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Presentation International conference on Life cycle Design of Buildings, Systems and Materials

Presentation International conference on Life cycle Design of Buildings, Systems and Materials 12th of June 2009 Berri de Jonge, MSc Plegt-Vos, New Business. Introduction. Plegt-Vos Case Mind Building™ context the system life cycle costing state of the art issues. Plegt-Vos.

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Presentation International conference on Life cycle Design of Buildings, Systems and Materials

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  1. Presentation International conference on Life cycle Design of Buildings, Systems and Materials 12th of June 2009 Berri de Jonge, MSc Plegt-Vos, New Business

  2. Introduction • Plegt-Vos • Case Mind Building™ • context • the system • life cycle costing • state of the art • issues

  3. Plegt-Vos • Developing building company operating in the north, east, west and central part of The Netherlands (6 offices in The Netherlands) • Real-estate development & Construction • 750 employees • Turnover: 220 million Euros / year

  4. Plegt-Vos • Focus on our environment • Focus on our customers • Develop concepts to meet our customers needs • Flexibility • Design for disassembly • Re-use of materials

  5. Case Mind Building™ • Idea: Jan Wind, Jan Wind Architects • Co-development: Jan Wind – Plegt-Vos

  6. What is Mind Building? • Different way of building; • Building for the future; • Integrated system: Total solution for structure and technical installations;

  7. Context Traditional Construction

  8. Context: Traditional Construction Properties • Static buildings – not flexible • No answers for changing requirements during the use of the building • Demolition is necessary when the building no longer meets the user requirements • Waste of materials

  9. Key Properties Mind Building • Flexible (inside and outside) • Sustainable • Design for variety • Assembly and disassembly • Minimal waste of materials Achieved through: • Industrial production • Standard interfaces and building components

  10. Application possibilities • Houses • Apartments • Utility • Schools • Hospitals • Care centres • Office buildings

  11. Advantages for our customer • Less Total Cost of Ownership • Fast building process (industrial/assembly) • Less costs for change in use • Less costs for maintenance • Building has more value and keeps value • Easier to adapt future new needs / demands • No demolition but re-use of components

  12. Combinatorial modularity • (Salvador et al., 2002a) How? Key Principles of the System different façade components real façade component (masonry)

  13. Assembly of components 1) Foundation 2) Floor components 3) Exterior wall components and/or columns 4) Floor components

  14. 1) Standardized Foundation

  15. 2) Floor components

  16. 3) Exterior Wall components

  17. 4) Floor component

  18. Technical installations and heating • Flexible; • Separated from the structure; • Combination of floor/air heating and ventilation; • Low temperature heating; • Free cooling possible; • Ready for the future: alternative energy sources easy to connect.

  19. Life-cycle costs • LCC Research conducted: comparison between traditional building method and Mind Building; • Conclusion: • Mind Building has more advantages during use of the building (re-use of components); • Eliminate start-up costs of new development as quick as possible;

  20. State of the art • Prototype testing (ready)(component level and system level) • Pilot project The Hague: 60 houses

  21. Pilot project The Hague

  22. oplevering ontwerp gereed initiatief PvE ontwerp voorb. uitvoering gebruik Issue • Focus on initial costs  value of sustainability and flexibility reveals in exploitation phase. Distribution Total Costs of Ownership

  23. Questions?

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