Design Issues  Patents and copyrights  Standards and liability  Design for Accessibility  Product lifecycle management.

Slides:

Advertisements

Similar presentations

Ontario Environment Network, Labour Caucus OVERVIEW OF EXTENDED PRODUCER RESPONSIBILITY Jim Mahon Ontario Environment Network Detoxifying the Economy &

Advertisements

TUR Planner Course Session 1 Introduction to Toxics Use Reduction and the Toxics Use Reduction Act.

Design Constraints For Engineering Projects

Debby Valin FDEP - Central District. What is P2 Why do P2 How to P2 Means to P2 Continuing with P2 P2 in Buildings P2 in Offices P2 in Operations and.

Electronics Stewardship Tim Hilton

Toxics Use Reduction Institute Where in the hierarchy is Source Reduction? Liz Harriman Massachusetts Toxics Use Reduction Institute University of Massachusetts.

United Electronic Recycling United Electronic Recycling.

1 Brominated Flame Retardant (BFR) Use in Electrical and Electronic Equipment.

Product Life Cycle Assessment. Life Cycle Flowchart Adapted from Industrial Designers Society of America - Okala.

Design for the Environment Felicia Kaminsky ESM 595F 2 November 2000.

Environmental impacts of IT hardware Eric Williams United Nations University.

Figure 5.1: Inputs, Outputs, and Feedback 1 Transformation (Conversion) Process Energy Materials Labor Capital Information Goods or Services Feedback information.

Shepard Bros., Inc. Committed to the Environment.

Mary Jo Fruechtel / CIS 120 / VOLUNTEER SERVICE.

Product Life Cycle Stages of a Product n Design n Production n Distribution n Consumption n Retirement: end-of-life.

Cost Management ACCOUNTING AND CONTROL

GREENING SUPPLY CHAIN IN RETAIL SECTOR

WHAT A WASTE..!!!. E-WASTE FACTS E-waste or electronic wastes are Broadly described as loosely discarded, surplus, obsolete, broken, electrical or electronic.

Environmentally sound management of e-waste in India Environmentally sound management of e-waste in IndiaPresentation: Indo-German-Swiss e-waste initiative.

Standards Strategies for the decade ahead Greener Standards in Europe Naples, 9 February 2004 Guy Van Doorslaer.

Pollution Prevention Introduction Collision Repair Curriculum Paid for, in part, by the Kansas Department of Health and Environment.

WHO Health Care Waste Management Waste Minimization Role of Manufacturers of Injection Equipment Protection of the Human Environment (PHE) Richard M. Carr.

Yr 11 Graphics Practice test with revision time given Friday 17 th Sep Sustanability.

SUSTAINABLE PURCHASING (Environmental Preferable Purchasing) Presented by Kathleen Ingleby, C.P.M. 1.Progress the University of Utah has made in Sustainable.

Environmentally Preferable Procurement for Electronics Health Care Without Harm & The Computer Take Back Campaign’s Guidelines Santa Clara University February.

E-WASTE MANAGEMENT E-WASTE MANAGEMENT. Introduction  E-waste is a popular, informal name for electronic products nearing the end of their “useful life”.This.

Chapter Ten Safe, Legal, and Green Computer Usage Part I: Recycling and IT Laws.

© OECD A joint initiative of the OECD and the European Union, principally financed by the EU Seminar on Green Public Procurement Bucharest, October.

Chapter 11 Investment Recovery McGraw-Hill/Irwin Purchasing and Supply Management, 13/e © 2006 The McGraw-Hill Companies, Inc., All Rights Reserved.

Collaborative Environmental Procurement Strategies May 24, 2006 Pamela Brody-Heine Eco Stewardship Strategies Zero Waste Alliance.

Investment Recovery Marketing 3860 – Purchasing July 28, 2004 Kimball Bullington, Ph.D. Associate Professor of Operations Management Middle Tennessee State.

Seite 1 Session 3 Orientation to E-waste December 2, 2013 Rachna Arora Implemented by.

COMP 2923 A2 Impact of IT Consumables Danny Silver JSOCS, Acadia University.

THE EFFECTS OF ELECTRONIC WASTE BY: ANVITA GUPTA 7-1.

Computer Disposal Goes Green. Three billion units of consumer electronics potentially will become scrap between 2003 and That’s nine gadgets thrown.

© Global Risk ENVIRONMENTAL RISKS & COMPLIANCE Global Economic Outlook Seminar May 2, 2006 Arthur N. Mabbett The Mabbett Group Mabbett & Associates,

On the EPR Front Sheila Davis Silicon Valley Toxics Coalition August 2004.

Electronics and the Environment: Massachusetts Green Procurement Efforts Eric Friedman Director of State Sustainability MA Executive Office of Environmental.

Buying Green Computers: Innovation and Effectiveness Through Electronic Products Environmental Assessment Tool (EPEAT) Eric Friedman Massachusetts Director.

