Verfügbarkeit: Advanced pulverized coal injection technology and blast furnace operation

Advanced pulverized coal injection technology and blast furnace operation:

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Format:	Buch
Sprache:	English
Veröffentlicht:	Oxford Pergamon 2000
Ausgabe:	1. ed.
Schlagworte:	Altos fornos Carvão Coal gasification Coal, Pulverized Combustion engineering Kohlenstaubfeuerung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XVI, 307 S. graph. Darst.
ISBN:	008043651X

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MARC


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adam_text	Titel: Advanced pulverized coal injection technology and blast furnace operation Autor: Ishii, Kuniyoshi Jahr: 2000 Contents Preface.....................................................................................................vü CHAPTER 1 Tadashi Deno, Yoshio Okuno Introduction - High rate PCI Operation in Japan -...................................................1 1.1 Outline of high rate PCI Operation in Japan.......................................................1 1.2 Actual Situation of high rate PCI..........................................................................5 1.3 Subjects on high rate PCI....................................................................................10 1.3.1 Increase in permeability resistance in furnace..........................................10 1.3.2 Increase in heat loss.....................................................................................10 1.3.3 Accumulation of unburnt char...................................................................12 1.3.4 Influence of coal brand on combustion of PC in raceway........................12 1.3.5 Accumulation of fines in deadman.............................................................12 REFERENCES...........................................................................................................14 CHAPTER 2 Ichirou Naruse, Takanobu Inada Characteristics of pulverized coal combustion........................................................15 2.1 Classification of coal.............................................................................................15 2.2 Properties..............................................................................................................18 2.2.1 General properties.......................................................................................18 2.2.2 Macerals........................................................................................................22 2.2.3 Char structures............................................................................................22 2.2.4 Grindability..................................................................................................23 2.2.5 Ash constituents............................................................................................24 2.3 Processes of pulverized coal combustion............................................................27 2.3.1 Ignition..........................................................................................................29 x CONTENTS 2.3.2 Evolution of volatile matter........................................................................31 2.3.3 Char combustion........................................................................................- 32 2.3.4 Burnout.........................................................................................................33 2.4 Combustion characteristics of a Single coal particle.........................................33 2.5 Conclusion.............................................................................................................34 REFERENCES...........................................................................................................34 CHAPTER3 Tatsurou Ariyama Combustion behavior of PC particle group.............................................................37 3.1 Movement of PC particle group based on direct Observation..........................38 3.2 Combustion of PC in the blowpipe.....................................................................42 3.2.1 Movement of PC particle group and its combustion behavior................42 3.2.2 Effect of coal type.........................................................................................45 3.2.3 PC pyrolysis just after injecrion.................................................................48 3.2.4 Effect of oxygen concentration...................................................................49 3.2.5 Effect of additives to coal............................................................................49 3.3 Combustion mechanism of PC particle group in the blowpipe........................50 3.3.1 Combustion of a Single particle constituting a PC particle group...........50 3.3.2 PC group combustion..................................................................................52 3.3.3 Mathematical formulation of PC particle dispersion...............................56 3.4 Combustion of PC in the raceway......................................................................57 3.5 Conclusion.............................................................................................................62 REFERENCES...........................................................................................................62 CHAPTER 4 Tsunao Kamijou, Masakata Shimizu •C Combustion in blast furnace.......................................... 63 4.1 Gas composition and temperature at the combustion zone..............................63 4.1.1 Distribution of gas composition..................................................................63 4.1.2 Temperature distribution........................................................................68 CONTENTS xi 4.2 Evaluation of PC combustion efficiency.............................................................71 4.2.1 Effect of PC injecrion rate...........................................................................71 4.2.2 Effect of coal properties...............................................................................72 4.2.3 Effect of lance construction.........................................................................75 4.2.4 Effect of blast condition...............................................................................80 4.3 Control of combustibility.....................................................................................80 REFERENCES...........................................................................................................82 CHAPTER5 Hiroshi Nogami, Kanji Takeda Modeling of pulverized coal combustion..................................................................83 5.1 Combustion behavior of a Single pulverized coal particle................................83 5.2 Formulation of unit processes.............................................................................86 5.2.1 Devolatilization.............................................................................................86 5.2.2 Char combustion..........................................................................................90 5.2.3 Heat and momentum exchange between particle and gas phase.............91 5.2.4 Radiative heat transfer................................................................................93 5.2.5 Formulation of Single coal particle burning..............................................95 5.3 Coupling up unit processes and combustion field.............................................97 5.3.1 Turbulent model...........................................................................................97 5.3.2 Homogeneous gaseous combustion in turbulent flow