1. SolidWaste Ch. 22 Second Half

2. Solutions: Reducing Solid Waste Refuse: to buy items that we really don ’ t need. Reduce: consume less and live a simpler and less stressful life by practicing simplicity. Reuse: rely more on items that can be used over and over. Repurpose: use something for another purpose instead of throwing it away. Recycle: paper, glass, cans, plastics…and buy items made from recycled materials.

3. HAZARDOUS WASTE Hazardous waste: is any discarded solid or liquid material that is toxic, ignitable, corrosive, or reactive enough to explode or release toxic fumes. – The two largest classes of hazardous wastes are organic compounds (e.g. pesticides, PCBs, dioxins) and toxic heavy metals (e.g. lead, mercury, arsenic).

4. Electronic Waste: A Growing Problem E-waste consists of toxic and hazardous waste such as PVC, lead, mercury, and cadmium. The U.S. produces almost half of the world's e-waste but only recycles about 10% of it. Figure 22-4

5. Problem If e-waste is not treated properly, it is a major source of toxins and carcinogens. Electronic waste represents 2 percent of America's trash in landfills, but it equals 70 percent of overall toxic waste. Up to thirty-eight separate chemical elements are incorporated into electronic waste items.

6. Fig. 22-15, p. 534 What Harmful Chemicals Are in Your Home? Glues and cements Dry-cell batteries (mercury and cadmium) Rust inhibitor and rust remover Brake and transmission fluid General Cleaning Battery acid Wood preservatives Stains, varnishes, and lacquers Automotive Gasoline Used motor oil Paint Latex and oil-based paints Paint thinners, solvents, and strippers Gardening Pesticides Weed killers Ant and rodent killers Antifreeze Flea powders Disinfectants Septic tank cleaners Spot removers Drain, toilet, and window cleaners Artist paints and inks Solvents

7. Hazardous Waste Regulations in the United States Two major federal laws regulate the management and disposal of hazardous waste in the U.S.: – Resource Conservation and Recovery Act (RCRA) Cradle-to-the-grave system to keep track waste. – Comprehensive Environmental Response, Compensation, and Liability Act (CERCLA) Commonly known as Superfund program.

8. Hazardous Waste Regulations in the United States The Superfund law was designed to have polluters pay for cleaning up abandoned hazardous waste sites. – Only 70% of the cleanup costs have come from the polluters, the rest comes from a trust fund. – Trust fund is now broke. – $20 million per site – $1.7 trillion eventually

9. How Would You Vote? Should the U.S. Congress reinstate the polluter-pays principle by using taxes from chemical, oil, mining, and smelting companies to reestablish a fund for cleaning up existing and new Superfund sites? – a. No. All taxpayers, not certain industries, should pay for cleaning up sites polluted in the past. – b. Yes. Funding for Superfund is needed and waste-generating industries rather than ordinary citizens should fund it.

10. DEALING WITH HAZARDOUS WASTE We can produce less hazardous waste and recycle, reuse, detoxify, burn, and bury what we continue to produce. Figure 22-16

11. Conversion to Less Hazardous Substances Physical Methods: using charcoal or resins to separate out harmful chemicals. Chemical Methods: using chemical reactions that can convert hazardous chemicals to less harmful or harmless chemicals.

12. Conversion to Less Hazardous Substances Biological Methods: – Bioremediation: bacteria or enzymes help destroy toxic and hazardous waste or convert them to more benign substances. – Phytoremediation: involves using natural or genetically engineered plants to absorb, filter and remove contaminants from polluted soil and water.

13. Phytostabilization Plants such as willow trees and poplars can absorb chemicals and keep them from reaching groundwater or nearby surface water. Rhizofiltration Roots of plants such as sunflowers with dangling roots on ponds or in green- houses can absorb pollutants such as radioactive strontium-90 and cesium-137 and various organic chemicals. Phytoextraction Roots of plants such as Indian mustard and brake ferns can absorb toxic metals such as lead, arsenic, and others and store them in their leaves. Plants can then be recycled or harvested and incinerated. Phytodegradation Plants such as poplars can absorb toxic organic chemicals and break them down into less harmful compounds which they store or release slowly into the air. Inorganic metal contaminants Organic contaminants Radioactive contaminants Brake fern Poplar tree Indian mustard Willow tree Sunflower Oil spill Landfill Groundwater Soil Polluted leachate Decontaminated water out Polluted groundwater in Groundwater Soil

14. Fig. 22-18, p. 538 Inexpensive Low energy use Easy to establish Trade-Offs Phytoremediation AdvantagesDisadvantages Some plants can become toxic to animals Some toxic organic chemicals may evaporate from plant leaves Produces little air pollution compared to incineration Can reduce material dumped into landfills Slow (can take several growing seasons) Effective only at depth plant roots can reach

15. Conversion to Less Hazardous Substances Incineration: heating many types of hazardous waste to high temperatures – up to 2000 °C – in an incinerator can break them down and convert them to less harmful or harmless chemicals.

