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Advanced Combustion for Sustainable Transport
| Advanced Combustion for Sustainable Transport |
| Autore | Agarwal Avinash Kumar |
| Pubbl/distr/stampa | Singapore : , : Springer Singapore Pte. Limited, , 2022 |
| Descrizione fisica | 1 online resource (367 pages) |
| Altri autori (Persone) |
MartínezAntonio García
KalwarAnkur ValeraHardikk |
| Collana | Energy, Environment, and Sustainability Ser. |
| Soggetto genere / forma | Electronic books. |
| ISBN |
9789811684180
9789811684173 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Intro -- Preface -- Contents -- Editors and Contributors -- Part I General -- 1 Introduction to Advanced Combustion for Sustainable Transport -- References -- Part II Advanced Combustion Technologies for CI Engines -- 2 Strategical Evolution of Clean Diesel Combustion -- 2.1 Introduction -- 2.1.1 Future of Diesel Engine -- 2.1.2 CDC and LTC -- 2.2 Practical Limit of the Efficiency -- 2.2.1 Constraints for Optimisation -- 2.2.2 Heat Loss -- 2.3 Mechanisms of Pollutant Formation -- 2.3.1 Soot Formation -- 2.3.2 CO and UHC Formation -- 2.4 Strategic Evolution of CDC -- 2.4.1 Injection Strategies -- 2.4.2 Swirl and Intake Geometry -- 2.4.3 Piston Bowl Geometry -- 2.5 Future Research Directions -- 2.5.1 Thermal Aspects -- 2.5.2 Interdisciplinary Aspects -- 2.6 Summary -- References -- 3 Multi-mode Low Temperature Combustion (LTC) and Mode Switching Control -- 3.1 Introduction -- 3.1.1 Limitations of LTC Operation -- 3.1.2 Benefits of Multi-mode Operation -- 3.1.3 Optimal Control of Multi-mode LTC Engine -- 3.2 Controlled Variables -- 3.2.1 Combustion Phasing -- 3.2.2 Engine Load -- 3.2.3 Exhaust Gas Temperature -- 3.2.4 Maximum Pressure Rise Rate -- 3.2.5 Engine-Out Emissions -- 3.2.6 COVimep -- 3.3 Control Actuators -- 3.3.1 Variable Valve Actuation -- 3.3.2 Fuel Injection System -- 3.3.3 Fast Thermal Management (FTM) -- 3.3.4 Exhaust Gas Recirculation (EGR) -- 3.3.5 Intake Air Pressure Boosting System -- 3.4 LTC Control -- 3.4.1 Model-Free Closed-Loop Control Systems -- 3.4.2 Model-Based Closed-Loop Control Systems -- 3.4.3 HCCI Control -- 3.4.4 PPCI Control -- 3.4.5 RCCI Control -- 3.5 Mode Switching Control -- 3.5.1 SI-HCCI-SI Mode Switching -- 3.5.2 HCCI-ASSCI-SI Mode Switching -- 3.5.3 HCCI-PPCI Mode Switching -- 3.5.4 CDC-PPCI Mode Switching -- 3.6 CDC-RCCI Mode Switching -- 3.7 RCCI-CDF Mode Switching -- 3.8 Summary -- References.
4 State of the Art in Low-Temperature Combustion Technologies: HCCI, PCCI, and RCCI -- 4.1 Introduction -- 4.1.1 Single Fuelled and Dual Fuelled Advance Combustion Technique -- 4.2 Strategies to Develop Low-Temperature Combustion Technology -- 4.2.1 Homogeneous Charge Compression Ignition Combustion (HCCI) -- 4.2.2 Premixed Charge Compression Ignition Combustion (PCCI) -- 4.2.3 Reactivity Controlled Compression Ignition (RCCI) -- 4.3 Concluding Remarks -- 4.4 Declaration of Competing Interest -- References -- 5 Combustion in Diesel Fuelled Partially Premixed Compression Ignition Engines -- 5.1 Introduction -- 5.2 Conventional Diesel Jet Combustion Model -- 5.3 Chemical Kinetics -- 5.4 Planar Laser-Induced Florescence (PLIF) -- 5.5 First Stage Ignition -- 5.6 Second Stage Ignition -- 5.7 Summary and Way Forward -- References -- 6 Gasoline Compression Ignition Combustion Strategies and Recent Engine System Developments for Commercial and Passenger Transport Applications -- 6.1 Introduction -- 6.2 Gasoline Autoignition Behavior -- 6.3 Gasoline Spray Characteristics -- 6.4 Overview of GCI Combustion Strategies -- 6.4.1 Homogeneous or Lightly-Stratified GCI (HCCI) -- 6.4.2 Partially-Premixed GCI (PPCI) -- 6.4.3 Mixing-Controlled GCI (MCCI) -- 6.5 Recent System-Level Developments of GCI Engines -- 6.5.1 15 L Heavy-Duty GCI Engine for Meeting 0.02 g/hp-Hr Tailpipe NOx -- 6.5.2 2.2 L Gasoline Direct Injection Compression Ignition Engine -- 6.5.3 1.4 L Mixed-Mode Gasoline Low Temperature Combustion Engine -- 6.5.4 2 L Mazda Skyactiv-X Gasoline Engine -- 6.5.5 Technology Outlook for GCI -- 6.6 Summary -- References -- Part III Advanced Combustion Technologies for SI Engines -- 7 Optical Diagnostics for Gasoline Direct Injection Engines -- 7.1 Introduction -- 7.2 Optical Diagnostics in GDI Engines -- 7.2.1 In-cylinder Spray Characterization. 