Akay Meliko ğ lu
Baran Gülsün
Cem Çiftçi
Burak Gür
Meltem Bayrak

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Introduction
Definitions
I.
II.
III.
Solid wastes
Hazardous wastes
Non-hazardous wastes
Acute hazardous wastes, advantages and disadvantages
Types of wastes
Institutions that is established for waste management

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Solid Wastes: Any unwanted or discarded material that is not a liquid or a gas. It can include organic waste, paper, metals, glass, cloth, construction wastes, yard waste and wood.

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Hazardous waste is waste that is dangerous or potentially harmful to our health or the environment. Hazardous wastes can be liquids, solids, gases. They can be discarded commercial products, like cleaning fluids or pesticides, or the by-products of manufacturing processes

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Flammability
Reactivity
Corrosivity
Toxicity

3.
4.
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Paints and solvents
Automotive wastes
Pesticides
Mercury-containing wastes
Aerosols / Propane cylinders
Fertilizers

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Eutrophication: is the response of the ecosystem to the addition of artificial or natural substances, such as nitrates and phosphates, through fertilizers, to an aquatic system. Which results to exponential growth of the algae and phytoplanktons.

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A proper waste management plan should be implemented to promote waste minimization at source.
If waste generation is unavoidable then the potential for recycling or reuse should be explored and opportunities taken.
If wastes cannot be recycled then the recommended disposal routes should be followed.
Source Reduction
Recycling
Reuse

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Source reduction is one of the fundamental ways to reduce waste.
Can be done by
• using less material when making a product
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• reuse of products on site designing products or packaging to reduce their quantity.
On an individual level we can reduce the use of unnecessary items while shopping, buy items with minimal packaging, avoid buying disposable items and also avoid asking for plastic carry bags.

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Recycling : Process to change (waste) materials into new products to prevent waste of potentially useful materials.
Recycling benefits
 conservation of resources
 reduction in energy used during manufacture
 reducing pollution levels
Some materials such as aluminum and steel can be recycled many times. Mining of new aluminum is expensive and hence recycled aluminum has a strong market and plays a significant role in the aluminum industry.
Metal, paper, glass and plastics are recyclable.
Paper recycling can also help preserve forests as it takes about 17 trees to make one ton of paper.
Crushed glass (cullet) reduces the energy required to manufacture new glass by 50 percent and reducing air pollution.

A number of different systems have been implemented to collect recyclates from the general waste stream. The three main categories of collection are;
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Drop off centers
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Buy back centers
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Curbside Collection

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Drop-off centers require the waste producer to carry the recyclates to a central location, either an installed or mobile collection station or the reprocessing plant itself. They are the easiest type of collection to establish, but suffer from low and unpredictable throughput.
Buy-back centres differ in that the cleaned recyclates are purchased, thus providing a clear incentive for use and creating a stable supply.

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Once recyclates are collected they aredelivered to a central collection facility.
The different types of materials must be sorted.
A series of stages, many of which involve automated processes such that a truckload of material can be fully sorted in less than an hour.
Some plants can now sort the materials automatically, known as single-stream recycling.
In plants a variety of materials are sorted such as paper, different types of plastics, glass, metals, food scraps, and most types of batteries.

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The problems associated with recycling are either technical or economical.
Plastics are difficult to recycle because of the different types of polymer resins used in their production. Since each type has its own chemical makeup different plastics cannot be recycled together. Thus separation of different plastics before recycling is necessary.
Similarly in recycled paper the fibers are weakened and it is difficult to control the color of the recycled product.
Recycled paper is banned for use in food containers to prevent the possibility of contamination. It very often costs less to transport raw paper pulp than scrap paper. Collection, sorting and transport account for about 90 percent of the cost of paper recycling.

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Composting is the controlled decomposition of organic matter.

