the major componenet of solid waste that a retailer generates in the environment
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[Solved] The major componenet of solid waste that a retailer generates in the environment
Q.
The major componenet of solid waste that a retailer generates in the environment
A. branding B. labelling C. packaging D. naming
Answer» C. packaging
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Related Multiple Choice Questions
If a retailer is offering the same products and quantities to different customers at different prices, the retailer has what kind of pricing policy?
If a retailer is offering the same products and quantities to different customers at different prices, the retailer has what kind of pricing policy?
A retailer’s ______________ is the key to its ability to attract customers.
The process by which a retailer attempts to offer the right quantity of the right merchandise in the right place at the right time and meet the company's financial goalsis known as
Retailer is a person who sells the goods in a---------.
------represents how a retailer is perceived by consumers and others.
------ component allow the retailer to offer the employees safety and security
Form of payment which a retailer may accept is ----.
With the help of-------a retailer pays an outsider party to undertake one or more of its operating functions
A multi channel retailer sells merchandise ----.
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Q10 The RFID tag may be of one of types a three b four c one d two Q11 is a
Q10 The RFID tag may be of one of types a three b four c one d two Q11 is a from AA 1
Q10 the rfid tag may be of one of types a three b
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Q10. The RFID tag may be of one of ____typesa.threeb.fourc.oned.two
Q11. ________is a major component of solid waste that a retailer generates in the environment
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Q12. Efficient transport management is one of the major opportunities to reduce carbon footprintsit is called as_______
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Q13.International travellers are always interested in_______
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Q14. Breaking bulk is a function of a ____a.Wholesalerb.Retailerc.Manufacturerd.Intermediary
Q15. Documents preparation, outbound translation, out bound communication are steps of
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Q16. Retail shopper is a customer who is going to buy in ___quantity and the product usage wouldbe him/her family or friends
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Q17. Time killers are type of _____
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Q18. Retail____ is largely information baseda.strategyb.policyc.procedure
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Marketing, B Manufacturers, D Store Management
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The Generation, Composition, Collection, Treatment and Disposal System, and Impact of E
The problem of e-waste has forced governments of many countries to develop and implement environmentally sound management practices and collection schemes for E-waste management, with a view to minimize environmental impacts and maximize re-use, recovery and recycling of valuable materials. In developed countries, e-waste management is given high priority countries, while in developing countries, it is exacerbated by completely adopting or replicating the e-waste management of developed countries and several problems including, lack of investment, technological, financial, technically skilled human resources, lack of infrastructure, little available information on the e-waste situation, recovery of valuable materials in small workshops using rudimentary recycling methods, lack of awareness on the impacts of e-waste, absence of appropriate legislations specifically dealing with e-waste, approach and inadequate description of the roles and responsibilities of stakeholders and institutions involved in e-waste management, etc. This chapter provides the definition of e-waste, and presents information on generation of –andcomposition of e-waste, collection, treatment, and disposal systems. It also discusses the overview of e-waste collection schemes in different parts of the world with regional focus, and the best current practices in WEEE management applied indeveloped and developing countries. It outlines the illegal e-waste trade and illegal waste disposal practices associated with e-waste fraction. In this chapter, the terms “WEEE” and “E-waste” are used synonymously and in accordance to the EU, WEEE Directive.
