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Solid and harzardous waste

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Dr. Tanuja Nautiyal
Dr. Tanuja Nautiyal

This document discusses electronic waste (e-waste) as the fastest growing solid waste problem. E-waste includes valuable metals and toxic materials and pollutants. Most e-waste ends up in landfills and incinerators instead of being recycled. The EU and Japan have adopted cradle-to-grave standards for electronics to increase recycling and reduce disposal in landfills. The US recycles only 10-15% of its e-waste and produces about half of the world's total.

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Solid and harzardous waste
Solid and harzardous waste
Solid Wastes Plastics Valuable Metals Toxic Materials E-Wastes Radioactive Waste
Core Case Study: E-waste—An Exploding Problem • Electronic waste, e-waste: fastest growing solid waste problem • Composition includes – High-quality plastics – Valuable metals – Toxic and hazardous pollutants
E-Waste – An Exploding Problem • Electronic waste, or e-waste consists of discarded television sets, cell phones, computers, e-toys, and other electronic devices • Most e-waste ends up in landfills and incinerators. It includes high-quality plastics and valuable metals such as aluminum, copper, nickel, platinum, silver, and gold • E-waste is also a source of toxic and hazardous pollutants, including polyvinylchloride (PVC), brominated flames retardants, lead and mercury, which can contaminate air, surface water, groundwater, and soil and cause serious health problems and even early death for e-waste workers
E-Waste – An Exploding Problem • The European Union (EU) has led the way in dealing with e-waste. Its cradle-to-grave approach requires manufactures to take back electronic products at the ends of the their useful lives for repair, remanufacture, or recycling, and e-waste is banned from landfills and incinerators. • Japan is also adopting cradle-to-grave standards for electronic devices and appliances • U.S. produces roughly half of the world’s e-waste and recycles only about 10-15% of it; but that is beginning to change; states such as Portland, OR are motivating many people to donate, recycle, and reuse old electronic
Causes Of Increase In Solid Waste • Population growth • Increase in industrials manufacturing • Urbanization • Modernization Modernization, technological advancement and increase in global population created rising in demand for food and other essentials. This has resulted to rise in the amount of waste being generated daily by each household. 960 million tonnes solid waste is produced annually in India.
Hazardous Wastes • Hazardous wastes which threatens human health or the environment because it is poisonous, dangerously chemically reactive, corrosive, or flammable. Ex: industrial solvents, hospital medical waste, car batteries (containing lead and acids), household pesticide products, dry-cell batteries (containing mercury and cadmium), and incinerator • Two of the largest classes of hazardous wastes are organic compounds (such as various solvents, pesticides, PCBs, and dioxins) and nondegradable toxic heavy metals (such as lead, mercury, and arsenic)
Why Should We Reduce Solid And Hazardous Wastes ? • One reason is that at least three-fourths of these materials represent an unnecessary waste of the earth’s resources • Studies show that we could reduce resource use and reuse and recycle up to 90% of the MSW we produce, using existing technology and waste prevention, reuse, and recycling systems • Instead we collect, mix, crush, and bury many of these potentially valuable resources in holes and landfills all over the planet
Why Should We Reduce Solid And Hazardous Wastes ? • Mixing trash also disperses hazardous materials with the rest of the trash and prohibits separating them out for safe disposal or recycling • A second reason for sharply reducing our output of solid waste is that, in producing the products we use and often discard, we create huge amounts of air pollution, greenhouse gases, water pollution and land degradation
Dealing With Waste • Waste management in which we attempt to reduce the environmental impact of MSW without seriously trying to reduce the amount of waste produced . • It typically involves mixing wastes together and then transferring them from one part of the environment to another, usually by burying them, burning them, or shipping them to another location . • Waste reduction, in which much and pollution are produced, and the wastes that are produced are viewed as potential resources that can be reused, recycled, or composted . • There is no single solution to the solid waste problem . • Most analyst call for using integrated waste management – a variety of strategies for both waste reduction and waste management .
Impacts of Solid Waste on Health • Chemical poisoning through chemical inhalation • Uncollected waste can obstruct the storm water runoff resulting in flood • Low birth weight • Cancer • Congenital malformations • Neurological disease
Solid and harzardous waste
Reducing Resources Use, Waste and Pollution • First, redesign manufacturing process and products to use less material and energy. A typical car has been reduced by about ¼, plastic milk jugs contain less plastic, disposable diapers contain 50% less paper pulp, dry-cell batteries contain much less toxic mercury and it has also been reduced in today’s fluorescent lightbulbs. • Second, redesign manufacturing processes to produce less waste and pollution, eco-industrial revolution, manufacturing processes are being redesigned to mimic how nature reduces and recycles wastes .
