Introduction
Nowadays, many civil components share the same space, system, or environment. Our task and challenge as engineers is to ensure that these components work together to achieve a reliable and efficient operation of the civil system. The various components deteriorate at different rates and require different maintenance interventions, making their integration a complex task. An integrated maintenance strategy must incorporate all required interventions for the sub-systems and components, considering also dependencies that exist between them, environmental impacts and associated costs.
In the scope of this project we will:
- Introduce a school building as integration context for six distinct components and their preferred design options,
- Develop two integrated maintenance strategies, one for the building envelope, one for the building interior,
- Combine these two maintenance strategies, while optimizing system downtime and intervention frequency,
- Develop an Life Cycle Analysis of the integrated system, and
- Apply Multi-Objective Optimisation, considering various design parameters and performance criteria
Individual Systems and Sub-systems:
- Multipurpose Sport Hall: Transversal Beam
- Road: Pavement Road
- Wooden Multi-Family House: Exterior Wall
- Timber Room Module: Window
- Educational Building: Interior Wall Partition
- Hotel: HVAC System
Group members
- Fritz Trede (123)
- Gonzalo Luis Freire (499020)
- Janika Veldhuis (486206)
- Luisa Limbach (402353)
- Ibrahim Yigit Sun (494246)
- Seyed Milad Hasheminejad (494226)
R-script: r-script_groupb