NEW YORK, Sept. 8, 2011 /PRNewswire/ -- Reportlinker.com announces that a new market research report is available in its catalogue:
Global E-Waste Management Market (2011 – 2016)
Report Description:
Rapid advancement in technology is resulting in new electronic products being launched, along with upgraded versions of existing products such as laptops and mobile phones flooding the market on a regular basis. This, coupled with an increase in the buying power of individuals, is resulting in decrease in the shelf life of electronic products. This trend is causing an accumulation of electronic waste that triggers the need to recycle electronic products; which implies the fact that the recycling industry will always have its share in the market.
Developing countries such as India, China, and countries in Africa are facing the heat of the e-waste being illegally dumped in these countries from the developed countries such as U.S. and UK. Most of these electronic products are simply plonked in these countries since no facilities exist for safe recycling of these products.
It is in the recent past that the countries have realized the need to efficiently recycle all the components of the electronic products and reuse them. The recycling rates of various components are very low, for e.g., out of the plastic generated from the electronic products, approximately only five percent of it is recycled. There is an increasing demand for proper e-waste management techniques since e-waste consists of toxic materials, which if not properly disposed, can lead to high levels of pollution. Such pollution, if not controlled, can lead to irreversible damage to human health as well as the environment.
The EU mandated all the producers of electronics to undertake the responsibility of disposal of end-of-life products. These regulations are encouraging companies to "recycle and reuse" the products. Some of the regulations in the European Union are the WEEE directive, RoHS, and Basel Convention.
The report deals with the market trends in the e-waste management market, the gap between the volume of e-waste generated and currently being recycled, and the amount that is expected to be recycled in the next five years.
The global volume of e-waste generated is expected to reach 93.5 million tons in 2016 from 41.5 million tons in 2011 at a CAGR of 17.6% from 2011 to 2016. The revenue generated from the e-waste management market is expected to grow from $9.15 billion in 2011 to $20.25 billion in 2016 at a CAGR of 17.22% from 2011 to 2016.
Scope of the report
This research report categorizes the global e-waste management market on the basis of different materials used in the electronic products, the source from where e-waste is generated, and includes geographical analysis, forecasting revenues, and analyzing trends in the e-waste management market.
On the basis of material recovery market
The materials such as plastic, glass, metals and other materials used in the electronic products, and the percentage of every material present in some of the electronic equipment are discussed.
On the basis of source market
The source of the generation of e-waste is discussed with the amount of every component being used in the electronic product and hence the amount of waste that is generated from specific electronic products.
On the basis of geography
North America, Europe, Asia-Pacific, and ROW are covered in the report.
North America is subdivided into U.S., Canada, and Mexico
Europe is further divided into UK, Germany, France, and others
Asia-Pacific is divided into China, India, Japan, and others
ROW is segmented into Africa, Middle East, and others
Each section will provide market data, market drivers, trends and opportunities, key players, and competitive outlook. This report will also provide market tables for covering the sub-segments and micro-markets. In addition, the report also provides more than 20 company profiles covering all the sub-segments.