Reducing Resources Use, Waste and Pollution • Third, develop products that are easy to repair, reuse, remanufacture, compost or recycle . • Fourth, eliminate or reduce unnecessary packaging. Use the following hierarchy for packaging: no packaging, minimal packaging, reusable packaging, and recyclable packaging . • Fifth, use fee-per-bag waste collection systems that charge consumers for the amount of waste they throw away but provide free pickup of recyclable and
Reducing Resources Use, Waste and Pollution • Sixth, establish cradle-to-grave responsibility laws that require companies to take back various consumer products such as electronic equipment . • Seventh, restructure urban transportation systems to rely more on mass transit and bicycles than on cars .
Reuse • Reuse involves cleaning and using materials over and over and thus increasing the typical life span of a product • This form of waste reduction decreases the use of matter and energy resources, cut pollution, creates local jobs, and saves money • Two examples of reusable items are refillable glass beverage bottles and refillable soft drink bottles made of polyethylene terephthalate (PET) plastic
Reuse • Reuse these containers saves energy reduces CO2 emissions, air pollution, water pollution, and solid wastes, and stimulates local economies by creating local jobs related to their collection and refilling • Reusable cloth bag can be used instead of throwaway paper or plastic bags to carry groceries and other items • Both paper and plastic bags are environmentally harmful, and the question of which is more damaging has no clear-cut answer
Solid and harzardous waste
Recycling • Households and workplaces produce five major types of materials that can be recycled: paper products, glass, aluminum, steel, and some plastics • Such materials can be reprocessed in two ways. In primary or closed-loop recycling, these materials are recycled into new products of the same type-turning used aluminum cans into new aluminum cans
Recycling • In secondary recycling, waste materials are converted into different products. For example, used tires can be shredded and turned into rubberized road surfacing, newspapers can be reprocessed into cellulose insulation, and plastics can be reprocessed into various items • Engineer Henry Liu has developed a process for making bricks from recycled fly ash produced by coal-burning power plants. The process saves energy, reduces air pollution, and costs at least 20% less than the cost of making conventional bricks
Material-Recovery Facilities • One way to recycle is to send mixed urban wastes to centralized materials recovery facilities • There, machines or workers separate the mixed waste to recover valuable materials for sale to manufacturers as raw materials • The remaining paper, plastics, and other combustible wastes are recycled or burned to produce steam or electricity to run the recovery plant or to sell to nearby industries or homes
Material-Recovery Facilities • Expensive to build, operate, and maintain • If not operated properly, they can emit CO2 and toxic air pollutants, and they produce a toxic ash that must be disposed of safely, usually in landfills • To many experts it makes sense for households and businesses to separate to separate their trash into recyclable categories • Source separation approach produces much less air and water pollution and costs less to implement than MRFs cost
Solid and harzardous waste
Encourage Reuse and Recycling • First, we have a faulty and misleading accounting system in which the market price of a product does not include the harmful environmental and health costs associated with the product during its life cycle • Second, there is an uneven economic playing field, because in most countries, resource-extracting industries receive more government tax breaks and subsidies than recycling and reuse industries get
Encourage Reuse and Recycling • Third, the demand and thus the price paid for recycled materials fluctuates, mostly because buying goods made with recycled materials is not a priority for most governments, businesses, and individuals • Other strategies are to greatly increase use of the fee- per-bag waste collection system and to encourage or require government purchases of recycled products to help increase demand and lower prices. Governments can also pass laws requiring companies to take back and recycle or reuse packaging and electronic waste discarded by consumers
International Treaties to Reduce Hazardous Wastes • Environmental justice also applies at the international level • For decades, some developed countries had been shipping hazardous wastes to developing countries. • In 1989, the UNEP developed an international treaty known as the Basel Convention. • It banned developed countries that participate in the treaty from shipping hazardous waste (including e- waste) to or through countries without their permission.
International Treaties to Reduce Hazardous Wastes • This ban will help, but it will not wipe out the very profitable illegal waste trade. • Smugglers evade the laws by using an array of tactics, including bribes, false permits, and mislabeling of hazardous wastes as materials to be recycled. • In 2000, delegates from 122 countries completed a global treaty to control 12 persistent organic pollutants (POPs) including DDT and 8 other chlorine-containing persistent pesticides, PCBs, dioxins, and furans .