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Active (hot) composting
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~55 o C
Higher temperature kill most pathogens
Regularly stirring ensure aeration
Faster (take weeks)
Passive (cold) composting
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~30 o C
Much slower (may take months)
May develop anaerobic condition, releasing odor and greenhouse gas (e.g. methane)

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Generates energy from wastes

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Love Canal Disaster
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Love canal is a province of near Niagara Falls, NY
Hooker chemicals and plastics used the area for landfill, buried 21000 tons of chemical waste under the soil in 1940s
After the landfill process is done, company sold the area for $1 to the state.
More than 100 houses and a school has built to the area
By 1970s, chemical wastes began to bubble up into backyards, cellars and ground water.
Which eventually poisoned thousands of people
All the families had to evacuate their houses.

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Burns in skin
Choking if inhaled
Feints
Birth defects
Miscarriages
Death of plant ecosystem
Highly increased cancer cases

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What is the proper waste management plan ?
What should we do if waste generation is unavoidable ?
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Answer: First step is to reduce the source of the waste. If waste generation is unavoidable, then reuse and recycle mechanisms should be applied.

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Recycling: http://www.youtube.com/watch?v=Y68tBxVrnXg
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Composting:
 http://www.youtube.com/watch?v=ZAMy_ZJ0Xa8
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Love Canal Disaster:
 http://www.youtube.com/watch?v=Kjobz14i8kM

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Solid waste , commonly known as trash or garbage, is a waste type consisting of everyday items that are discarded by the public.

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The composition of solid waste varies greatly from country to country and changes significantly with time.

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The waste stream consists mainly of intractable wastes such as plastic film, and un-recyclable packaging.
At the start of the 20th century, the majority of domestic waste (53%) in the UK consisted of coal ash from open fires

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It includes food wastes, yard wastes, containers and product packaging, and other miscellaneous wastes from residential, commercial, institutional, and industrial sources.

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Most definitions of solid waste do not include industrial wastes, agricultural wastes, medical waste, radioactive waste or sewage sludge.
Biodegradable waste: food and kitchen waste, green waste, paper

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Recyclable material: paper, glass, bottles, cans, metals, certain plastics, fabrics, clothes, batteries etc.

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Inert waste: construction and demolition waste, dirt, rocks, debris.

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Electrical and electronic waste (WEEE) - electrical appliances, TVs, computers, screens, etc.

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Composite wastes: waste clothing, Tetra Packs, waste plastics such as toys.

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Hazardous waste including most paints, chemicals, light bulbs, fluorescent tubes, spray cans, fertilizer and containers

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Toxic waste including pesticide, herbicides, fungicides

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Medical waste: discarded surgical gloves, surgical instruments, needles etc.

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Residential: Food wastes, paper, cardboard, plastics, textiles, leather, yard wastes, wood, glass, metals, ashes, special wastes (e.g., bulky items, consumer electronics, white goods, batteries, oil, tires), and household hazardous wastes.).
Generators: Single and multifamily dwellings

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Industrial: Housekeeping wastes, packaging, food wastes, construction and demolition materials, hazardous wastes, ashes, special wastes.
Generators: Light and heavy manufacturing, fabrication, construction sites, power and chemical plants.

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Commercial: Paper, cardboard, plastics, wood, food wastes, glass, metals, special wastes, hazardous wastes.
Generators: Stores, hotels, restaurants, markets, office buildings, etc.
Institutional: Same as commercial.
Generators: Schools, hospitals, prisons, government centers.

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Construction and demolition: Wood, steel, concrete, dirt, etc.
Generators: New construction sites, road repair, renovation sites, demolition of buildings

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Municipal services: Street sweepings; landscape and tree trimmings; general wastes from parks, beaches, and other recreational areas; sludge.
Generators: Street cleaning, landscaping, parks, beaches, other recreational areas, water and wastewater treatment plants.

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Process (manufacturing, etc.): Industrial process wastes, scrap materials, off-specification products, slay, tailings.
Generators: Heavy and light manufacturing, refineries, chemical plants, power plants, mineral extraction and processing.

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Agriculture: Spoiled food wastes, agricultural wastes, hazardous wastes (e.g., pesticides).
Generators: Crops, orchards, vineyards, dairies, feedlots, farms.

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Name four of the solid waste types and give an example to each of them.
Answer:
Biodegradable waste: food and kitchen waste.
Recyclable material: paper.
Inert waste: construction and demolition waste.
Composite wastes: waste clothing.
Etc.