field......................99 5.3.3 Particle motion in turbulent combustion fields.......................................101 (1) Lagrangian method..............................................................................101 (2) Eulerian method...................................................................................103 5.4 Mathematical modeling of pulverized coal combustion..................................104 5.4.1 One-dimensional mathematical model.....................................................104 5.4.2 Two-dimensional mathematical model....................................................108 5.4.3 Future subjects on a mathematical model...............................................115 REFERENCES.........................................................................................................116 NOMENCLATURE .................................................................................................119 xii CONTENTS CHAPTER6 Tatsurou Ariyama Advanced injecrion Iances for high rate PCI.........................................................123 6.1 Key factor to design injecrion lance with high combustibilify.......................123 6.2 Advanced injection lance...................................................................................126 6.2.1 High turbulence type lance.......................................................................126 6.2.2 Eccentric double lance...............................................................................126 6.2.3 Oxy-coal lance............................................................................................!29 6.3 Conclusion...........................................................................................................131 REFERENCES.........................................................................................................132 CHAPTER 7 Kuniyoshi Ishii, Yoshiaki Kashiwaya Phenomena in blast furnace with high rate PCI....................................................133 7.1 Change in bürden distribution.........................................................................133 7.1.1 Relationship between bürden distribution and gas permeability.........133 7.1.2 Bürden distribution changes with increased O/C..................................137 (1) Distribution of gas flow........................................................................138 (2) Distribution of particle size.................................................................138 (3) Influence on the O/C near the periphery...........................................139 (4) Maximum value of lo/lc.......................................................................139 (5) Operation results in actual blast furnace...........................................140 7.2 Decrease of heat flux ratio.................................................................................143 7.3 Variation of gas permeability resistance...........................................................146 7.4 Variation of temperature distribution and increase of heat loss....................149 7.5 Change of reactions in BF..................................................................................154 7.5.1 Rist diagram for PCI................................................................................154 7.5.2 Temperature and gas utilization in peripheral region...........................156 7.5.3 Solution loss reaction and PCI..................................................................157 7.6 Phenomena in raceway and lower part of BF..................................................159 CONTENTS xiü 7.6.1 Formation of shell and dripping behavior around raceway..................159 7.6.2 Fine coke in deadman................................................................................164 7.7 Conclusion...........................................................................................................166 REFERENCES.........................................................................................................166 CHAPTER8 Tomohito Akiyama, Yoshimasa Kajiwara Generation of fine in blast furnace at high rate PCI.............................................169 8.1 Origin of fines.....................................................................................................169 8.1.1 Fine generation phenomena with PCI.....................................................169 (1) Coke degradation.................................................................................169 (2) Fine from PC........................................................................................169 8.1.2 Studies offine generated in blast furnace................................................169 (1) Dissection of blast furnace...................................................................169 (2) Fine sample at shutdown...................................................................173 (3) Fine sampled during Operation...........................................................177 8.1.3 Mechanism of fine generation..................................................................178 (l)Coke.......................................................................................................178 (2) PCR.......................................................................................................184 8.1.4 Identification of origin of generated fine.................................................184 (1) Estimation of temperature history of coke........................................184 (2) Estimation by slag analysis..................................................................187 8.1.5 Summary of fine generation......................................................................188 8.2 Effect of PC combustion on fine coke generation............................................189 8.2.1 Effect of PCI on fine coke generation......................................................189 8.2.2 Fine generation in high rate PCI Operation in actual BF.......................190 8.2.3 Fine generation by hot model experiments..............................................194 8.2.4 Fine generation in high rate PCI by mathematical Simulation.............198 8.3 Transportation and accumulation of fine.........................................................199 8.3.1 Introduction................................................................................................199 8.3.2 Cold model experiment.............................................................................199 (1) Fine coke accumulation in deadman..................................................199 xiv CONTENTS (2) Penetration offine coke generated from raceway.............................200 (3) Formulation offine coke velocity in packed bed...............................201 (4) Fine movement in trickle bed..............................................................202 (5) Formulation offine accumulation rate in packed bed.....................203 (6) Penetration offine into parallel packed bed.....................................203 8.3.3 Mathematical Simulation...........................................................................205 (1) Solution loss reaction of unburnt char.............................................205 (2) Model of movement and dispersion offine........................................205 (3) Simulation offine movement and accumulation in BF.....................206 (4) Effect of cohesive zone shape on fine accumulation..........................207 (5) Prediction offine accumulation by four-fluid model........................208 8.3.4 Summary.....................................................................................................208 8.4 Consumption offine in blast furnace................................................................210 