Modelling Diesel Combustion
| AUTHOR | Reitz, Rolf; Aghav, Yogesh V.; Lakshminarayanan, P. A. |
| PUBLISHER | Springer (01/22/2022) |
| PRODUCT TYPE | Hardcover (Hardcover) |
Description
1 IntroductionRole of Internal Combustion EnginesDevelopments in DI Diesel enginesModelling of combustion in DI diesel engines2 Phenomenology of diesel Combustion and modellingCombustion ModelEmission modelsTheme of the book3 ExperimentsStudies in a bombReal engine studies4 Turbulent Structure of the Diesel SprayVaporising sprayCombusting spraysSummary of the model for vapourising and combusting spraysModern view of the vaporising and burning spray5 Ignition Delay in a Diesel EngineDefinition and Measurement of Ignition DelayClassical model for Ignition Delay and its extension to other fuelsPhenomenological model of Ignition delay6 Heat Transfer7 Heat Release in Indirect Injection enginesDescription of the Phenomenological modelExperimental techniqueResults and discussions8 Mixing correlations for smoke and fuel consumption of Direct Injection enginesCharacteristic parameter for air fuel mixing in a cross flowValidation of the mixing parameterConclusion9 Heat Release in Direct Injection EnginesHeat Release Rate in Diesel EnginesModel for Mixing Controlled CombustionInput rate and dissipation rate of turbulent kinetic energy of fuel sprayModelling three Regimes of heat release rateSteps to calculate Heat Release Rate using the new modelExperimental ValidationHeat Release Rate from the ExperimentsEstimation of heat transfer across the wallsResults10 Prediction of the Rate of Heat Release of Mixing-Controlled Combustion in a Common-Rail Engine with Pilot and Post InjectionsAuthors: Anirudh Jaipuria (Formerly with Ashok Leyland, Chennai), P A Lakshminarayanan (Adjunct Professor, IIT Kanpur)IntroductionDescription of the ModelMCC modelModelling three regimes for a single injectionRefining the model in the second regimeModelling the pilot and main injectionsModelling the post-injectionExperimental ValidationCharacteristics of the common-rail injectorExperimental measurement of the ROHR and the effect of TDC determinationResults and DiscussionDiscussion on the model constantsSummary11 Hydrocarbons from D I Diesel EnginesHC modelPredicting HC in the exhaustDiscussions12 Hydrocarbon Emissions from Spark Ignition EnginesDescription of the Engine ModelComparison of the model prediction with engine experimentsConclusions13 Smoke from DI Diesel enginesPhenomenon of soot formationApplication to engine conditions14 Oxides of Nitrogen from Direct Injection Diesel EnginesExhaust gas recirculation (EGR)Phenomenology of Oxides of Nitrogen15 Particulate Matter from Direct Injection Diesel enginesIntroductionFormation of Particulate MatterDirect Measurement of PMComponents of Particulate Matter (PM)Sulphur in FuelOilHydrocarbon from Fuel and Lubricating OilFuelCarbon SootMeasurement of SmokeFilter Paper Method, Filter Smoke Number (FSN)Opacity meter, Opacity %Photo-acoustic sensingCorrelation of soot in PM, FSN, and OpacityCalculation of Total Particulate MatterPM ModelValidation of CorrelationExperimental ValidationDis
Show More
Product Format
Product Details
ISBN-13:
9789811667411
ISBN-10:
9811667411
Binding:
Hardback or Cased Book (Sewn)
Content Language:
English
Edition Number:
0002
More Product Details
Page Count:
406
Carton Quantity:
18
Product Dimensions:
6.14 x 0.94 x 9.21 inches
Weight:
1.71 pound(s)
Feature Codes:
Illustrated
Country of Origin:
NL
Subject Information
BISAC Categories
Technology & Engineering | Environmental - Pollution Control
Technology & Engineering | Automotive
Technology & Engineering | Mechanical
Dewey Decimal:
621.436
Descriptions, Reviews, Etc.