Solid and harzardous waste

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Solid and harzardous waste

  • 4. Core Case Study: E-waste—An Exploding Problem • Electronic waste, e-waste: fastest growing solid waste problem • Composition includes – High-quality plastics – Valuable metals – Toxic and hazardous pollutants
  • 5. E-Waste – An Exploding Problem • Electronic waste, or e-waste consists of discarded television sets, cell phones, computers, e-toys, and other electronic devices • Most e-waste ends up in landfills and incinerators. It includes high-quality plastics and valuable metals such as aluminum, copper, nickel, platinum, silver, and gold • E-waste is also a source of toxic and hazardous pollutants, including polyvinylchloride (PVC), brominated flames retardants, lead and mercury, which can contaminate air, surface water, groundwater, and soil and cause serious health problems and even early death for e-waste workers
  • 6. E-Waste – An Exploding Problem • The European Union (EU) has led the way in dealing with e-waste. Its cradle-to-grave approach requires manufactures to take back electronic products at the ends of the their useful lives for repair, remanufacture, or recycling, and e-waste is banned from landfills and incinerators. • Japan is also adopting cradle-to-grave standards for electronic devices and appliances • U.S. produces roughly half of the world’s e-waste and recycles only about 10-15% of it; but that is beginning to change; states such as Portland, OR are motivating many people to donate, recycle, and reuse old electronic
  • 7. Causes Of Increase In Solid Waste • Population growth • Increase in industrials manufacturing • Urbanization • Modernization Modernization, technological advancement and increase in global population created rising in demand for food and other essentials. This has resulted to rise in the amount of waste being generated daily by each household. 960 million tonnes solid waste is produced annually in India.
  • 8. Hazardous Wastes • Hazardous wastes which threatens human health or the environment because it is poisonous, dangerously chemically reactive, corrosive, or flammable. Ex: industrial solvents, hospital medical waste, car batteries (containing lead and acids), household pesticide products, dry-cell batteries (containing mercury and cadmium), and incinerator • Two of the largest classes of hazardous wastes are organic compounds (such as various solvents, pesticides, PCBs, and dioxins) and nondegradable toxic heavy metals (such as lead, mercury, and arsenic)
  • 9. Why Should We Reduce Solid And Hazardous Wastes ? • One reason is that at least three-fourths of these materials represent an unnecessary waste of the earth’s resources • Studies show that we could reduce resource use and reuse and recycle up to 90% of the MSW we produce, using existing technology and waste prevention, reuse, and recycling systems • Instead we collect, mix, crush, and bury many of these potentially valuable resources in holes and landfills all over the planet
  • 10. Why Should We Reduce Solid And Hazardous Wastes ? • Mixing trash also disperses hazardous materials with the rest of the trash and prohibits separating them out for safe disposal or recycling • A second reason for sharply reducing our output of solid waste is that, in producing the products we use and often discard, we create huge amounts of air pollution, greenhouse gases, water pollution and land degradation
  • 11. Dealing With Waste • Waste management in which we attempt to reduce the environmental impact of MSW without seriously trying to reduce the amount of waste produced . • It typically involves mixing wastes together and then transferring them from one part of the environment to another, usually by burying them, burning them, or shipping them to another location . • Waste reduction, in which much and pollution are produced, and the wastes that are produced are viewed as potential resources that can be reused, recycled, or composted . • There is no single solution to the solid waste problem . • Most analyst call for using integrated waste management – a variety of strategies for both waste reduction and waste management .
  • 12. Impacts of Solid Waste on Health • Chemical poisoning through chemical inhalation • Uncollected waste can obstruct the storm water runoff resulting in flood • Low birth weight • Cancer • Congenital malformations • Neurological disease
  • 14. Reducing Resources Use, Waste and Pollution • First, redesign manufacturing process and products to use less material and energy. A typical car has been reduced by about ¼, plastic milk jugs contain less plastic, disposable diapers contain 50% less paper pulp, dry-cell batteries contain much less toxic mercury and it has also been reduced in today’s fluorescent lightbulbs. • Second, redesign manufacturing processes to produce less waste and pollution, eco-industrial revolution, manufacturing processes are being redesigned to mimic how nature reduces and recycles wastes .
