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旋轉(zhuǎn)、逆轉(zhuǎn)火焰的熱特性和污染排放特性
本書旨在研究以液化石油氣(LPG)為燃料的一種基于旋流的、超穩(wěn)定燃燒的逆轉(zhuǎn)擴(kuò)散火焰(IDF)的熱、污染和傳熱特性,主要以檢驗(yàn)實(shí)驗(yàn)性質(zhì)為主。第一章為概況和動機(jī);第二張是研究的背景,其中包含與逆擴(kuò)散火焰相關(guān)的前期工作的詳細(xì)文獻(xiàn)回顧;第三章介紹了實(shí)驗(yàn)裝置、儀器和測量方法;第四章到第七章,分別介紹火焰外觀、火焰結(jié)構(gòu)、火焰溫度場、火焰穩(wěn)定氣體種類、火焰沖擊熱傳遞、火焰比較等;第八章是旋轉(zhuǎn)火焰的數(shù)值模擬,計(jì)算結(jié)果作為實(shí)驗(yàn)研究的補(bǔ)充;最后,在第九章中對本書的研究結(jié)果和結(jié)論進(jìn)行了全面的討論,并對今后的工作提出了建議。
甄海生,男,1979年出生于河北省唐山市,吉林大學(xué)學(xué)士,哈爾濱工業(yè)大學(xué)碩士,香港理工大學(xué)哲學(xué)博士。2006年赴香港從師梁振華、張鎮(zhèn)順教授,研究火焰燃燒熱特征,污染物排放及沖擊換熱長達(dá)10余年,F(xiàn)任職海南大學(xué),機(jī)電工程學(xué)院火焰燃燒方向?qū)W術(shù)帶頭人,‘火焰與燃燒實(shí)驗(yàn)室’主任。帶領(lǐng)團(tuán)隊(duì)的研究對象和內(nèi)容涵蓋預(yù)混、非預(yù)混,層流、湍流,旋流、非旋流,富氧、貧氧和富氫火焰;傳統(tǒng)石化燃料和可再生新燃料;火焰燃燒的熱釋放、污染物產(chǎn)成機(jī)理和控制,潔凈燃燒和節(jié)能減排技術(shù)開發(fā)和利用;火焰熱釋放和熱能高效利用;以及燃燒噪音機(jī)理和防治。涉及學(xué)科包括工程熱物理,熱力學(xué),傳熱學(xué),化學(xué)反應(yīng)動力學(xué),流體力學(xué),計(jì)算流體力學(xué)及聲學(xué)等。
目錄 ABSTRACT....................................................................................................................... i LISTOF PUBLICATIONS............................................................................................. ix (i.e. IDF output of my honorable combustion team at the Hong Kong PolytechnicUniversity) ix ACKNOWLEDGEMENTS.......................................................................................... xiii TABLEOF CONTENT................................................................................................. xiv NOMENCLATURE..................................................................................................... xvii CHAPTER 1 INTRODUCTION................................................................................ 1 1.1 Combustionand flame................................................................................. 3 1.2 Inverse diffusion flame................................................................................ 5 1.3 Scopeand objective of study....................................................................... 7 CHAPTER 2 LITERATUREREVIEW..................................................................... 9 2.1 Review of normal diffusion flame..................................................................... 14 2.2 Review of inverse diffusion flame..................................................................... 15 2.3 Review of swirl combustion.............................................................................. 21 2.4 Summary............................................................................................................ 25 CHAPTER 3 EXPERMENTALAPPARATUS........................................................ 27 3.1 Introduction....................................................................................................... 29 3.2 Burner designs................................................................................................... 30 3.3 Flowmeters calibration....................................................................................... 34 3.4 Temperature measurement.................................................................................. 36 3.5 Flame photography............................................................................................ 41 3.6 In-flame gaseous species measurement.............................................................. 42 3.7 Flue gas measurement........................................................................................ 44 3.8 Heat transfer measurement................................................................................ 46 3.9 Error analysis...................................................................................................... 47 3.9.1 Uncertainty in Ф...................................................................................... 49 3.9.2 Uncertainty in Re..................................................................................... 50 3.9.3 Uncertainty in T....................................................................................... 50 3.9.4 Uncertainty in flame length..................................................................... 51 3.9.5 Uncertainty in concentration................................................................... 51 CHAPTER 4 FLAMECHARACTERISTICS AND TEMPERATURE................. 53 4.1 Flame appearance............................................................................................... 55 4.1.1 Varying Re at fixed Ф............................................................................. 58 4.1.2 Varying Ф at fixed Re............................................................................. 66 4.1.3 Varying S′ at fixed Ф and Re.................................................................. 68 4.2 Flame structure................................................................................................... 69 4.3 Temperature field............................................................................................... 70 4.4 The effect of Re and Ф on temperature............................................................. 77 CHAPTER 5 FLAMEEMISSIONS........................................................................ 79 5.1 In-flame stable gaseous species.......................................................................... 81 5.1.1 O2 concentration...................................................................................... 82 5.1.2 CO2 concentration................................................................................... 86 5.1.3 CO concentration.................................................................................... 89 5.1.4 NOx concentration................................................................................... 