wp5
Work package 5: Methodology development for design and functional and cost analyses of mechanical systems for energy recuperation using virtual engineering technologies
Goals:
- Development of methodology for design of mechanical systems for energy recuperation using virtual engineering technologies
- Development of methodology for functional and cost analyses of mechanical systems for energy recuperation using virtual engineering technologies
- Verification based on concrete project
Tasks:
WP5.Task1: State of the art analysis and methodology development for design of mechanical systems for energy recuperation using virtual engineering technologies
WP5.Task2: Development of methodology for functional and cost analyses of mechanical systems for energy recuperation using virtual engineering technologies
WP5.Task3: Development of pilot project of mechanical system for energy recuperation for already defined methodology for functional and cost analysis.
Foreseeable Risks:
- Possible influence of random factors or not included in simulation model ones that are important for the behaviour out of the field of physical prototype, used for verification – accumulated staff experience in simulation models definition gives reasons to expected that all important factors will be included.
- Irregular conception of the system approach for virtual prototype building for conceptual level verification of new systems and processes at too early stage – staff experience concerning such direction is enough to be sure that such a risk will be avoided.
Results:
WP5M1: State of the art of design approaches for mechanical systems for energy recuperation
WP5M2: Methodology for design of mechanical systems for energy recuperation using virtual engineering technologies
WP5M3: Methodology development for functional and cost analysis of mechanical systems for energy recuperation using virtual engineering technologies
WP5M4: Developed methodology for functional and cost analysis will be verified by pilot project for mechanical system for energy recuperation.