  • 15. Reducing Resources Use, Waste and Pollution • Third, develop products that are easy to repair, reuse, remanufacture, compost or recycle . • Fourth, eliminate or reduce unnecessary packaging. Use the following hierarchy for packaging: no packaging, minimal packaging, reusable packaging, and recyclable packaging . • Fifth, use fee-per-bag waste collection systems that charge consumers for the amount of waste they throw away but provide free pickup of recyclable and
  • 16. Reducing Resources Use, Waste and Pollution • Sixth, establish cradle-to-grave responsibility laws that require companies to take back various consumer products such as electronic equipment . • Seventh, restructure urban transportation systems to rely more on mass transit and bicycles than on cars .
  • 17. Reuse • Reuse involves cleaning and using materials over and over and thus increasing the typical life span of a product • This form of waste reduction decreases the use of matter and energy resources, cut pollution, creates local jobs, and saves money • Two examples of reusable items are refillable glass beverage bottles and refillable soft drink bottles made of polyethylene terephthalate (PET) plastic
  • 18. Reuse • Reuse these containers saves energy reduces CO2 emissions, air pollution, water pollution, and solid wastes, and stimulates local economies by creating local jobs related to their collection and refilling • Reusable cloth bag can be used instead of throwaway paper or plastic bags to carry groceries and other items • Both paper and plastic bags are environmentally harmful, and the question of which is more damaging has no clear-cut answer
  • 20. Recycling • Households and workplaces produce five major types of materials that can be recycled: paper products, glass, aluminum, steel, and some plastics • Such materials can be reprocessed in two ways. In primary or closed-loop recycling, these materials are recycled into new products of the same type-turning used aluminum cans into new aluminum cans
  • 21. Recycling • In secondary recycling, waste materials are converted into different products. For example, used tires can be shredded and turned into rubberized road surfacing, newspapers can be reprocessed into cellulose insulation, and plastics can be reprocessed into various items • Engineer Henry Liu has developed a process for making bricks from recycled fly ash produced by coal-burning power plants. The process saves energy, reduces air pollution, and costs at least 20% less than the cost of making conventional bricks
  • 22. Material-Recovery Facilities • One way to recycle is to send mixed urban wastes to centralized materials recovery facilities • There, machines or workers separate the mixed waste to recover valuable materials for sale to manufacturers as raw materials • The remaining paper, plastics, and other combustible wastes are recycled or burned to produce steam or electricity to run the recovery plant or to sell to nearby industries or homes
  • 23. Material-Recovery Facilities • Expensive to build, operate, and maintain • If not operated properly, they can emit CO2 and toxic air pollutants, and they produce a toxic ash that must be disposed of safely, usually in landfills • To many experts it makes sense for households and businesses to separate to separate their trash into recyclable categories • Source separation approach produces much less air and water pollution and costs less to implement than MRFs cost
  • 25. Encourage Reuse and Recycling • First, we have a faulty and misleading accounting system in which the market price of a product does not include the harmful environmental and health costs associated with the product during its life cycle • Second, there is an uneven economic playing field, because in most countries, resource-extracting industries receive more government tax breaks and subsidies than recycling and reuse industries get
  • 26. Encourage Reuse and Recycling • Third, the demand and thus the price paid for recycled materials fluctuates, mostly because buying goods made with recycled materials is not a priority for most governments, businesses, and individuals • Other strategies are to greatly increase use of the fee- per-bag waste collection system and to encourage or require government purchases of recycled products to help increase demand and lower prices. Governments can also pass laws requiring companies to take back and recycle or reuse packaging and electronic waste discarded by consumers
  • 27. International Treaties to Reduce Hazardous Wastes • Environmental justice also applies at the international level • For decades, some developed countries had been shipping hazardous wastes to developing countries. • In 1989, the UNEP developed an international treaty known as the Basel Convention. • It banned developed countries that participate in the treaty from shipping hazardous waste (including e- waste) to or through countries without their permission.
  • 28. International Treaties to Reduce Hazardous Wastes • This ban will help, but it will not wipe out the very profitable illegal waste trade. • Smugglers evade the laws by using an array of tactics, including bribes, false permits, and mislabeling of hazardous wastes as materials to be recycled. • In 2000, delegates from 122 countries completed a global treaty to control 12 persistent organic pollutants (POPs) including DDT and 8 other chlorine-containing persistent pesticides, PCBs, dioxins, and furans .