TABLE OF CONTENTS
1 INTRODUCTION
1.1 Key Take-Aways
1.2 Report Description
1.3 Markets Covered
1.4 Stakeholders
1.5 Research Methodology
1.5.1 Market size
1.5.2 Key data points from secondary sources
1.5.3 Key data points from primary sources
1.5.4 Assumptions made for this report
1.5.5 List of companies covered during primaries
2 Summary
3 Market Overview
3.1 E-waste Market Definition
3.2 Methods of E-Waste Disposal
3.2.1 Land filling
3.2.2 Incineration
3.2.3 Reuse
3.2.4 Recycle
3.3 E-waste Recycling Process
3.3.1 Collection of e-waste
3.3.2 Dismantling
3.3.3 Pre-processing
3.3.4 End-processing
3.3.5 Recycled metals
3.4 E-waste generated vs e-waste recycled
3.5 Electronic Equipment Sales
3.5.1 Household appliances
3.5.1.1 Air conditioners
3.5.1.2 Refrigerators
3.5.2 It & telecom
3.5.2.1 Computers
3.5.2.2 Cell phones
3.5.3 Entertainment
3.5.3.1 LCD television
3.5.3.2 Portable Music Players (PMP)/Music Player 3 (MP3)
3.5.3.3 iPod
3.6 Market Dynamics
3.6.1 Drivers
3.6.1.1 Decreasing shelf life of electronic products
3.6.1.2 Presence of high grade and rare earth metals
3.6.1.3 Laws & regulations
3.6.1.3.1 U.S. laws
3.6.1.3.2 European laws
3.6.1.4 Conservation of health & environment
3.6.2 Restraints
3.6.2.1 High cost of recycling
3.6.2.2 Lack of e-waste collection centers
3.6.2.3 Lack of awareness for efficient recycling
3.6.3 Opportunities
3.6.3.1 Increasing business for certified companies
3.6.3.2 Viable entrepreneurial activities
3.7 Burning Issues
3.7.1 Illegal dumping
3.7.2 Inefficient process of recycling
3.8 Market share analysis
3.9 Patent Analysis
4 Material Recovery Market
4.1 Market Overview
4.1.1 Plastic
4.1.2 Metals
4.1.3 Glass
4.1.4 Others
5 E-Waste Source Market
5.1 Market Overview
5.1.1 IT & telecom
5.1.1.1 Computers
5.1.1.1.1 Assumption
5.1.1.2 Mobile Phones
5.1.1.2.1 Assumption
5.1.1.3 Others
5.1.2 Household appliances
5.1.2.1 Refrigerators
5.1.2.1.1 Assumption
5.1.2.2 Air Conditioners
5.1.2.2.1 Assumption
5.1.2.3 Washing machines
5.1.2.3.1 Assumption
5.1.2.4 Others
5.1.3 Entertainment
5.1.3.1 Television
5.1.3.1.1 Assumption
5.1.3.2 Others
6 Governing Bodies
6.1 Associations
6.2 E-waste Campaigns
7 Geographical Analysis
7.1 North America
7.1.1 U.S.
7.1.2 Canada
7.1.3 Mexico
7.2 Europe
7.2.1 UK
7.2.2 Germany
7.2.3 France
7.2.4 Others
7.3 Asia-Pacific
7.3.1 China
7.3.2 India
7.3.3 Japan
7.3.4 Others
7.4 Rest of The World
7.4.1 Middle East
7.4.2 Africa
7.4.3 Others
8 Competitive Landscape
8.1 Key Growth Strategies
9 Company Profiles
9.1 STENA TECHNOWORLD AB
9.1.1 Overview
9.1.2 Products & services
9.1.3 Financials
9.1.4 Strategy
9.1.5 Developments
9.2 SIMS RECYCLING SOLUTIONS
9.2.1 Overview
9.2.2 Products & services
9.2.3 Financials
9.2.4 Strategy
9.2.5 Developments
9.3 UMICORE SA
9.3.1 Overview
9.3.2 Products & services
9.3.3 Financials
9.3.4 Strategy
9.3.5 Developments
9.4 CIMELIA RESOURCE RECOVERY PTE LTD
9.4.1 Overview
9.4.2 Products & services
9.4.3 Financials
9.4.4 Strategy
9.4.5 Developments
9.5 AURUBIS AG
9.5.1 Overview
9.5.2 Products & services
9.5.3 Financials
9.5.4 Strategy
9.5.5 Developments
9.6 ELECTRONIC RECYCLERS INTERNATIONAL INC
9.6.1 Overview
9.6.2 Products & services
9.6.3 Financials
9.6.4 Strategy
9.6.5 Developments
9.7 GLOBAL ELECTRIC ELECTRONIC PROCESSING INC
9.7.1 Overview
9.7.2 Products & services
9.7.3 Financials
9.7.4 Strategy
9.7.5 Developments
9.8 MBA POLYMERS INC
9.8.1 Overview
9.8.2 Products & services
9.8.3 Financials
9.8.4 Strategy
9.8.5 Developments
9.9 XSTRATA COPPER
9.9.1 Overview
9.9.2 Products & services
9.9.3 Financials
9.9.4 Strategy
9.9.5 Developments
9.10 TETRONICS LTD
9.10.1 Overview
9.10.2 Products & services
9.10.3 Financials
9.10.4 Strategy
9.10.5 Developments
9.11 CRT RECYCLING LTD
9.11.1 Overview
9.11.2 PRODUCT & SERVICES
9.11.3 Financials
9.11.4 Strategy
9.11.5 Developments
9.12 ECO INTERNATIONAL LLC
