Principles of Future-Proofing

Research on future-proofing the built environment

  • The Principles of Future-Proofing
    • Principle 1: Prevent decay
    • Principle 2: Stimulate flexibility and adaptability
    • Principle 3: Extend service life
    • Principle 4: Fortify!
    • Principle 5: Increase redundancy
    • Principle 6: Reduce obsolescence
    • Principle 7: Plan Ahead
    • Principle 8: Diversify
    • Principle 9: Be local and healthy
    • Principle 10: Consider life cycle benefits
    • Principle 11: Take advantage of cultural heritage policy documents
    • Principle 12: Promote understanding
  • What is Future-Proofing?
    • Future-Proofing: A literature review
    • Future-Proofing: In electronics
    • Future-Proofing: In utilities systems
    • Future-Proofing: In industrial design
    • Future-Proofing: In sustainable design
    • Future-Proofing: And obsolescence
    • Future-Proofing: In building design
    • Future-Proofing: And resiliency
    • Future-Proofing: And climate change
    • Future-Proofing: In historic preservation philosophy
    • Future-Proofing: In heritage conservation philosophy
  • Case Studies & Research
    • Future-Proofing: Seeking Resilience in The Built Environment
    • Future-Proofing & Panarchy
    • Case Study: The Walrus Heads at the Arctic Building
    • The 10 Principles of Future-Proofing and the Arctic Building – AIA Seattle Presentation
    • Future-Proofing and the Arctic Building – Short Presentation
    • Future-Proofing, Charters, and Standards – Integrating the Principles into Practice
    • Future-Proofing Principle #8 – Life Cycle Analysis
    • Future-Proofing Principle #9 – Local Traditional Materials
    • Future-Proofing – An Initial Literature Review
  • About
    • The Author of the Principles
    • Contact
    • Bibliography of Sources
  • Blog

Principle 10: Consider life cycle benefits

Consider the long-term life cycle benefits of interventions in our built environment as opposed to demolition and disposal of existing historic building fabric.

 

The embodied energy and material resources in existing structures should be incorporated in environmental, economic, social, and cultural costs for any project.

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