Chapter 16-Waste Generation and Waste Disposal

Chapter 16-Waste Generation and Waste Disposal

CORE CASE STUDY:Paper or Plastic?

Humans generate waste that other organisms cannot use
Humans us inputs and materials to produce goods.
Outputs include anything not useful or consumed.
Waste includes nonuseful products generated within the system.
The Throw-Away Society
Until a society becomes relatively wealthy, it generates little waste.
Industrialization, wealth, and cultural changes cause consumption to be geared more toward convenience (use once & throw away) and “labor-saving” devices.
Planned obsolescence is the design of a product so that it will need to be replaced within a few years, even if it is still operational
Municipal solid waste (MSW) is the refuse collected by municipalities from households, small businesses, and institutions such as schools, prisons, municipal buildings, and hospitals.
60% residential, 40% commercial & institutional (US)
As population has grown in the US, so has annual MSW.
Other types of waste include agricultural, mining, and industrial.
MSW by the numbers: US = 4.5 lbs/person/day, Japan = 1.2 lbs/person/day, some indigenous people use up to 98% of daily MSW for other purposes
Developing countries have become responsible for a greater portion of global MSW because of population growth & they are producing more goods & left with the waste generated by production.
Content of the Solid Waste Stream
Includes organic fibers, metals, plastics, petroleum products, manufacturing waste and from packaging and transporting goods.
Waste stream is the flow of solid waste that is recycled, incinerated, placed in a solid waste landfill, or disposed of in another way.
Composition of Municipal Solid Waste
Paper is the largest component at 31%
Organic materials, other than paper, make up 26%
Wood, including construction debris, is 7%
Most of the above material could be recycled or composted instead of going to landfills
All plastics make up 12%
The major sources of MSW divided by weight are containers and packaging (31%), food and yard waste (26%), nondurable goods (25%), durable goods (18%)
E-Waste
Consumer electronics are ~2% of the waste stream
Contain heavy metals or toxic metals
Little infrastructure or incentive exists to recover these materials
Most of the e-waste in the US is exported to China where there no laws regarding protection for workers or proper procedures for recovery
The three Rs and composting divert materials from the waste stream
The “Reduce, Reuse, Recycle” (aka the three Rs) campaign became popular in the 1990s

Reduce
Reducing inputs is the optimal way to achieve a reduction in solid waste generation (known as waste minimization or waste prevention).
Source reduction seeks to reduce waste by reducing, in the early stages of design and manufacture, the use of materials-toxic and otherwise-destined to become MSW.
Provides economic benefits to individuals and corporations or institutions.
Source reduction in manufacturing will result from reducing the materials that go into packaging.
Source reduction can also be achieved by material substitution.
Ex. using reusable vs. disposable cups, switching from petroleum-based paints to nontoxic latex paint
Subaru utilizes all triple R strategies in its zero-waste manufacturing plant.
Reuse
Reuse of a soon-to-be-discarded product or material, rather than disposal, allows a material to cycle within a system longer before becoming part of the output.
Ideally, no additional energy or resources are needed for reuse.
Energy may be used to repair an object or prepare it for transport to be used by another person.
Recycle
Recyclingis the process by which materials destined to become MSW are collected and converted into raw materials that are then used to produce new objects.
Closed-loop recycling is the recycling of a product into the same product. Ex. aluminum cans
Open-loop recycling takes one product, and recycles it into another product. Ex. plastic soda bottles into polar fleece jackets
Recycling rates have increased in the US since 1975, today we recycle ~1/3 of our MSW.
Zero-sort recycling programs allow residents to mix all types of recyclables into one container that is sorted by workers at the facility.
Aluminum and copper are always in high demand, but not so for glass, plastic, and paper.
Requires more energy than reducing or reusing, and therefore has more costs associated with it.
Compost
When organic materials decompose anaerobically in landfills, methane gas is produced.
Compost is the organic matter that has decomposed under artificial conditions to produce an organic-rich material that enhances soil structure, cation exchange capacity, and fertility.
Yard wastes, animal manure, vegetable by-products are all suitable for composting, but not meat and dairy products.
To encourage rapid decomposition, it is important to have a C:N ratio of about 30:1 and to layer dry (brown material) with wet (green material).
Frequent turning is necessary to ensure aerobic decomposition takes place maintain moisture.
Many places in the US have large-scale composting facilities associated with their landfills, where compostable materials are separated from noncompostable materials.