9.12.1 Overview
9.12.2 Products & services
9.12.3 Financials
9.12.4 Strategy
9.12.5 Developments
9.13 DLUBAK GLASS COMPANY
9.13.1 Overview
9.13.2 Products & services
9.13.3 Financials
9.13.4 Strategy
9.13.5 Developments
9.14 BOLIDEN AB
9.14.1 Overview
9.14.2 Products & services
9.14.3 Financials
9.14.4 Strategy
9.14.5 Developments
9.15 EXITCOM RECYCLING
9.15.1 Overview
9.15.2 Products & services
9.15.3 Financials
9.15.4 Strategy
9.16 E-SOLUTIONS USA LLC
9.16.1 Overview
9.16.2 Products & services
9.16.3 Financials
9.16.4 Strategy
9.17 MERCURY RECYCLING LTD
9.17.1 Overview
9.17.2 Products & services
9.17.3 Financials
9.17.4 Developments
9.18 MRT SYSTEM INTERNATIONAL AB
9.18.1 Overview
9.18.2 Products & services
9.18.3 Financials
9.18.4 Strategy
9.18.5 Developments
9.19 ELECTROCYCLING GMBH
9.19.1 Overview
9.19.2 PRODUCTS &SERVICES
9.19.3 Financials
9.19.4 Strategy
9.19.5 Developments
9.20 CENTILLION ENVIRONMENT & RECYCLING LTD
9.20.1 Overview
9.20.2 Products & services
9.20.3 Financials
9.20.4 Strategy
9.20.5 Developments
9.21 INTERCON SOLUTIONS INC
9.21.1 Overview
9.21.2 Products & services
9.21.3 Financials
9.21.4 Strategy
9.21.5 Developments
9.22 ZAK ENTERPRISES
9.22.1 Overview
9.22.2 Products & services
9.22.3 Financials
9.22.4 Developments
9.23 RECYCLA
9.23.1 Overview
9.23.2 Products & services
9.23.3 Financials
9.23.4 Strategy
9.23.5 Developments
9.24 ECOMATION OY
9.24.1 Overview
9.24.2 Products & services
9.24.3 Financials
9.24.4 Strategy
9.24.5 Developments
9.25 LIFESPAN TECHNOLOGY RECYCLING INC
9.25.1 Overview
9.25.2 Products & services
9.25.3 Financials
9.25.4 Developments
APPENDIX
• U.S. Patents
• Japan Patents
• Europe Patents
LIST OF TABLES
1 E-Waste Volume Generated, by Geography, 2009 – 2016 (Million Tons)
2 E-Waste Management Market Revenue, by Geography,
2009 – 2016 ($Billion)
3 Laws for Recycling E-Waste in Different States in U.S.
4 Laws for Recycling E-Waste in Europe
5 Harmful Diseases Caused Due to Toxic Components
6 Top Players in the E-Waste Management Market
7 Volume of Material Generated, 2009 – 2016 (Million Tons)
8 Volume of Material Recycled, 2009 – 2016 (Million Tons)
9 Types of Metals in Electronic Products
10 Material Composition of a Computer
11 Number of Discarded Computers, by Geography, 2009 – 2016 (Million)
12 Plastic Generated from Computers, by Geography, 2009 – 2016 (Million Tons)
13 Silica Glass Generated from Computers, by Geography,
2009 – 2016 (Million Tons)
14 Aluminum Generated from Computers, by Geography,
2009 – 2016 (Million Tons)
15 Ferrous Metals Generated from Computers, by Geography, 2009 – 2016 (Million Tons)
16 Non-Ferrous Metals Generated from Computers, 2009 – 2016 (Million Tons)
17 Material Composition of a Cell Phone
18 Number of Discarded Cell Phones, by Geography, 2009 – 2016 (Million)
19 Plastic Generated from Cell Phones, by Geography,
2009 – 2016 (Million Tons)
20 Glass Generated from Cell Phones, by Geography, 2009 – 2016 (Million Tons)
21 Aluminum Generated from Cell Phones, by Geography,
2009 – 2016 (Million Tons)
22 Other Components Generated from Cell Phones,
By Geography, 2009 – 2016 (Million Tons)
23 Material Composition of a Refrigerator
24 Number of Discarded Refrigerators, by Geography,
2009 – 2016 (Million)
25 Plastic Generated from Refrigerators, by Geography,
2009 – 2016 (Million Tons)
26 Aluminum Generated from Refrigerators, by Geography,
2009 – 2016 (Million Tons)
27 Iron Generated from Refrigerators, by Geography,
2009 – 2016 (Million Tons)
28 Other Components Generated from Refrigerators,
By Geography, 2009 – 2016 (Million Tons)
29 Material Composition of an Air Conditioner
30 Number of Discarded Air Conditioners, by Geography,
2009 – 2016 (Million)
31 Plastic Generated from Air Conditioners, 2009 – 2016 (Million Tons)
32 Copper Generated from Air Conditioners, by Geography,
2009 – 2016 (Million Tons)
33 Iron Generated from Air Conditioners, by Geography,