APPENDIX...............................................................................................................211 REFERENCES.........................................................................................................213 NOMENCLATURE.................................................................................................215 CHÄPTER9 Masahiro Kawakami, Kazuyoshi Yamaguchi Bürden properties suitable for high rate PCI........................................................217 9.1 Agglomerate properties for high rate PCI.......................................................218 9.1.1 Sinter properties required for high rate PCI..........................................218 (1) Reduction degradation at low temperatures (RDI).........................218 (2) Reducibility (JIS-RI)............................................................................218 (3) Softening and melt-down properties at high temperatures..............220 9.1.2 Change in sinter properties during high rate PCI in BF.......................220 (1) Improvement in JIS-RI........................................................................221 (2) Aggravation of RDI............................................................................222 (3) Improvement in cold strength (SI and TI).........................................222 9.1.3 Effect of sinter properties on gas permeability.......................................222 (1) Slag volume (content of Si02 in sinter) 222 W™1.........................................................IIIIIIIIIII225 CONTENTS xv (3) Unburnt char........................................................................................228 (4) Mixing nuts coke into iron ore Iayer...................................................230 9.1.4 Future work................................................................................................232 9.2 Coke properties for high rate PCI....................................................................233 9.2.1 Effect offine coke on BF Operation..........................................................234 (1) CRS and bürden descent.....................................................................237 (2) Effect of coke fines on permeability...................................................237 (3) Fine accumulation area Controlling permeability............................237 9.2.2 Control of coke fine generation................................................................239 (1) Improvement in cold strength (DI).....................................................241 (2) Improvement in CSR...........................................................................244 (3) Improvement in combustion efficiency of PC...................................245 (4) Application of high reactivity of unburnt char..................................245 (5) Reactivity (CRI) of nuts coke..............................................................245 (6) Increase in coke reactivity...................................................................250 (7) Increase in coke size.............................................................................252 9.2.3 Enhancement of coke fine consumption..................................................252 9.2.4 Summary.....................................................................................................253 REFERENCES.........................................................................................................255 CHAPTER10 Tadashi Deno Upper Iimit of PCR...................................................................................................259 10.1 Replacement ratio of coke to PC.....................................................................259 10.1.1 Actual replacement ratio in blast furnace.............................................259 10.1.2 Effects of PC properties and Operation conditions on replacement ratio........................................................260 (1) Coal type and component....................................................................260 (2) PCR.......................................................................................................262 (3) Stoichiometric oxygen ratio (Excess air ratio)................................263 (4) Theoretical flame temperature...........................................................265 10.1.3 Theoretical study on replacement ratio.................................................266 xvi CONTENTS (1) Estimation from total heat and mass balance....................................266 (2) Estimation considering carbon consumption....................................269 10.1.4 Subjects for future study.........................................................................272 10.2 Upper limit of PCR...........................................................................................273 10.2.1 PCRbased on minimum stoichiometric oxygen ratio.........................274 10.2.2 Limit of PCRbased on maximum consumption of unburnt char.......275 (1) Estimation of consumption rate of unburnt char..............................275 (2) Reactions of unburnt char...................................................................283 10.2.3 Coke rate and carbon Solution loss reaction..........................................290 10.2.4 Coke rate and bürden distribution........................................................294 10.3 Summary..........................................................................................................296 REFERENCES.........................................................................................................297 Index..........................................................................................................................299
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spelling	Advanced pulverized coal injection technology and blast furnace operation ed. by Kuniyoshi Ishii 1. ed. Oxford Pergamon 2000 XVI, 307 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Altos fornos larpcal Carvão larpcal Coal gasification Coal, Pulverized Combustion engineering Kohlenstaubfeuerung (DE-588)4164535-2 gnd rswk-swf Kohlenstaubfeuerung (DE-588)4164535-2 s DE-604 Ishii, Kuniyoshi Sonstige oth HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009507005&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Advanced pulverized coal injection technology and blast furnace operation Altos fornos larpcal Carvão larpcal Coal gasification Coal, Pulverized Combustion engineering Kohlenstaubfeuerung (DE-588)4164535-2 gnd
subject_GND	(DE-588)4164535-2
title	Advanced pulverized coal injection technology and blast furnace operation
title_auth	Advanced pulverized coal injection technology and blast furnace operation
title_exact_search	Advanced pulverized coal injection technology and blast furnace operation
title_full	Advanced pulverized coal injection technology and blast furnace operation ed. by Kuniyoshi Ishii
title_fullStr	Advanced pulverized coal injection technology and blast furnace operation ed. by Kuniyoshi Ishii
title_full_unstemmed	Advanced pulverized coal injection technology and blast furnace operation ed. by Kuniyoshi Ishii
title_short	Advanced pulverized coal injection technology and blast furnace operation
title_sort	advanced pulverized coal injection technology and blast furnace operation
topic	Altos fornos larpcal Carvão larpcal Coal gasification Coal, Pulverized Combustion engineering Kohlenstaubfeuerung (DE-588)4164535-2 gnd
topic_facet	Altos fornos Carvão Coal gasification Coal, Pulverized Combustion engineering Kohlenstaubfeuerung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009507005&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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