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Sustainable design - Coggle Diagram
Sustainable design
The technology challenge
Technology :
Objects
Process
Knowledge
Social-technology system
Activities
History
Biology
Chemistry
Agriculture
Machines
Manufacture
Electricity
Transportation
Calculus
Industrialization
Science + engineering
Human artifacts
Problem solving
Carrying capacity
Determin it
Reduce resource consumption
Over-use
Science
Sustainability science
Earth system complexity
Ecosistem resilience
Industrial ecology
Land saving agriculture
Nature-society interactions
Renewable energy
Biomimicry
Focus on Natural phenomena
Engineering
Aplication of science
Principles
Alternative technology
Minimal impact on the enviroment
Appropriate technology
Ethical
Social
Cultural
Economic
Ethical
Trade off
Benefits
Costs
Prediction
Intransparence
Complex
Dynamics
Continous spontaneous
Complexity
Unknown factors
IPAT
Population
Impact
Affluence
Technology
Paradox
Tech optimism
Tend to uderestimate nontechnical approaches
Every problem has a technical solution
Increas consumption and dealing with it´s effects
Tech pessimism
Overlook innovative
Problems caused by tech
Quality of life
Negative impact on the enviroment
Industrialization
World population
Pollution
Food production
Resource depletion
Profitable developments
Impact of technologies
Study of the sins of greenwashing
Fake green
False claims
Eco-labeling
Helps to prevent
Green
Meaning
Enviromental benefit
Research for awarness
7 Sins
Hidden trade-off
No proof
Vagueness
Irrelevance
Lesser of two evils
Fibbing
Worshiping false labels
Big box stores
More % of greener products
Experience
Green maturity
Transparency and proof
Keep certifying
Essential fight
Enviromental standards and certifications
Resource Flow and product desing
Resources
Produce products
Categories
Bulk materials
Upper ground
Macro nutrients
Calcium
Phsophorus
Nitrogen
Minerals
Metals
Stored energy
Oil
Gas
Coal
Flowing energy
Solar
Enviromental
Life
Biotic
Biomass
Resource Flow
Consequences
Global warming
Toxic metal effects
Toxic sustances
Acidification
Eutrophication
Material management
No accumulation of material
No accumulation of man-made substances
No systematic destruction
Designer role
Design with less materials
Design energy-efficient products
Design recyclable products
Perspectives
Egalitarians
Resources can´t be managed
Reduce need
Individualists
Fossil fuel
Consider not a problem
Hierarchists
Needs can´t be managed
Reduce resources use
Resourcce Depletion
Energy alternatives
Solved with recycling
Stock size
Effort
Substitutes
Reduce flow
Reuse
Recycle
Down-cycling
Miniaturalization
Maintenance
Substitute materials
Increase quality
Protect
Efficient use
Multi-functionality
Reparability
Enviroment and Desing
Ecodesign
Design for the enviroment
Objectives of Production
Financial
Ecological
Fairness
Three P´s
Planet
People
Profit
Necessary to add Politics
No support
Reduce enviromental impact
Design
Focus
End treatment
Transportation and use
Alternative processes
Enviromental improvement
Funcional enhancement
Lower impact materials
Keyanswer
Sustainable development
Profitable balance
Ecological requirements
Proper design
For society
Economic requirements
Problem
Production and consummption
Enviroment
Society
Economy
Companies policy
Producer responsability
Short term equilibrium of products
Proximity
Long term equilibrium of products
Price signals
End of life fiscal instrument
Increase regulatory cost
Virgin input cost
Integrated Product Policy (IPP)
Integrates all aspects
Consumption
Production
Tool box
"Craddle for craddle"
Recovery and recycling
End-of-life collection
Production cost
Dismantling
Enviromental neutralisation
Green tax shift
Income tax reduces
Quality Marketing oriented organization
Customer driven
Focus
Quality oriented organization
Meaningful data
Satisfying customers requirements
Green product innovation
Innovation of Design
Renewing Product Development (RPD)
Enviromentally friendly Product Development (EPD)
Integrated Pollution Prevention and Control (IPPC)
End-of-pipe
Reduce impact of production
Eco-efficiency
Energy efficiency
Waste minimisation
Cleaner technologies
Social effect
Best Available Technic (BAT)
Responsability of action