2009 – 2016 (Million Tons)
34 Aluminum Generated from Air Conditioners, by Geography, 2009 – 2016 (Million Tons)
35 Other Components Generated from Air Conditioners,
By Geography, 2009 – 2016 (Million Tons)
36 Material Composition of a Washing Machine
37 Number of Washing Machines Discarded, by Geography,
2009 – 2011 (Million)
38 Plastic Generated from Washing Machines, by Geography, 2009 – 2011 (Million Tons)
39 Iron Generated from Washing Machines, by Geography,
2009 – 2011 (Million Tons)
40 Aluminum Generated from Washing Machines, by Geography, 2009 – 2011 (Million Tons)
41 Other Components Generated from Washing Machines,
By Geography, 2009 – 2011 (Million Tons)
42 Material Composition of a Television
43 Number of Discarded Televisions, by Geography, 2009 – 2016 (Million)
44 Plastic Generated from LCD Televisions, by Geography,
2009 – 2016 (Million Tons)
45 Glass Generated from LCD Televisions, by Geography,
2009 – 2016 (Million Tons)
46 Iron Generated from LCD Televisions, by Geography,
2009 – 2016 (Million Tons)
47 Aluminum Generated from LCD Televisions, by Geography, 2009 – 2016 (Million Tons)
48 Other Components Generated from LCD Televisions,
By Geography, 2009 – 2016 (Million Tons)
49 E-Waste Management Associations
50 E-Waste Campaigns
51 North America: Volume of E-Waste Generated, by Country, 2009 – 2016 (Million Tons)
52 Europe: Volume of E-Waste Generated, by Country,
2009 – 2016 (Million Tons)
53 APAC: Volume of E-Waste Generated by Country, 2009 – 2016 (Million Tons)
54 RoW: Volume of E-Waste Generated, by Geography, 2009 – 2016 (Million Tons)
55 Mergers & Acquisitions, 2008 – 2011
56 New Plants & Expansion, 2009 - 2011
57 Partnerships/Agreements/Collaborations/Alliances,
2008 - 2011
58 New Product Development, 2008 - 2010
LIST OF FIGURES
1 Increasing E-Waste
2 Process of Recycling
3 Estimated Volume of E-Waste Generated & Recycled, 2011
4 Global Unit Shipments of Air Conditioners, 2009 – 2016 (Million)
5 Global Unit Shipments of Refrigerators, 2009 – 2016 (Billion)
6 Global Unit Shipments of Computers, 2009 – 2016 (Billion)
7 Global Unit Shipments of Cell Phones, 2009 – 2016 (Billion)
8 Global Unit Shipments of LCD Televisions, 2009 – 2016 (Million)
9 Global Unit Shipments of PMP/MP3, 2009 – 2016 (Million)
10 Global Unit Shipments of Apple iPODS, 2009 – 2016 (Million)
11 Driver Impact Analysis
12 Restraints Impact Analysis
13 Illegal Dumping of E-Waste
14 Patent Analysis, by Geography, 2005 – 2011
15 Estimated %tage of Plastic Generated & Recycled,
2011 Vs 2016
16 Estimated %tage of Metals Generated & Recycled,
2011 Vs 2016
17 Estimated %tage of Glass Generated & Recycled, 2011 Vs 2016
18 Estimated %tage of Other Components Generated & Recycled, 2011 Vs 2016
19 Sources of E-Waste
20 Composition of a Computer
21 Composition of a Cell Phone
22 U.S.: Volume Generation of E-Waste 2009 – 2016 (Million Tons)
23 Canada: Volume Generation of E-Waste, 2009 – 2016
(Million Tons)
24 Mexico: Volume Generation of E-Waste, 2009 – 2016
(Million Tons)
25 UK: Volume Generation of E-Waste, 2009 – 2016 (Million Tons)
26 Germany: Volume Generation of E-Waste, 2009 – 2016
(Million Tons)
27 France: Volume Generation of E-Waste, 2009 – 2016
(Million Tons)
28 Others: Volume Generation of E-Waste, 2009 – 2016
(Million Tons)
29 China: Volume Generation of E-Waste, 2009 – 2016
(Million Tons)
30 India: Volume Generation of E-Waste, 2009 – 2016
(Million Tons)
31 Japan: Volume Generation of E-Waste, 2009 – 2016
(Million Tons)
32 Others: Volume Generation of E-Waste, 2009 – 2016
(Million Tons)
33 Middle East: Volume Generation of E-Waste, 2009 – 2016 (Million Tons)
34 Africa: Volume Generation of E-Waste, 2009 – 2016
(Million Tons)
35 Others: Volume Generation of E-Waste, 2009 – 2016
(Million Tons)
36 Key Growth Strategies
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Nicolas Bombourg
Reportlinker
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