TODAY 5-3  Opener: Describe source reduction, and the methods of source reduction.  Turn in homework, openers, and Ch. 17 notes.  Take out paper, pencil, and take everything else off your desk.

TODAY 5-1  Opener: Describe how incinerators work, and what is produced.  Finish Ch. 17 Notes  Video – Lead  Test is on Friday

TODAY 4-29  Opener: Describe the other methods of waste disposal, other than a landfill, which one can produce energy?  Homework: Critical Thinking page 408, questions 1-5  Finish Ch. 17 Worksheet  Ch. 17 Notes  Test is on Friday

TODAY 4-26  Opener: Describe how a modern landfill is constructed. Why do they construct it that way?  Turn in openers and homework  Recycle Survey  Ch. 17’s test will be next Friday.

TODAY 4-25  Opener: List and describe the types of solid waste?  Video – conservation  Recycle Survey  Bring your text book for Friday – we will have a worksheet to do.

TODAY 4-25  Pollution Prevention Activity: (groups of 4 and NO more) Copy: ○ Title ○ Write a purpose ○ EVERYONE in your group copies items 2 & 3 – split the campus up between all of you. ○ Items 1, 4, 5, 6, divide up among your group. Copy the tasks with the tables and the fill in the blank sections. Some of this you have to do on your own during lunch, before or after school. You will tabulate and graph your data on Friday.

TODAY 4-23  Opener: Describe e-waste, and what is done with it once it is trash?  Ch. 17 Notes  Video – Ecopolis  Bring your text book for Friday – we will have a worksheet to do.

TODAY 4-22  Opener: Describe a landfill, and the types of materials that are brought there.  HW: Ch. 17 vocab, questions, diagrams, summary  Ch. 17 Notes  Bring your text book for Friday – we will have a worksheet to do.

Solid Waste Management and Disposal

Outline  Kinds of Solid Waste  Municipal Solid Waste  Methods of Waste Disposal

Kinds of Solid Waste  Solid waste is generally made of objects or particles that accumulate on the site where they are produced. They are typically categorized by the sector of the economy responsible for producing them.

Kinds of Solid Waste  Mining wastes are generated in three ways: Waste material is left on the surface Milling tailings are dumped on the land or stored in ponds. Waste or tailings drainage often contains hazardous materials.  Agricultural waste Includes waste from raising animals as well as crop and tree harvesting. ○ 90% is used as fertilizer or other forms of soil enhancement.

Kinds of Solid Waste  Industrial solid waste consists of solid waste other than mining. Estimated to be between million metric tons annually. ○ Demolition waste ○ Sludge ○ Combustion ash  Municipal solid waste consists of all the materials people in a region no longer want. ○ 210 million metric tons annually (OH MY!!!! THAT IS A LOT OF S------TUFF)

Municipal Solid Waste  In modern society, many products are discarded when they are broken or worn out, while others only have a temporary use.  Those that have only temporary uses make up the majority of solid waste.

Municipal Solid Waste  The United States produces about 210 million metric tons of municipal solid waste annually. (WOW – again that is a lot of s-----tuff!!!!). This equates to 2 kg (4.4 lbs) of trash per person per day. ○ Per capita waste has increased 70% since 1960.

Municipal Solid Waste Municipal solid waste generation rates

Municipal Solid Waste  Nations with a higher standard of living tend to produce more municipal solid waste per person than less-developed countries.  Large metropolitan areas have the greatest difficulty dealing with solid waste.

Municipal Solid Waste Waste generation and lifestyle

Methods of Waste Disposal  In the past, the favored means of waste disposal was to dump solid wastes outside of city or village limits.  To minimize the volume of waste, the dump was often burned.  This practice is still employed in remote or sparsely populated areas in the world.

Methods of Waste Disposal  Five techniques are now used in waste disposal: Landfills Incineration Source reduction Composting Recycling

Methods of Waste Disposal  Landfills A municipal solid waste landfill is typically constructed above an impermeable clay layer, lined with an impermeable membrane. It includes mechanisms for dealing with liquid and gas materials generated by the contents of the landfill. Traditionally this has been the primary method of waste disposal. ○ Cheap and convenient Problems associated with poorly designed landfills have been recognized, and substantial efforts are made to reduce the amount of waste entering landfills.

Methods of Waste Disposal  New landfills have complex bottom layers to trap contaminant-laden leachate.  Monitoring systems are necessary to detect methane gas production and groundwater contamination.  In some cases, methane is collected and used to generate electricity.  New landfills currently cost up to $1 million per hectare to prepare.

Methods of Waste Disposal A well-designed modern landfill

Methods of Waste Disposal  The number of landfills is declining. Many small landfills that were not meeting regulations have been closed. Capacity has been reached.  New landfills are often resisted due to public concerns over groundwater contamination, odors, rodents, and truck traffic. Politicians are often unwilling to take strong positions that might alienate constituents.

Methods of Waste Disposal Reducing the number of landfills

Methods of Waste Disposal  Incineration is the process of burning refuse in a controlled manner.  Currently, about 15% of U.S. municipal solid waste is incinerated. Most incinerators are designed to capture heat, which is then used to make steam to produce electricity. The production of electricity to partially offset disposal costs. Most incinerators burn unprocessed municipal solid waste. This process is referred to as mass burn technology.

Methods of Waste Disposal  Incinerators drastically reduce the amount of municipal solid waste. Up to 90% by volume and 75% by weight.  Primary risks of incineration involve air quality problems and toxicity and disposal of ash. Toxic substances are more concentrated in ash.

Methods of Waste Disposal  Even with modern pollution controls, small amounts of pollutants are still released into environment.  The cost of land and construction for new incinerators are also major concerns facing many communities.  Construction costs in North America in 2000 ranged from $45-$350 million.