-Population Growth
-Increasing industrial manufacturing
-Urbanization
-Modernization

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Ingestion of contaminated food or water
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Contact with disease vectors
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Inhalation
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Dermal contact

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Chemical poisoning through inhalation
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Nausea, vomiting
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Cancer
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Low birth weight
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Congenital Malformation
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Neurological diseases

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Mercury accumulation in aquatic animals
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Plastic waste ingestion of birds
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Eutrophication
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Decreased soil and water quality

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Waste breakdown in landfills to form methane which is a greenhouse gas
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Change in climate and destruction of ozone layer due to biodegradable wastes.
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Health issues and diseases caused by pollution of soil, water and air

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What are the main factors of the exponantially increasing pollution of the world?

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Storage: Holding of hazardous waste for a temporary period until the waste is transported, treated or disposed.
Container: Any portable device which has a capacity that doesn’t exceed 454 liters.
Storage Facility: Place where hazardous wastes are stored in tanks or containers.
Tank: A stationary device to contain an accumulation of hazardous waste which is constructed primarly of nonearthen materials such as wood, concrete, steel and plastic.

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When storing hazardous waste or recyclables,
 containers must be:
In good condition and not leaking
Protected from the weather
Compatible with the materials they are storing to avoid corrosion or chemical reactions that could result in fire
Kept closed except when adding waste
Not opened, handled or stored in ways that could cause leaks or ruptures
Clearly marked and labeled to identify what is being stored

In addition, the following requirements and precautions should be taken:
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Clean up any spills immediately
Do not store incompatible wastes together
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Have in place secondary containment for liquid hazardous waste/recyclables
Use separate containers and appropriate barriers between different waste to prevent contact in the event of a release
Inspect waste and recyclables in storage weekly and note any deterioration or corrosion in an inspection log

Hazardous wastes and recyclables must be stored in a place that allows for safe handling (store facility) and is prepared for emergencies. The storage facility must:
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Prevent access by unauthorized persons
Be posted as a hazardous waste/recyclables storage area
Have proper equipment to handle emergency situations
Have designated people responsible for the site and able to respond to emergency situations
Be designed and maintained to ensure run-off cannot enter the secondary containment system
Be located away from sewer drains, manholes, drainage courses and standing water

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The transfer of solid waste from the point of use and disposal to the point of treatment or landfill.
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Waste collection vehicles or manually

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Transportation system has to be designed so that it is efficient, yet cost effective.
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The system should synchronize with the system of waste storage depot and should be easily maintainable.

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Manual Loading: In most of the cities/towns there is no synchronization between waste storage depots and transportation of waste. Waste stored in open spaces is either loaded manually or with the help of loaders in traditional trucks.
Manual loading takes time and reduces the productivity of the vehicles and manpower deployed.
Manual handling of waste poses a threat to the health of the sanitation workers as the waste is highly contaminated.

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Garbage trucks
There are five basic models:
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Front loaders
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Rear loaders
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Side loaders
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Pneumatic collection
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Grapple trucks

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In large cities where disposal sites are more than 10 km. away from the city boundary and smaller vehicles are used for transportation of waste, it may prove economical to set up transfer stations to save transportation time and fuel provided such cities have a good performance record of vehicle maintenance and adequate facilities to maintain large size vehicles and containers.
A transfer station is a building or processing site for the temporary deposition of waste. Transfer stations are often used as places where local waste collection vehicles will deposit their waste cargo prior to loading into larger vehicles.
These larger vehicles will transport the waste to the end point of disposal in an incinerator, landfill, or hazardous waste facility, or for recycling
In the future, transfer stations could be equipped with material recovery facilities and with localized mechanical biological treatment systems to remove recyclable items from the waste stream.

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Transportation of waste has to be planned scientifically
System of transportation should be such that it can be easily maintained departmentally or through private garages
The system should match with the system adopted for the storage of waste at the waste storage depots.
Manual loading should be discouraged and phased out expeditiously and replaced by direct lifting of containers through hydraulic system or non-hydraulic devices or direct loading of waste into transport vehicles.
Transportation of waste should be done regularly to ensure that the containers /trolleys and dustbin sites are cleared before they start overflowing.

