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12 Principles of Green Engineering

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Created by Paul Anastas as well as Julie Zimmerman *, these engineering principles outline just what would make a greener chemical process or item. See likewise theSandestin principles of eco-friendly design.

Starting in January, 2014, a “Eco-friendly Engineering Concept of the Month” will certainly be released, consecutively illuminating each principle via the point of view of an expert contributor. Click on the linked titles listed below to see the articles.

 

  1. Inherent Rather Than Circumstantial
    Designers need to strive to ensure that all materials and energy inputs and outputs are as inherently nonhazardous as possible.
  2. Prevention Instead of Treatment
    It is better to prevent waste than to treat or clean up waste after it is formed.
  3. Design for Separation
    Separation and purification operations should be designed to minimize energy consumption and materials use.
  4. Maximize Efficiency
    Products, processes, and systems should be designed to maximize mass, energy, space, and time efficiency.
  5. Output-Pulled Versus Input-Pushed
    Products, processes, and systems should be “output pulled” rather than “input pushed” through the use of energy and materials.
  6. Conserve Complexity
    Embedded entropy and complexity must be viewed as an investment when making design choices on recycle, reuse, or beneficial disposition.
  7. Durability Rather Than Immortality
    Targeted durability, not immortality, should be a design goal.
  8. Meet Need, Minimize Excess
    Design for unnecessary capacity or capability (e.g., “one size fits all”) solutions should be considered a design flaw.
  9. Minimize Material Diversity
    Material diversity in multicomponent products should be minimized to promote disassembly and value retention.
  10. Integrate Material and Energy Flows
    Design of products, processes, and systems must include integration and interconnectivity with available energy and materials flows.
  11. Design for Commercial “Afterlife”
    Products, processes, and systems should be designed for performance in a commercial “afterlife.”
  12. Renewable Rather Than Depleting
    Material and energy inputs should be renewable rather than depleting.

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