jacket back
This book comprehensively discusses diesel combustion phenomena like ignition delay, fuel-air mixing, rate of heat release, and emissions of smoke, particulate and nitric oxide. It enables quantitative evaluation of these important phenomena and parameters. Most importantly, it attempts to model them with constants that are independent of engine types and hence they could be applied by the engineers and researchers for a general engine. This book emphasizes the importance of the spray at the wall in precisely describing the heat release and emissions for most of the engines on and off-road. It gives models for heat release and emissions. Every model is thoroughly validated by detailed experiments using a broad range of engines. The book describes an elegant quasi-one-dimensional model for heat release in diesel engines with single as well as multiple injections. The book describes how the two aspects, namely, fuel injection rate and the diameter of the combustion bowl in the piston, have enabled meeting advanced emission, noise, and performance standards. The book also discusses the topics of computational fluid dynamics encompassing RANS and LES models of turbulence. Given the contents, this book will be useful for students, researchers and professionals working in the area of vehicle engineering and engine technology. This book will also be a good professional book for practising engineers in the field of combustion engines and automotive engineering.
Show More
publisher marketing
1 IntroductionRole of Internal Combustion EnginesDevelopments in DI Diesel enginesModelling of combustion in DI diesel engines2 Phenomenology of diesel Combustion and modellingCombustion ModelEmission modelsTheme of the book3 ExperimentsStudies in a bombReal engine studies4 Turbulent Structure of the Diesel SprayVaporising sprayCombusting spraysSummary of the model for vapourising and combusting spraysModern view of the vaporising and burning spray5 Ignition Delay in a Diesel EngineDefinition and Measurement of Ignition DelayClassical model for Ignition Delay and its extension to other fuelsPhenomenological model of Ignition delay6 Heat Transfer7 Heat Release in Indirect Injection enginesDescription of the Phenomenological modelExperimental techniqueResults and discussions8 Mixing correlations for smoke and fuel consumption of Direct Injection enginesCharacteristic parameter for air fuel mixing in a cross flowValidation of the mixing parameterConclusion9 Heat Release in Direct Injection EnginesHeat Release Rate in Diesel EnginesModel for Mixing Controlled CombustionInput rate and dissipation rate of turbulent kinetic energy of fuel sprayModelling three Regimes of heat release rateSteps to calculate Heat Release Rate using the new modelExperimental ValidationHeat Release Rate from the ExperimentsEstimation of heat transfer across the wallsResults10 Prediction of the Rate of Heat Release of Mixing-Controlled Combustion in a Common-Rail Engine with Pilot and Post InjectionsAuthors: Anirudh Jaipuria (Formerly with Ashok Leyland, Chennai), P A Lakshminarayanan (Adjunct Professor, IIT Kanpur)IntroductionDescription of the ModelMCC modelModelling three regimes for a single injectionRefining the model in the second regimeModelling the pilot and main injectionsModelling the post-injectionExperimental ValidationCharacteristics of the common-rail injectorExperimental measurement of the ROHR and the effect of TDC determinationResults and DiscussionDiscussion on the model constantsSummary11 Hydrocarbons from D I Diesel EnginesHC modelPredicting HC in the exhaustDiscussions12 Hydrocarbon Emissions from Spark Ignition EnginesDescription of the Engine ModelComparison of the model prediction with engine experimentsConclusions13 Smoke from DI Diesel enginesPhenomenon of soot formationApplication to engine conditions14 Oxides of Nitrogen from Direct Injection Diesel EnginesExhaust gas recirculation (EGR)Phenomenology of Oxides of Nitrogen15 Particulate Matter from Direct Injection Diesel enginesIntroductionFormation of Particulate MatterDirect Measurement of PMComponents of Particulate Matter (PM)Sulphur in FuelOilHydrocarbon from Fuel and Lubricating OilFuelCarbon SootMeasurement of SmokeFilter Paper Method, Filter Smoke Number (FSN)Opacity meter, Opacity %Photo-acoustic sensingCorrelation of soot in PM, FSN, and OpacityCalculation of Total Particulate MatterPM ModelValidation of CorrelationExperimental ValidationDis
Show More
List Price $169.99
Your Price
$168.29