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Hybrid Powertain Systems - Coggle Diagram
Hybrid Powertain Systems
Methodology
Data Selection Criteria
Relevance of the research
Research And Data Retrieval
Keywords
Hybrid
HEV
Hybrid Powertrain Systems
Electric Vehicles
Databases
Science Direct
RMIT Library
Google Scholar
Web of Science
Articles Published within 5-10 years
Study specificall address to the Topic selected
Research Gaps
Cost vs Performance trade-offs
Lack of Real World Validation of Control Strategies.
Incomplete Integration of Thermal Management System
Limited Study of Battery Degradation and Lifecycle Effects
Challenges and Limitations
Range Limitations
Dependance on a single hydrocarbon fuel source
Battery Degradation
Increase Weight
High Cost
Advantages
Enhanced Fuel Economy
Lower Emissions
Electric & ICE Complement each other
Energy recovery (regenerative braking).
ICE takes over at high speeds.
Emerging Trends/ Future Directions
Optimization of fuel cell electric vehicles
Charging Infrastructure
Integration of Artifical Intelligence
Multi-objective configuration optimization
Integrated optimisation in HEV system level design
Expansion of optimisation to connected and automated HEVs
Types of Hybrid Architectures
Parallel Configuration
Series Configuration
Series-Parallel (Power-Split) Configuration
PHEV
Multi-mode
Basic Components of Hybrid Vehicles
Primary Energy Source/ Prime mover
Electric motor (EMS), DC-DC converter, DC-AC Converter
Energy Storage System
Transmissions
Themes for Literature Review Body
Theme1Hybrid Powertrain Architectures
Theme2: Performance Challenges of Hybrid Powertrains
Theme3: Gaps
Literature Review Structure
Introduction and Background/ Motivation
Literature Body
Conclusion