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Disposal of solid waste is done most commonly through a
sanitary landfill or through combustion.
In Turkey there are some open dumping sites which are very dangerous.

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Explosion due to generation of methane
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27 dead and 12 missing

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Sanitary landfills are sites where waste is isolated from the environment until it is safe.
Sanitary landfills are one of the most popular methods for disposing of waste. This technique for waste management was developed in the 1930s, in response to growing pressures created by a growing population.
It’s goal is accomplished when it has completely degraded biologically, chemically and physically.
In high-income countries, the level of isolation achieved may be high. However, such an expensive high level of isolation may not be technically necessary to protect public health.

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The site for a sanitary landfill needs to be selected with care.
It should be located above the water table, in an area which is not geologically active.
They are generally not located in immediate proximity to residential communities.
The land also must be inexpensive to make the cost of operating the landfill worth it, and it must be accessible to roads so that garbage can be easily delivered.

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One of the biggest problems with a sanitary landfill is the environmental hazard. As materials inside the layers of compacted garbage break down, they generate gases, including methane, which are flammable. Some landfills simply vent these gases, while others actively trap them, using them as fuel.
Landfills also generate leachates, materials which could damage the natural environment if they end up in the water table, making control of leaching critical.

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Incomplete Decomposition: Commonly used plastics resist natural decomposition because of their molecular structure. Microbes can’t digest these compounds.

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As a minimum, four basic conditions should be met by any site design and operations before it can be regarded as a sanitary landfill:
Full or partial hydrogeological isolation: if a site cannot be located on land which naturally contains leachate security, additional lining materials should be brought to the site to reduce leakage from the base of the site (leachate) and help reduce contamination of groundwater and surrounding soil.
Formal engineering preparations: designs should be developed from local geological and hydrogeological investigations. A waste disposal plan and a final restoration plan should also be developed.
Permanent control: trained staff should be based at the landfill to supervise site preparation and construction, the depositing of waste and the regular operation and maintenance.
Planned waste emplacement and covering: waste should be spread in layers and compacted. A small working area which is covered daily helps make the waste less accessible to pests and vermin.

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Some landfills are converted to community places, offices or other complexes for reuse.

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This process is waste reduction not disposal, because after incineration the ash must still be disposed of.

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Combustion can reduce the weight of trash by more than 70% and the volume by 90% thus greatly extending the life of a landfill.
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No changes needed in trash collection procedures.
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Waste to energy.

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Air pollution and offensive odors as dioxin emmisions (dioxin is highly toxic)
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Facilities are expensive to build and their siting can be a problem.
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Ash is often loaded with hazardous materials which must be disposed in secure landfills.

What are the properties of a waste storage site?
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Prevent access by unauthorized persons
Be posted as a hazardous waste/recyclables storage area
Have proper equipment to handle emergency situations
Have designated people responsible for the site and able to respond to emergency situations
Be designed and maintained to ensure run-off cannot enter the secondary containment system
Be located away from sewer drains, manholes, drainage courses and standing water

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1. Classification of health-care institution waste
It can be divided into two main categories:
- Regular medical waste (waste generally everything else used in the facility. This might include administrative waste, paper, or food-waste from cafeterias)
- Infectious waste

2.
Health Hazards
Health-care workers (particularly nurses) are at greatest risk of virus infections such as HIV/AIDS and hepatitis B and C, through injuries from contaminated sharps

3 . Sources a)
Medical wastes b)
Surgical and autopsy c)
Laboratory wastes d)
Infectious solid waste e)
Domestic wastes f)
Radioactive wastes

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Waste minimization, recycling, reuse
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Handling, storage and transportation of Health Care waste
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Treatment and disposal technologies for health-care facility waste

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The management of MSW used to be entirely under the control of local governments. In recent years,however, state and federal agencies have played an increasingly important role in waste management, partly through regulation and partly through encouragement and facilitation.

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First attemp by
Congress to address the problem was the
Solid Waste Disposal
Act of 1965.
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The Resource Recovery
Act of 1970 gave jurisdiction over waste management, encourages the states to develop waste management program.

