineering, Volume 110, 5 January 2017, Pages 1021-1028
[86]X.L. Zhang, L.H. Hu*, Q. Wang, X.C. Zhang, Y. Jiang, Soot free length fraction of buoyant turbulent non-premixed jet flames in normal- and a sub-atmospheric pressure, Applied Thermal Engineering Volume 110, 5 January 2017, Pages 111-114.
[87]L.F. Chen, L.H. Hu*, X.L. Zhang, X.Z. Zhang, X.C. Zhang, L.Z. Yang, Thermal buoyant smoke back-layering flow length in a longitudinal ventilated tunnel with ceiling extraction at difference distance from heat source, Applied Thermal Engineering Volume 78, 5 March 2015, Pages 129-135.
[88]Xiaochun Zhang, Longhua Hu*, Wei Zhu, Xiaolei Zhang,Lizhong Yang, Flame extension length and temperature profile in thermal impinging flow of buoyant round jet upon a horizontal plate, Applied Thermal Engineering Volume 73, Issue 1, 5 December 2014, Pages 13-20.
[89]W. Tang, L.H. Hu*, L.F. Chen, Effect of blockage-fire distance on buoyancy driven back-layering length and critical velocity in a tunnel: an experimental investigation and global correlations, Applied Thermal Engineering 60 (2013) 7-14.
[90]L.H. Hu*, W. Tang, L.F. Chen, L. Yi, A non-dimensional global correlation of maximum gas temperature beneath ceiling with different blockage-fire distance in a longitudinal ventilated tunnel, Applied Thermal Engineering 56 (2013) 77-82.
[91]L.H. Hu*, L.F. Chen, L. Wu, Y.F. Li, J.Y. Zhang, N. Meng, An experimental investigation and correlation on buoyant gas temperature below ceiling in a slopping tunnel fire, Applied Thermal Engineering, 51 (1-2), March 2103, 246-254.
[92]D. Yang, L.H. Hu*, R. Huo, Y.Q. Jiang, S. Liu, F. Tang, Experimental study on buoyant flow stratification induced by a fire in a horizontal channel, Applied Thermal Engineering, 30 (2010) 872-878
[93]L.H. Hu, R. Huo, W.K. Chow*, Studies on buoyancy-driven back-layering flow in tunnel fires, Experimental Thermal and Fluid Science 32 (2008) 1468-1483.
[94]Zhang X.C.; Zhang Z.J.; Su G.K.; Tao H.W.; Xu W.H.; Hu L.H.*, Buoyant wind-driven pollutant dispersion and recirculation behaviour in wedge-shaped roof urban, Environmental Science and Pollution Research, (2019) 26:8289-8302. doi: 10.1007/s11356-019-04290-3
[95]Fei Ren, Longhua Hu*, Xiepeng Sun, Experimental investigation on lateral temperature profile of window-ejected facade fire plume with ambient wind, Fire Technology, Online, 2019.
[96]L.H. Hu*, X.C. Zhang, W. Zhu, Z. Ning, A global relation of fire smoke re-circulation behavior in urban street canyons, Journal of Civil Engineering and Management 21(4) (MAY 19 2015) 459- 469.
[97]Jinhua Sun*, Longhua Hu*, and Ying Zhang, A review on research of fire dynamics in high-rise buildings, THEORETICAL & APPLIED MECHANICS LETTERS 3, 042001 (2013).
Books/Chapters:
[1]Longhua Hu, Wei Peng, Ruixin Yang, Fundamentals of Tunnel Fire Dynamics and Prevention Technology, Science Press, 2014
[2]Longhua Hu*, Delichatsios Michael, Thermal Radiation, Chapter in Encyclopedia of Wildfires and Wildland-Urban Interface (WUI) Fires, Springer, 2018
Invited Lectures:
[1]Longhua Hu*, A review of physics and correlations of pool fire behaviour in wind and future challenges, 12thInternational Symposium on Fire Safety Science, Plenary Lecture, June 2017, Lund, Sweden.
[2]Longhua Hu*, Researches on pool fire behaviors in wind-state of art and future challenges, 8th International Seminar on Fire and Explosion Hazards (8th ISFEH), Plenary Lecture, April 2016, Hefei, China.
[3]Longhua Hu*, Window-ejected fire behavior over building facade, 1st Asia-Oceania Symposium for Fire Safety Materials Science and Engineering, Plenary Lecture, October 2015, Suzhou, China.
[4]Longhua Hu*, Fire Safety of High-rise Building: Strategy, Research Progress and Challenges, 7th International Conference on Performance-based Fire and Fire Protection Engineering, Plenary Lecture, December 2015, Guangzhou, China.
[5]Longhua Hu*, Limiting Oxygen Concentration (LOC) of flame spreading over electric wire at different inclinations in normal gravity and difference from microgravity, 10th Asian Microgravity Symposium, Keynote Invited Lecture, October 2014, Seoul, Korea.
[6]Longhua Hu*, Pool fire behavior in wind: physics, state of art and future challenges, 2017 International Conference on Fire Science and Technology, Plenary Lecture, September 2017, Langfang, China.
[7]Longhua Hu*, Diffusive combustion and flame dynamics of fire in wind, Plenary Lecture, 2016 China National Symposium on Combustion, October 2016, Maanshan China.
[8]Longhua Hu*, Research on diffusive combustion behavior and flame instability of fire in wind, Invited Keynote Lecture, 2015 China National Symposium on Combustion, October 2015, Beijing China.
[9]Longhua Hu*, Window-ejected facade fire behaivor of buildings, Plenary Lecture, 1st National Young Scholar Meeting on Combustion Research, September 2015, Shanghai, China
[10]Longhua Hu*, Research on liquid fuel and gaseous fuel leakage fire in wind: state of art and challenges, Plenary Lecture, 2017 Postdoctoral Academic Forum on Energy and Environment in China, October 2017, Hefei, china
[11]Longhua Hu*, Fundamental research on tunnel fire dynamics: progress and challenges, Plenary Lecture, Workshop on Advances in Fire Engineering 2018 (WAFE18), December 2018, Xiamen, china
[12]Longhua Hu*, Application and challenges of drone in fire rescue, Plenary Lecture, 2nd Drone World Congress 2018- Emergency and Fire Drone Application Summit Forum, June 2018, Shenzhen, China
[13]Longhua Hu*, Fundamental research on the complex diffusion combustion behaviour of solid combustible fires in wind, Invited Keynote Lecture, 2018 China National Symposium on Combustion, September 2018, Haerbin, China.