Home > Books > E-Waste in Transition - From Pollution to Resource
OPEN ACCESS PEER-REVIEWED CHAPTER
The Generation, Composition, Collection, Treatment and Disposal System, and Impact of E-Waste
WRITTEN BY
Daniel Mmereki, Baizhan Li, Andrew Baldwin and Liu Hong
Submitted: July 3rd, 2015 Reviewed: August 24th, 2015 Published: June 29th, 2016
DOI: 10.5772/61332
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E-Waste in Transition
From Pollution to Resource
Edited by Florin-Constantin Mihai
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E-Waste in Transition
Edited by Florin-Constantin Mihai
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Abstract
The problem of e-waste has forced governments of many countries to develop and implement environmentally sound management practices and collection schemes for E-waste management, with a view to minimize environmental impacts and maximize re-use, recovery and recycling of valuable materials. In developed countries, e-waste management is given high priority countries, while in developing countries, it is exacerbated by completely adopting or replicating the e-waste management of developed countries and several problems including, lack of investment, technological, financial, technically skilled human resources, lack of infrastructure, little available information on the e-waste situation, recovery of valuable materials in small workshops using rudimentary recycling methods, lack of awareness on the impacts of e-waste, absence of appropriate legislations specifically dealing with e-waste, approach and inadequate description of the roles and responsibilities of stakeholders and institutions involved in e-waste management, etc. This chapter provides the definition of e-waste, and presents information on generation of –andcomposition of e-waste, collection, treatment, and disposal systems. It also discusses the overview of e-waste collection schemes in different parts of the world with regional focus, and the best current practices in WEEE management applied indeveloped and developing countries. It outlines the illegal e-waste trade and illegal waste disposal practices associated with e-waste fraction. In this chapter, the terms “WEEE” and “E-waste” are used synonymously and in accordance to the EU, WEEE Directive.
Keywords
e-wasteillegal traderecoverycollectiontreatmentdisposal system
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1. Introduction
The information technology (IT) industry is an important engine of growth of any country. With the rapid development of technology, manufacturers now produce superior televisions, new and smarter mobile phones, and new computing devices at an increasing rate. People are enjoying what technology brings, surfing the Internet on their smart phones or tablets and watching high-definition movies on their televisions at home. As more and more electronic products are produced to fulfill the needs of people worldwide, more resources are used to produce these items. Hence, the rapid growth of computing and other information and communication equipment is driving the ever-increasing production of electronic waste (e-waste) [1]. The current e-waste encompasses a particularly complex waste flow in terms of the variety of products [2-3]. Over the next few years, one billion computers will be obsolete. In 2005, 8.3-9.1 million tons of e-waste was produced across the 27 members of the European Union (EU) [4]. By 2020, the total waste electrical and electronic equipment (WEEE) is estimated to grow between 2.5% and 2.7% annually, reaching a total of approximately 12.3 million tons. The reason is that the number of appliances entering the market every year is increasing in developed and developing countries [5]. Sales of electronic products in countries such as China and India and across Africa and Latin America are predicted to rise sharply in the next 10 years. Also, it is a higher growth pattern that will be influenced not only by need but also by changes in technology, design, and marketing [1]. The diverse waste generated due to advancement of technology may have significant impacts on the environment and public, if not properly stored, collected, transported, treated, and disposed of. Thus, around the globe, e-waste generation, treatment, and disposal are becoming issues of concern to waste management professionals, innumerable non-governmental organizations and citizens, and international agencies and governments, particularly in developing and transition countries. E-waste stream contains diverse materials, which requires special treatment and cannot be dumped in landfill sites, most prominently, hazardous substances such as lead, polychlorinated biphenyls (PCBs), polybrominated biphenyls (PBBs), mercury, polybrominated diphenyl ethers (PBDEs), brominated flame retardants (BFRs), and valuable substances such as iron, steel, copper, aluminium, gold, silver, platinum, palladium, and plastics [6-7]. During the last decade, large amounts of diverse e-waste discarded by developing and transition countries, as well as a sizeable portion of the e-waste generated from developed countries and exported to developing and transition countries, has been rapidly piling up in developing countries impacting their emerging economies [8]. The management of e-waste in developing and transition countries is exacerbated by several factors, including illegal trafficking and unlicensed recycling of e-waste; lack of technological, financial, and technically skilled human resources; inadequate organizational structure required; and an inadequate description of the roles and responsibilities of stakeholders and institutions involved in e-waste management. In Africa, e-waste management is still in its infancy; characterized by little available information on the e-waste situation, the recovery of valuable materials in small workshops using rudimentary recycling methods, lack of awareness on the impacts of e-waste, and the total absence of policy specifically dealing with e-waste [9].
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