Methods of Waste Disposal  U.S. EPA has not looked favorably on construction of new waste-to-energy facilities.  It has encouraged recycling and source reduction as more effective solutions to deal with solid waste.

Methods of Waste Disposal Disposal methods used in various countries

Methods of Waste Disposal  Mulch is organic material used to protect areas where the soil is disturbed, or to control growth of unwanted vegetation.  Organic materials such as large branches and bark are chopped or shredded into smaller pieces.  Redlands has a facility that does this.

Methods of Waste Disposal  Composting is using natural decomposition to transform organic material into compost, a humus-like product with many environmental benefits. With proper management of air and water, composting can transform large quantities of organic material into compost over a short period of time. Small-scale composting can be accomplished in the backyard, mixing green materials (grass clippings, vegetable scraps, etc.) and brown materials (dry leaves, twigs, soiled paper towels).

Methods of Waste Disposal Diverting waste through composting

Methods of Waste Disposal  About 3,800 composting facilities are currently in use in the United States.  Most municipal programs involve one of three composting methods: Windrow systems Aerated piles Enclosed vessels

Methods of Waste Disposal  The simplest way to reduce waste is to prevent it from ever becoming waste in the first place.  Source reduction is the practice of designing, manufacturing, purchasing, using and reusing materials so that the amount of waste or its toxicity is reduced.

Methods of Waste Disposal  Design changes Since the 2-liter soft drink bottle was introduced in 1977, weight has been reduced by 25%. As a result, 250 million pounds of plastic have been kept out of the waste stream.  Manufacturing processes reduce waste and increase efficiency.  Purchasing decisions Choose reduced packaging and plan quantities accordingly.

Methods of Waste Disposal  Using materials to avoid waste generation Reduce use of hazardous materials. Follow label directions carefully and use the smallest amount necessary.  Reusing items Delay or prevent entry of items into waste collection stream.

Methods of Waste Disposal  Most businesses and manufacturers have a strong economic incentive to ensure they get the most from all materials they use. Any activities that reduce the amount of waste produced, reduce the: ○ Cost of waste disposal ○ Amount of raw materials needed ○ Amount of pollution generated

Methods of Waste Disposal  Recycling is one of the best environmental success stories of the late 20 th century.  In the United States, recycling (including composting) diverted about 30% of solid waste stream from landfills and incinerators in Benefits: ○ Resource conservation ○ Pollution reduction ○ Energy savings ○ Job creation ○ Less need for landfills and incinerators

Methods of Waste Disposal Recycling percentage for selected materials (2007) and recycling rates from

Methods of Waste Disposal  Container laws provide an economic incentive to recycle. Requires a deposit on all reusable beverage containers. A national “bottle bill” would reduce litter, save energy and money, create jobs, and help conserve natural resources.  Mandatory recycling laws provide a statutory incentive to recycle.

Methods of Waste Disposal  Curbside recycling provides a convenient way for people to recycle. In 1990, 1,000 U.S. cities had curbside recycling programs. In 2008, 11,000 cities had curbside recycling programs. Cities with curbside recycling tend to have higher recycling rates than cities that lack such programs.

Methods of Waste Disposal  In the U.S., curbside pick-up of recyclables is increasingly the norm, but rates remain low.  Recycle Bank was founded in Families on a garbage route are issued a container with a computer chip. Recyclables are weighed and the family earns points redeemable at merchants like CVS pharmacy. Recycle Bank launched in Philadelphia in ○ Recycle rates rose from 7% to 90%. In 2008 Recycle Bank started a pilot program in N.Y at Columbia University. ○ Students recycle and claim their points.

Methods of Waste Disposal  There are many technical and economic problems associated with recycling. Plastics are recyclable, but technology differs from plastic to plastic (cannot be mixed). ○ Milk containers tend to be high-density polyethylene (HDPE), while egg containers are polystyrene (PS), and soft-drink bottles are polyethylene terephthalate (PET).

Methods of Waste Disposal Increasing amounts of plastic in trash

Methods of Waste Disposal  The plastics industry is researching new technologies.  Economics of recycling are of concern. Unless demand for products keeps pace with growing supply, recycling programs will face an uncertain future.

Methods of Waste Disposal  The long-term success of recycling programs is tied to other economic incentives such as taxing issues, and the development of and demand for products manufactured from recycled materials.  Government subsidies artificially lower cost of virgin forest materials compared to recycled materials. (What?? Government encouraging waste???!!!)  Demand for recycled products must grow if recycling is to succeed on a large scale.

Methods of Waste Disposal Recycling composite prices

Summary  Municipal solid waste is managed by landfills, incineration, composting, waste reduction, and recycling.  The most fundamental way to reduce waste is to prevent it from ever becoming waste in the first place.  About 30% of the waste generated in North America is handled through recycling.

Summary  Future management of municipal solid waste will be an integrated approach involving landfills, incineration, composting, source reduction, and recycling.  The degree to which any option will be used depends on economics, changes in technology, and citizen awareness and involvement.

TODAY  Come up and get your clickers for the test.  Turn in Ch. 17 Notes

TODAY  Ch. 17 Notes – finish. Will be turned in on Friday before the test.

TODAY  Finish Ch. 17 homework worksheet – 15 minutes only.  Ch. 17 Notes  Global Warming Movie  One page of notes due at the END of the class.

TODAY  Ch. 17 Homework Worksheet – please take out your text book.

TODAY  Ch. 17 Worksheet – get out your books.  You will also need you books ON MONDAY. Please write it down now. Don’t depend on someone else.

TODAY  Landfills movie  Ch. 16 test retake  Ch. 17 Notes  Bring your text book for Friday – we will have a worksheet to do.

TODAY  No homework this week.  Finish lab – you get 20 minutes only!!!!  Ch. 17 Notes