Comprehensive coverage of thermal energy management systems and components in vehicles
In Thermal Energy Management in Vehicles, a team of distinguished researchers delivers a robust and authoritative account of thermal energy management systems and components in vehicles. Covering three main areas - the thermal management of internal combustion engines, mobile air-conditioning, and thermal management of hybrid electric vehicles and electric vehicles - the book discusses and proposes simulation models for many of the components and systems introduced in the book.
The authors also cover state-of-the-art and emerging technologies, as well as likely future industry trends, and offer an accompanying website with supplementary materials like downloadable models.
Readers will also find: - Material that bridges the gap between academia and industry - Proposed simulation models for vehicular components and systems - Fulsome discussions of industry trends likely to take hold in the near future - Accompanying online resources, including downloadable simulation models, on a complimentary website
Perfect for researchers, graduate students, and practitioners in automotive engineering, Thermal Energy Management in Vehicles will also benefit anyone seeking a comprehensive treatment of vehicular thermal energy management systems and components.
Table of Contents
CHAPTER 1 FUNDAMENTALS 1
1.1 INTRODUCTION 2
1.2 FUNDAMENTAL DEFINITIONS IN THERMODYNAMICS 2
1.3 FLUIDS 8
1.4 HEAT TRANSFERS 21
1.5 FIRST LAW OF THERMODYNAMICS 28
1.6 SECOND LAW OF THERMODYNAMICS 31
1.7 FLOWS IN HYDRAULIC CIRCUITS 38
1.8 HEAT EXCHANGERS 40
1.9 REFERENCES 48
CHAPTER 2 INTERNAL COMBUSTION ENGINE THERMAL MANAGEMENT 1
2.1 INTRODUCTION 2
2.2 FUNDAMENTALS OF INTERNAL COMBUSTION ENGINES 3
2.3 ENGINE COOLING AND HEATING 24
2.4 OIL COOLING 33
2.5 CHARGE AIR COOLING (CAC) 35
2.6 EXHAUST GAS RECIRCULATION (EGR) COOLING 40
2.7 FRONT-END MODULE 44
2.8 ENGINE WASTE HEAT RECOVERY 50
2.9 REFERENCES 53
CHAPTER 3 CABIN CLIMATE CONTROL 1
3.1 INTRODUCTION 3
3.2 THERMAL CONFORT 3
3.3 CABIN THERMAL LOADS 17
3.4 DISTRIBUTION OF THERMAL ENERGY THROUGH THE CABIN 38
3.5 PRODUCTION OF COOLING POWER 45
3.6 PRODUCTION OF HEATING POWER 75
3.7 LOCAL COOLING AND HEATING SYSTEMS 77
3.8 THERMAL ENERGY STORAGE 79
3.9 REFERENCES 82
CHAPTER 4 THERMAL ENERGY MANAGEMENT IN HYBRID AND ELECTRIC VEHICLES 1
4.1 INTRODUCTION 2
4.2 CLASSIFICATION OF ELECTRIC AND HYBRID ELECTRIC VEHICLES 4
4.3 CABIN THERMAL CONTROL IN HEVs AND EVs 13
4.4 BATTERY THERMAL MANAGEMENT (BTM) 26
4.5 E-MOTOR AND POWER ELECTRONICS COOLING 46
4.6 OVERALL THERMAL ENERGY MANAGEMENT OF ELECTRIFIED VEHICLES 54
4.7 REFERENCES 57
