[1] [1] M C Drake, T D Fansler, A S Solomon, et al.. Piston Fuel Films as a Source of Smoke and Hydrocarbon Emissions from a Wall-Controlled Spark-Ignited Direct-Injection Engine[R]. SAE Technical Paper, 2003. 2003-01-0547.

[2] [2] W Hentschel, A Grote, O Langer. Measurement of Wall Film Thickness in the Intake Manifold of a Standard Production SI Engine by a Spectroscopic Technique[R]. SAE Technical Paper, 1997. 972832.

[3] [3] J R Mawhinney, J K Richardson. A review of water mist fire suppression research and development[J]. Fire Technol, 1996, 33(1): 54-90.

[4] [4] A I Petruchik, S P Fisenko. Simulation of cooling of water droplets and film flows in large natural wet cooling towers[J]. J Eng Phys Thermophys, 2001, 74(1): 62-68.

[5] [5] J Gieshoff, M Pfeifer, A S Sindlinger, et al.. Advanced Urea SCR Catalysts for Automotive Applications[R]. SAE Technical Paper, 2001. 2001-01-0514.

[6] [6] Song Jian, Wei Shongjie, Yu Yiqi, et al.. Evaluation of capacitance method for water-film thickness measurement[J]. Measurement Technique, 2011, (9): 15-18.

[7] [7] Wang Wenwu, Li Chunguo, Wang Xinjun, et al.. A study on measurement of thickness of thin liquid film on metal surfaces[J]. Dongfang Turbine, 2010, (1): 21-25.

[8] [8] E T Hulburt, T A Newell. Optical measurement of liquid film thickness and wave velocity in liquid film flows[J]. Exp Fluids, 1996, 21(5): 357-362.

[9] [9] T A Shedd, T A Newell. Automate optical liquid film thickness measurement method[J]. Rev Sci Instrum, 1998, 69(12): 4205-4213.

[10] [10] E Kull, G Wiltafsky, W Stolz, et al.. Two-dimensional visualization of liquid layers on transparent walls[J]. Opt Lett, 1997, 22(9): 645-647.

[11] [11] A A Monza, N A Vlachos, S V Paras, et al.. Measurements of liquid film thickness using laser light absorption method[J]. Exp Fluids, 2000, 28(4): 355-359.

[12] [12] J M Porter, J B Jeffries, R K Hanson. Mid-infrared laser-absorption diagnostic for vapor-phase fuel mole fraction and liquid fuel film thickness[J]. Appl Phys B, 2011, 102(2): 345-355.

[13] [13] A Schagen, M Modigell. Local film thickness and temperature distribution measurement in wavy liquid films with a laser-induced luminescence technique[J]. Exp Fluids, 2007, 43(2-3): 209-221.

[14] [14] C Hidrovo, D Hart. Emission reabsorption laser induced fluorescence (ERLIF) film thickness measurement[J]. Meas Sci & Technol, 2001, 12(4): 467-477.

[15] [15] C Schulz, A Dreizler, V Ebert, et al.. Combustion Diagnostics[M]. Springer Handbook of Experimental Fluid Mechanics, 2007. 1241-1315.

[16] [16] T Dreier, V Ebert, C Schulz, et al.. Laser-Based Combustion Diagnostics[M]. Chichester: John Wiley & Sons Ltd., 2000.

[17] [17] V Ebert, C Schulz, H R Volpp, et al.. Laser diagnostics of combustion processes: from chemical dynamics to technical devices[J]. Isr J Chem, 1999, 39(1): 1-24.

[18] [18] M G Allen. Diode laser absorption sensors for gas dynamic and combustion flows[J]. Meas Sci & Technol, 1998, 9(4): 545-562.

[19] [19] V Ebert, J Wolfrum. Absorption Spectroscopy in Optical Measurements-Techniques and Applications[M]. Heidelberg: Springer, 2001. 227-265.

[20] [20] J A Silver, D J Kane. Diode laser measurements of concentration and temperature in microgravity combustion[J]. Meas Sci & Technol, 1999, 10(10): 845-852.

[21] [21] E R Furlong, D S Baer, R K Hanson. Combustion control using a multiplexed diode-laser sensor system[J]. Proc Comb Inst, 1996, 26(2): 2851-2858.

[22] [22] He Ying, Zhang Yujun, Wang Liming, et al.. Laser technology for CO2 and H2O on-line detection in large-scale region[J]. Chinese J Lasers, 2014, 41(1): 0115003.

[23] [23] Qu Dongsheng, Hong Yanji, Wang Guangyu, et al.. Measurements of gas temperature and component concentration based on calibration-free wavelength modulation spectroscopy[J]. Acta Optica Sinica, 2013, 33(12): 1230001.

[24] [24] Yuan Song, Kan Ruifeng, He Yaba, et al.. Laser temperature compensation used in tunable diode-laser absorption spectroscopy[J]. Chinese J Lasers, 2013, 40(5): 0515002.

[25] [25] H Yang, D Greszik, T Dreier, et al.. Simultaneous measurement of liquid water film thickness and vapor temperature using near-infrared tunable diode laser spectroscopy[J]. Appl Phys B, 2010, 99(3): 385-390.

[26] [26] H Yang, D Greszik, I Wlokas, et al.. Tunable diode laser absorption sensor for the simultaneous measurement of water film thickness, liquid- and vapor-phase temperature[J]. Appl Phys B, 2011, 104(1): 21-27.