16. Fig. 22-19, p. 538 Advantages Trade-Offs Plasma Arc Small High cost Produces no toxic ash Can vaporize and release toxic metals and radioactive elements Can release particulates and chlorine gas Mobile. Easy to move to different sites Produces CO2 and CO Disadvantages

17. Long-Term Storage of Hazardous Waste Hazardous waste can be disposed of on or underneath the earth ’ s surface, but without proper design and care this can pollute the air and water. – Deep-well disposal: liquid hazardous wastes are pumped under pressure into dry porous rock far beneath aquifers. (64% in US) – Surface impoundments: excavated depressions such as ponds, pits, or lagoons into which liners are placed and liquid hazardous wastes are stored.

18. Fig. 22-20, p. 539 Safe method if sites are chosen carefully Trade-Offs Deep Underground Wells AdvantagesDisadvantages Encourages waste production Existing fractures or earthquakes can allow wastes to escape into groundwater Leaks from corrosion of well casing Leaks or spills at surface Low cost Easy to do Wastes can be retrieved if problems develop

19. Long-Term Storage of Hazardous Waste Long-Term Retrievable Storage: Some highly toxic materials cannot be detoxified or destroyed. Metal drums are used to stored them in areas that can be inspected and retrieved. Secure Landfills: Sometimes hazardous waste are put into drums and buried in carefully designed and monitored sites.

20. Secure Hazardous Waste Landfill In the U.S. there are only 23 commercial hazardous waste landfills. Figure 22-22

21. How Would You Vote? Do the advantages of storing hazardous wastes in surface impoundments outweigh the disadvantages? – a. No. The environment should not be openly exposed to liquid hazardous wastes. – b. Yes. Surface impoundments are inexpensive solutions for at least the temporary storage of liquid wastes.

22. Fig. 22-23, p. 540 What Can You Do? Use pesticides in the smallest amount possible. Use less harmful substances instead of commercial chemicals for most household cleaners. For example use liquid ammonia to clean appliances and windows; vinegar to polish metals, clean surfaces, and remove stains and mildew; baking soda to clean household utensils, deodorize, and remove stains; borax to remove stains and mildew. Do not dispose of pesticides, paints, solvents, oil, antifreeze, or other products containing hazardous chemicals by flushing them down the toilet, pouring them down the drain, burying them, throwing them into the garbage, or dumping them down storm drains. Hazardous Waste

23. Case Study: Mercury Mercury is released into the environment mostly by burning coal and incinerating wastes and can build to high levels in some types of fish. Figure 22-26

24. Fig. 22-25, p. 542 BIOMAGNIFICATION IN FOOD CHAIN SEDIMENT PRECIPITATION WINDS AIR WATER Inorganic mercury and acids (Hg 2+ ) Inorganic mercury and acids (Hg 2+ ) Organic mercury (CH 3 Hg + ) Inorganic mercury (Hg 2+ ) Hg 2+ and acids Runoff of Hg 2+ and acids Large fish Small fish ZooplanktonPhytoplankton Hg and SO 2 Hg 2 + and acids Human sources Incinerator Coal- burning plant Elemental mercury vapor (Hg) Photo- chemical Oxidation Elemental mercury liquid (Hg) Deposition Bacteria and acids Settles out Settles out Settles out Vaporization Deposition

25. ACHIEVING A LOW-WASTE SOCIETY In the U.S., citizens have kept large numbers of incinerators, landfills, and hazardous waste treatment plants from being built in their local areas. Environmental justice means that everyone is entitled to protection from environmental hazards without discrimination.

26. Global Outlook: International Action to Reduce Hazardous Waste An international treaty calls for phasing out the use of harmful persistent organic pollutants (POPs). – POPs are insoluble in water and soluble in fat. – Nearly every person on earth has detectable levels of POPs in their blood. – The U.S has not ratified this treaty.

27. Animation: Economic Types PLAY ANIMATION