93 5.2 The effects of Re and Ф.................................................................................... 99 5.2.1 O2 concentration...................................................................................... 99 5.2.2 CO2 concentration................................................................................. 100 5.2.3 CO concentration.................................................................................. 102 5.2.4 NOx concentration................................................................................. 103 5.3 Overall pollutant emissions.............................................................................. 105 CHAPTER 6 FLAMEIMPINGEMENT HEAT TRANSFER.............................. 109 6.1 Introduction...................................................................................................... 111 6.2 Impinging flame structure................................................................................ 112 6.3 Wall static pressure........................................................................................... 115 6.4 Flametemperature............................................................................................ 116 6.5 Effectsof H on the local heat flux................................................................... 118 6.6 Effectsof Ф on the local heat flux.................................................................. 121 6.7 Effectsof Re on the local heat flux................................................................. 122 6.8 Effectsof S′ on the local heat flux.................................................................. 123 CHAPTER 7 COMPARISONOF FLAMES......................................................... 125 7.1 Introduction..................................................................................................... 127 7.2 Comparison of IDFs with and without swirl................................................... 127 7.2.1 Comparison of flame appearance.......................................................... 127 7.2.2 Comparison of emission index.............................................................. 130 7.2.3 Comparison of heat transfer.................................................................. 134 7.3 Comparison of swirling IDF with premixedflame.......................................... 136 7.3.1 Comparison of flame appearance andstructure.................................... 136 7.3.2 Comparison of flame stability............................................................... 139 7.3.3 Comparison of flame temperature......................................................... 140 7.3.4 Comparison of in-flame gaseous emissions........................................... 143 7.3.5 Comparison of emission index.............................................................. 148 CHAPTER 8 NUMERICALSIMULATION OF THE ISOTHERMAL FLOW.. 151 8.1 Background...................................................................................................... 153 8.2 Mesh generation............................................................................................... 156 8.3 Initial and boundary conditions....................................................................... 158 8.4 Turbulence models........................................................................................... 159 8.5 Computational results...................................................................................... 159 8.5.1Velocity vector....................................................................................... 159 8.5.2Air/fuel mixing....................................................................................... 160 8.5.3Swirl strength........................................................................................ 162 8.6 Comparison with experiments.......................................................................... 164 8.6.1 Flow Structure....................................................................................... 164 8.6.2 Swirl Number........................................................................................ 165 8.7 Summary of numerical simulation.................................................................... 166 CHAPTER 9 CONCLUSION AND RECOMMENDATION.............................. 167 9.1 Conclusions...................................................................................................... 169 9.1.1 Burner testing........................................................................................ 169 9.1.2 Flame appearance and structure............................................................ 170 9.1.3 Flame temperature................................................................................. 170 9.1.4 In-flame stable gaseousspecies............................................................. 170 9.1.5Overall pollutant emissions.................................................................... 171 9.1.6Heat transfer.......................................................................................... 171 9.1.7Comparison of flames............................................................................ 171 9.1.7.1 Swirling and non-swirling IDFs.................................................. 171 9.1.7.2 Swirling IDF and swirling PMF.................................................. 172 9.1.7.3 Potential application of swirling IDF.......................................... 173 9.2 Recommendation for future work................................................................... 173 REFERENCES............................................................................................................. 175
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