7.2.2 In-cylinder Flows and Spray-Flow Interactions -- 7.2.3 Fuel-Air Mixture Formation -- 7.2.4 Flame Evolution and Pollutant Formation -- 7.3 Summary and Way-Forward -- References -- Part IV Dual-Fuel Combustion Technology -- 8 Dual-Fuel Internal Combustion Engines for Sustainable Transport Fuels -- 8.1 Introduction -- 8.2 Different Biofuels and Their Blends for Transportation -- 8.2.1 Dual Fuel System -- 8.2.2 Biomethane CNG Hybrid -- 8.3 Biogas-Biodiesel Fuel Mix for SI Engines -- 8.3.1 Potential Single Fuel Systems that Can Be Blended and Their Characteristics -- 8.3.2 Dual Fuel Blending Techniques: Methods of Preparation, Homogenization and Their Selection Criteria -- 8.3.3 Conditions for Maximizing the Combustion Potentials of Dual Fuels in ICEs -- 8.3.4 Factors Effecting Dual Fuel Characteristics in SI Engines -- 8.3.5 Dual Fuel Systems and Engine Life -- 8.3.6 Current Trends in the Use of Biofuels as High-Performance Engine Fuels -- 8.4 Future Prospects of Dual-Fuel System as an Alternative Fuel -- 8.5 Sustainable Technologies for Alternative Fuels and Future Challenges -- 8.5.1 Sustainable Technologies -- 8.5.2 Current Challenges and Future Trends -- 8.6 Conclusion -- References -- 9 Compressed Natural Gas Utilization in Dual-Fuel Internal Combustion Engines -- 9.1 Introduction -- 9.2 Natural Gas -- 9.3 Dual-Fuel Engines -- 9.4 CNG-Diesel Dual-Fuel Engines -- 9.5 CNG-Gasoline Dual-Fuel Engine -- 9.6 Summary and Way-Forward -- References -- Part V Miscellaneous -- 10 Analysis of the Potential Metal Hydrides for Hydrogen Storage in Automobile Applications -- 10.1 Introduction -- 10.2 Physisorption-Based Hydrogen Storage -- 10.2.1 Metal Organic Frameworks (MOFs) -- 10.2.2 Porous Carbons -- 10.2.3 Zeolites -- 10.3 Chemisorption-Based Hydrogen Storage -- 10.3.1 Complex Metal Hydrides -- 10.3.2 Metal Hydrides -- 10.4 Metal Hydride Properties. 10.4.1 Metal Hydrides Available -- 10.4.2 Equilibrium Pressure for Metal Hydrides -- 10.4.3 Thermal Modelling of Metal Hydrides -- 10.5 Requirements of Metal Hydrides for On-Board Applications -- 10.5.1 Achieving the Required Pressure -- 10.5.2 Achieving the Required Heat Transfer -- 10.5.3 Mass and Volume Considerations -- 10.5.4 Recyclability of Metal Hydrides for Many Cycles -- 10.6 Conclusion -- References -- 11 Waste Heat Recovery Potential from Internal Combustion Engines Using Organic Rankine Cycle -- 11.1 Introduction -- 11.1.1 WHR System Evolution and Trends -- 11.1.2 Current State-of-the-Art of the ORC Systems -- 11.2 Fundamentals of Organic Rankine Cycle (ORC) -- 11.2.1 Thermodynamic Analysis of the ORC System -- 11.2.2 ORC System Components -- 11.2.3 Working Fluids for ORC Systems -- 11.3 Economic Analysis of the ORC Systems -- 11.4 WHR System for ICEs: Advantages and Challenges -- 11.5 Future Directions in WHR Technologies -- References. |
| Record Nr. | UNINA-9910513586603321 |
Agarwal Avinash Kumar
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| Singapore : , : Springer Singapore Pte. Limited, , 2022 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Greener and Scalable e-Fuels for Decarbonization of Transport
| Greener and Scalable e-Fuels for Decarbonization of Transport |
| Autore | Agarwal Avinash Kumar |
| Pubbl/distr/stampa | Singapore : , : Springer Singapore Pte. Limited, , 2022 |
| Descrizione fisica | 1 online resource (424 pages) |
| Altri autori (Persone) | ValeraHardikk |
| Collana | Energy, Environment, and Sustainability Ser. |
| Soggetto genere / forma | Electronic books. |
| ISBN |
9789811683442
9789811683435 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910513691203321 |
|
Agarwal Avinash Kumar