RESOURCE CONSERVAT İ ON AND RECOVERY ACT
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Management of hazardous waste in United States began in 1976 with passage of
Resource Conservation and
Recovery act (RCRA) – identification of hazardous wastes and their life cycles.
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Applies to solid, semisolid, liquid and gaseous hazardous wastes.

Comprehensive Environmental Response, Compensation, and Liability Act
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CERCLA – act defined policies and procedures for release of hazardous substances into the environment.
Commonly known as
Superfund, was enacted by Congress on December 11, 1980.

In 1986, Cercla was strengthened by amendments made the following changes:
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Improved and tightened standards for disposal and cleanup of hazardous waste(for example, requiring double liners, monitoring landfills)
Banned land disposal of certain hazardous chemicals, including dioxins, polychlorinated biphenyls(PCBs), and most solvents.
Initiated a timetable for phasing out disposal of all untreated liquid hazardous waste in landfills of surface impoundments.
Increased the size of the Superfund. The fund was allocated about $8.5 billion in 1986. congress approved another $5.1 billion for fiscal year 1998, which almost doubled the
Superfund budget.

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The National Environmental Policy Act (NEPA) was passed in 1970 along with the Environmental
Protection Agency (EPA). The main objective of these federal enactments was to assure that the environment be protected against both public and private actions that have resulted in costs or harms inflicted on the ecosystem.

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The Hazardous and Solid
Waste Amendments of 1984 gave the EPA greater responsability for setting solid-waste criteria for all hazordous-waste facilities.

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Federal legistation has changed the ways in which real estate business is conducted.
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The Superfund Amendment and Reasuthorization Act(SARA) of
1986 permits a possible defense against such liability, provided the property owner has completed an environmental audit prior to the purchase of the property.
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SARA legistation also required that certain industries reort all releases of hazardous materials, and a list of companies releasing hazardous substances became public.

In 1990, the U.S. Congress reauthorized hazardouswastecontrol legistation. Priorities include:
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Establishing who is responsable for existing hazardous-waste problems.
When necessary, assisting in or providing funding for cleanup at sites identified as having a hazardous-waste problem.
Providing measures whereby people who suffer damages from the release of hazardous materials compensated.
Improving the required standards for disposal and cleanup of hazardous waste.

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Waste Reduction
Ex: Waste Wise, PAYT(Pay-as-you-throw),
EPR(extended product responsability)
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Waste Disposal Issues
Ex: Solid Waste Interstate Transportation Act
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Recycling and Reuse

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Industrialization and globalization have increased the quantity and quality of goods that are produced and moved around the world mainly through trade. This has led to an increased generation of waste since due to availability; items are discarded with no real attachment or need for repair.

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Population growth in urban centers
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Lack of legistation and policies, long-term planning
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Inadequate storage
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Lack of proper disposal
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Use of inappropriate technology and equipment
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Insufficient knowledge of basicprinciples

Comparaison of Solid Waste Management by the Level of Income

AFR: African Countries
SAR:Special Administrative Region
MENA:Middle East & North Africa
ECA:Europe & Central Asia
LAC:Latin America Countries
EAP:Eastern Partnership
OECD:The Organisation for Economic
Co-operation and Development

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Regions with lowincome countries tend to have low collection rates. South Asia and
Africa are the lowest with 65% and 46% respectively. Not surprisingly, OECD countries tend to have the highest collection efficiency at 98%.

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Can you make a comment on the general overview on
Turkey’s Waste Management Problem ?
Responding to unlimited human needs on higher levels with the help of technology makes it inevitable for the environment and human health to be faced with serious threats as the natural resources are increasingly destroyed and each product manufactured is finally transformed into waste. In
Turkey, waste management has been a subject of legal arrangements since 1930s and municipalities are assigned as the main implementation authority.
According to TURKSTAT data for the year 2004, the quantity of solid waste collected by municipalities is 34 million tons annually.

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The complete harmonization of the national legislation with EU Acquis and international standards and especially the new arrangements ensuring the implementation of the principles and policies coming from the existing arrangements are needed.

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Thank you for listening...

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