Currently, most solid waste is buried in landfills or incinerated
Historically, waste has been deposited in open dumps that polluted the air and water and attracted pests; still common in developing countries
Landfills, holes in the ground created by the removal of soil, sand, or earth for construction purposes, became popular waste disposal sites in the 1930s
Leachate is the water that leaches through the solid waste and removes various chemical compounds with which it comes into contact.
Harmful leachate found its way into aquifers, rivers, streams, drinking water, and near homes
Landfills
In the US, 1/3 of our waste is reused or recycled, over half is discarded, and the rest is converted to energy through incineration
Landfill Basics
Sanitary landfills are engineered ground facilities designed to hold MSW with as little contamination of the surrounding environment as possible
Constructed with a clay (impedes water flow & retains positively charged metal ions) or plastic lining at the bottom
Pipes collect leachate which may be recycled in the landfill or sent to wastewater treatment
A cap of soil and clay covers the landfill when it is at capacity
Rainfall & other water input is minimized because it encourages anaerobic decomposition
Leachate is regularly tested for toxicity
Suitable for sanitary landfills: composite materials, paper, plastic, glass
Not suitable: metals, household cleaners, oil-based paints, motor oil, antifreeze, electronics, appliances, batteries, organic material
The landfill is divided into cells and when one is full it is capped and the MSW is entombed
A series of pipes collects methane that can be burned off or used to generate energy
Closed landfills can be reclaimed, many are turned into parks, playgrounds, or golf courses
Tipping fees are charged to cover the tremendous cost of building new cells
The name comes from each truck being weighed before it is tipped into the landfill
Average is $35/ton in the US
Can be an incentive to produce less waste or encourage illegal dumping
Choosing a Site for a Sanitary Landfill
Located in a soil rich in clay to reduce migration of contaminants
Located away from rivers, streams, drinking water supplies
Sufficiently far from population centers
Regional landfills are becoming more common because they offer the best economic benefit
Siting is the designation of a location for a new landfill
Always controversial, sometimes politically charged
Source of considerable environmental injustice
Places with financial resources and political influence often adopt the NIMBY (not-in-my-backyard) attitude
Some Problems with Landfills
Locating landfills near populations that do not have resources to object is a global problem
EPA estimates all landfills have some leaching, even after being closed
Anaerobic decomposition generates methane and CO2, both greenhouse gases
Little decomposition takes place without the right mixture of air, moisture & organic material (so capped landfills won’t reduce in size)
Incineration
Anything containing C, H, and O is suitable for incineration
Incineration is the process of burning waste materials to reduce their volume and mass and sometimes generate electricity or heat
Can reduce volume by up to 90% and weight by up to 75%
Incineration Basics
Ash is the residual nonorganic material that does not combust during incineration
Bottom ash is the residue collected underneath the furnace
Fly ash is collected beyond the furnace
Fills roughly ¼ of original volume, can be very toxic
If nontoxic, can go into the landfill, be used in road construction or as an ingredient in cement
SO2 and NOx are collected through air filters
Acidic gases are recovered by scrubbers and neutralized
Waste-to-energy is when heat generated by incineration is used rather than released to the atmosphere
Some Problems with Incineration
Tipping fees are higher for incinerators, ~$70/ton
Siting raises NIMBY and environmental justice issues
May release organic pollutants from the incomplete combustion of plastics and metals
Ash is usually more toxic than original MSW
Need lots of MSW to be efficient & profitable, may encourage less recycling
Uniform burn is difficult to the variety of materials in MSW
Hazardous waste requires special means of disposal
Hazardous waste is liquid, solid, gaseous, or sludge waste material that is harmful to humans or ecosystems (only 5% is recycled)
Most is the byproduct of industrial processes and manufacturing of computers, but can also come from small businesses
Even households generate hazardous waste (1.6 million tons/year)
Handling and Treatment of Hazardous Waste
Most municipalities do not have regular hazardous waste collections because it is more difficult and expensive to dispose of
Residents and business owners are encourage to keep hazardous household waste separate from regular waste and keep until a designated collection day (usually once per year)
The waste must be handled by trained staff, sorted into categories, and altered chemically to be less harmful
Legislative Response
Resource Conservation and Recovery Act (RCRA)-1976
Main goal was to protect human health and the natural environment by reducing or eliminating the generation of hazardous waste
The EPA maintains a “cradle-to-grave” tracking list of hazardous wastes and works with businesses and state and local authorities to minimize hazardous waste generation and ensure it is disposed of properly
Modified with the Hazardous and Solid Waste Amendment (HSWA) in 1984 to encourage waste minimization , phase out disposal on land, and increase law enforcement authority to punish violators
Comprehensive Environmental Response, Compensation, and Liability Act (CERCLA) aka as the Superfund Act-1980, 1986
Imposes a tax on the chemical and petroleum industries to fund the cleanup of abandoned and nonoperating hazardous waste sites where no responsible party can be established
Also authorizes the federal government to respond directly to the release or threatened release of substances that may pose a threat to human health or the environment
EPA maintains the National Priorities List (NPL) of contaminated sites that are eligible for clean up funds (Love Canal, NY is the best known site)
Brownfields
EPA created the Brownfields Program in 1995 to help state and local governments clean up contaminated industrial and commercial land that did not qualify for the Superfund list
Brownfields are contaminated industrial or commercial sites that may require environmental cleanup before they can be redeveloped or expanded
International Consequences
Some companies or municipalities will pay developing countries to take their hazardous waste (KhianSea is the most famous example)
On the other hand, a Pennsylvania company accepted Hg from a company in India because they have no facilities for recycling mercury
There are newer ways of thinking about solid waste
Life-Cycle Analysis
Life-cycle analysis is an important systems tool that looks at the materials used and released throughout the lifetime of a product—from the procurement of raw materials through their manufacture, use and disposal
Aka “cradle-to-grave” analysis
May not be able to determine absolute environmental impact, but it can be helpful in assessing economic and energy considerations
Alternative Ways to Handle Waste
Integrated Waste Management employs several waste reduction, management, and disposal strategies in order to reduce the environmental impact of MSW
Major emphasis is placed on source reduction
A combination of recycling, composting, landfills, and incineration may also be used
Ultimate goal = less generation of MSW
Manufacturing must change its process to minimize waste generation before, during and after manufacturing and develop plans for disassembling and recycling durable goods when they are no longer useful
Manufacturing can also look to nature for inspiration in a design process called biomimicry.
Biomimicry is the science and art of discovering and using natural principles to solve human problems. An important goal for a more sustainable society is to make its industrial manufacturing processes cleaner and more sustainable by redesigning them to mimic how nature deals with wastes.
To transition to a low-waste society, we need to understand that:
Everything is connected.
There is no place to send wastes “away.”
Polluters and producers should pay for the wastes they produce.
We should mimic nature by reusing/recycling the materials that we use.

WORKING TOWARD SUSTAINABILITY: Recycling E-Waste in Chile

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