|
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| Singapore : , : Springer Singapore Pte. Limited, , 2022 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Greener and scalable e-fuels for decarbonization of transport / / edited by Avinash Kumar Agarwal, Hardikk Valera
| Greener and scalable e-fuels for decarbonization of transport / / edited by Avinash Kumar Agarwal, Hardikk Valera |
| Pubbl/distr/stampa | Singapore : , : Springer, , [2022] |
| Descrizione fisica | 1 online resource (424 pages) |
| Disciplina | 170 |
| Collana | Energy, Environment, and Sustainability |
| Soggetto topico | Biomass energy |
| ISBN |
981-16-8343-3
981-16-8344-1 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910743360103321 |
| Singapore : , : Springer, , [2022] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Potential and challenges of low carbon fuels for sustainable transport / / Avinash Kumar Agarwal and Hardikk Valera, editors
| Potential and challenges of low carbon fuels for sustainable transport / / Avinash Kumar Agarwal and Hardikk Valera, editors |
| Pubbl/distr/stampa | Gateway East, Singapore : , : Springer, , [2022] |
| Descrizione fisica | 1 online resource (348 pages) |
| Disciplina | 662.6 |
| Collana | Energy, environment, and sustainability |
| Soggetto topico | Fuel |
| ISBN |
981-16-8414-6
981-16-8413-8 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910743372003321 |
| Gateway East, Singapore : , : Springer, , [2022] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Transportation Energy and Dynamics / / edited by Sunil Kumar Sharma, Ram Krishna Upadhyay, Vikram Kumar, Hardikk Valera
| Transportation Energy and Dynamics / / edited by Sunil Kumar Sharma, Ram Krishna Upadhyay, Vikram Kumar, Hardikk Valera |
| Autore | Sharma Sunil Kumar |
| Edizione | [1st ed. 2023.] |
| Pubbl/distr/stampa | Singapore : , : Springer Nature Singapore : , : Imprint : Springer, , 2023 |
| Descrizione fisica | 1 online resource (516 pages) |
| Disciplina | 388 |
| Altri autori (Persone) |
UpadhyayRam Krishna
KumarVikram ValeraHardikk |
| Collana | Energy, Environment, and Sustainability |
| Soggetto topico |
Transportation engineering
Traffic engineering Sustainability Transportation Technology and Traffic Engineering |
| ISBN | 981-9921-50-3 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto | Sustainable Rail Fuel Production from Biomass -- Thermochemical conversion of biomass wastes for biofuel production -- Vibrational Effect on Tribology -- Battery and Fuel Cell Trains: a critical review of activities performed at Florence University -- Automatic speed control of heavy-haulers trains -- A study on the Strength analysis of interior plate for rolling type gangway of urban railroad vehicle -- Safety policies and concerns for transportation of hazardous chemicals by Railway -- Repositioning The Nigerian Rail System For Global Competitiveness: Tackling The Noisome Peculiarities -- Mobile Aerial Ropeways Based On an Autonomous Self-Propelled Chassis: Design and Operation -- Linear Motors for High Speed Rail Transit System : A Sustainable Approach -- Approach to assist in the discovery of railway accident scenarios based on supervised learning -- Futuristic Trends in Automobile Exhaust Mufflers -- Heavy Metals Contaminants Threat to Environment: it's possible treatment -- Operational Greenhouse Gas Emissions of Air, Rail, Road, and Sea Transport Modes in Life Cycle Perspective -- Predicting the Effect on Land Values after Introducing High Speed Rail -- Deploying Machine Learning Models for Predictive Maintenance of high-value assets of Indian Railways -- Combining ITS and Optimization in Public Transit Planning -- Regenerative Braking in Indian Locomotives. |
| Record Nr. | UNINA-9910731487103321 |
|
Sharma Sunil Kumar
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| Singapore : , : Springer Nature Singapore : , : Imprint : Springer, , 2023 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||