Purchasing Environmentally Preferable Computers Greening the Government Conference - Philadelphia June 5, 2003 Marie Steinwachs Product Stewardship Institute.

1 WHAT IS “DESIGN FOR ENVIRONMENT” ? Design for Environment (DFE) is a product design approach for reducing the impact of products on the environment.

Furniture Industry: Creating Value and Impact Through Sustainable Supply Chain Management – Steelcase Inc. Supply Chain Sustainability Michigan State University.

Electronic Waste: What happens to our electronic equipment later? Video showing e-waste in China.

Environmental Impact Lifecycle Analysis Team 22 John Doherty.

Careers in Manufacturing Manufacturing Process of changing raw or processed materials into products people can use Frontline Workers All the people, from.

DOODLE DRIVE Presenter: Alex Curtis Team 6 Environmental Impact TCSP.

Green Computing. Green Computing Objectives Minimising energy consumption from the IT estate Purchasing green energy and using green suppliers Reducing.

5 th ITU Green Standards Week Nassau, The Bahamas December 2015 From Waste to Wealth the Mobile Phone Partnership Initiative – Getting the ICT Sector.

S T A T E O F C A L I F O R N I A 1 Buying Green When Times Are Lean Environmentally Preferable Purchasing.

IMS 2020 Intelligent Manufacturing Systems Intelligent Manufacturing Systems Sustainable manufacturing Dimitris Kiritsis.

By Bhavesh Sankla.  BlackBerry was produced by a Canadian company called Research In Motion (RIM) which was founded in  The BlackBerry Smartphone.

Sustainability in the Supply Chain 5 © 2014 Pearson Education, Inc. SUPPLEMENT.

Apple Iphone. To cover price of the product is affected by environmental factors legislation, ethics or market competition.

GREEN ELECTRONICS SAVE ENVIRONMENT,IT WILL SAVE YOU!!! WE ARE DOING OUR BIT WHAT ABOUT YOU???

ECE 477 – Team 5. »We are designing a wireless telemetry system that measures translational and angular accelerations experienced by athletes and stores.

Introduction. Apple and Environment Climate Change. Materials Efficiency. Energy Efficiency. Packaging Main factors that affect the environment Recycling.

Ewaste Recycling Health Effects Author: Margaret Bates, The University of Northampton.

Hardware Considerations

Different impacts computer recycling is having in different parts of the world. Mahomed.

Control of Waste.

Engineering Main branches within Engineering CHEMICAL CIVIL ELECTRICAL

Extended Producer Responsibility

Design Issues Patents and copyrights October 28, 2016

GREEN ELECTRONICS.

International Initiatives for Environmental Health

Careers In Manufacturing

By Ankit Sitaula, Amrit acharya, pramesh silwal, Manish Shrestha

Design for the Environment: EcoDesign of Consumer Products

Design Constraints For Engineering Projects

Electronic Waste: What happens to our electronic equipment later?

Presentation transcript:

Design Issues  Patents and copyrights  Standards and liability  Design for Accessibility  Product lifecycle management

Stages of a Product  Design  Production  Distribution  Consumption/Maintenance  Retirement: reuse, recycle, dispose

Life Cycle Issues  Design:  standards  design delivery time  customer need, cost and profit  future upgrading  product testability  energy efficiency

Life Cycle Issues  Production  manufacturing cost and safety  energy consumption  materials logistics  production time  quality control  environmental considerations scrap by-products toxic by-products

Life Cycle Issues  Distribution  transportation cost  transportation time  Inventory  sales network

Life Cycle Issues  Consumption  customer training  repair and maintenance  spare parts  upgrades  energy use

Life Cycle Issues  Retirement  useful lifetime  trade-in/upgrade plan  end of customer support  reuse  recycle  disposal

Environmental and Energy Use Considerations  Design to minimize power consumption during manufacturing and use  Design for disassembly, reuse and recycling  Minimizing or eliminating the use of toxic chemicals in the manufacturing process  Minimizing or eliminating the use of heavy metals in products (like lead solder)  Selection of battery type, plastics used, etc.  Minimizing or recycling solvents, acids, etc. used in manufacturing

Legal Mandates on Environmental Issues  Electronic computer equipment is a complicated assembly of more than 1,000 materials  Many are highly toxic  chlorinated and brominated substances  toxic gases, toxic metals  photo-active and biologically active materials  acids  plastics and plastic additives  lead and cadmium in computer circuit boards  lead oxide and barium in CRTs  mercury in switches and flat screens  flame retardants

Legal Mandates on Environmental Issues  Extended Producer Responsibility (EPR)  producer bears responsibility for the lifecycle environmental and health impacts of their products  Take-Back programs (Europe)  EPA – Energy Star Program  ISO Standard: International Standard on Environmental Management

Design Issues Paper Assignment  Design Issues paper  one per team  due: 5:00PM on Monday Nov. 21.  electronic submission to  WORD.docx or.doc file  for details see link on syllabus (Week 13)