1 / 26

E8 - Waste

E8 - Waste. Vivien Tsang & Melody Mak. Waste Disposal. Waste disposal is the transportation, management, recycling and disposal of waste materials usually produced by human activity.

lorin
Download Presentation

E8 - Waste

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. E8 - Waste Vivien Tsang & Melody Mak

  2. Waste Disposal Waste disposal is the transportation, management, recycling and disposalof waste materials usually produced by human activity. However, due to the continuously growing human population and industrialisation, more waste material is generated than ever before. This is growing concern as we now have to deal with the problem of where to place our waste without causing detrimental harm to our health and our environment.

  3. Methods of Waste Disposal There are various different methods of waste disposal: • Landfill • Open dumping • Ocean dumping • Incineration • Recycling However, each of these have their pros and cons and is worth evaluating.

  4. Landfill In landfills, waste is buried in a structure built under the ground so that it is not in contact with the surrounding environment (e.g. air, groundwater). This gap in the ground is then covered with a layering of soil. The waste material buried in landfills is kept relatively dry therefore it will not decompose much.

  5. Landfill – Advantages • Efficient in dealing with large volumes of waste material • Filled land can be utilised for building • Filled land can be used for community purposes • Land is not wasted

  6. Landfill – Disadvantages • Local residents may object • Once the land is filled, it may need a period of time to settle • Filled land requires maintenance as methane gas may be released

  7. Open Dumping Open dumping is the disposal of large quantities of waste in open areas of land which are not designed for the purposes of holding waste material. It is a prohibited act and against the law. Examples where it may occur: road sides, ditches, river beds, secluded areas.

  8. Open Dumping – Advantages • Convenient • Inexpensive

  9. Open Dumping – Disadvantages • Air and ground water pollution as waste easily comes into contact with these • Solid waste may get into drinking water • Visual pollution • Bad smell • Health hazard – may become a breeding ground for rodents and insects • Causes flooding due to the clogging of drainage systems

  10. Ocean Dumping Ocean dumping is the disposal of waste materials in designated areas of the ocean. It is generally banned in many countries.

  11. Ocean Dumping – Advantages • Convenient • Inexpensive • Waste may be a source of nutrients for marine plants and animals

  12. Ocean Dumping - Disadvantages • Danger to marine animals as they may get tangled up in plastic bags • Non-biodegradable waste (e.g. plastic bags) pollute the ocean • Killing of plankton • Destruction of food sources for marine organisms

  13. Incineration Incineration is the destruction of waste material using heat energy. Organic substances within the waste is combusted and turned into ash and heat.

  14. Incineration - Advantages • Reduces the volume of waste material • Requires minimal space • Produces stable and odourless residue • Heat generated may be used as a source of energy • Treatment can be carried out in any weather conditions

  15. Incineration - Disadvantages • Expensive to build and operate • Can produce air pollutants if waste is not burned efficiently • Requires a great amount of energy • Requires skilled labour • Requires maintenance • May be a visual pollution

  16. Recycling Recycling involves processing waste into new products to avoid wastage of any material that may be useful. It also aims to avoid using fresh raw material.

  17. Recycling – Advantages • Provides a sustainable environment • Less wastage of fresh raw material • Reduces energy usage • Reduces air and water pollution

  18. Recycling – Disadvantages • Expensive • Not all waste can be recycled • Difficulty in separating the useful material from the waste

  19. Recycling : Metals • The metals recycled are mainly aluminium and steel • They are sorted and melted and either: - reused directly - added to the purification stage of metals formed from their ores • Recycling of aluminium is especially important because it requires a great amount of energy to produce directly from its ore

  20. Recycling : Paper • When paper is recycled it is: • Sorted into grades • Washed to remove any ink present • Made into a slurry to form new types of paper e.g. newspaper and toilet rolls

  21. Recycling : Glass • When glass is recycled, it is: • Sorted by its colour • Washed • Crushed and melted • Moulded into new products • Glass does not degrade when recycled therefore it can be recycled many times

  22. Recycling : Plastics • When plastics are recycled, they are broken down by: - Pyrolysis - Hydrogenation - Gasification - Thermal cracking - and finally, repolymerised • Fewer pollutants are formed • Uses less energy than producing new plastics from crude oil However • Sorting plastics can be difficult

  23. Radioactive waste Radioactive waste can be categorised into two types: • Low-level waste: - Level of activity is low - Short half-life - E.g. rubber gloves, paper towels, protective clothing, anything used where radioactive materials are handled • High-level waste: - High level of activity - Long half-life, waste remains active for long periods of time - E.g. spent fuel rods

  24. Storage & Disposal: Low-level Waste The decay of low-level waste produces heat therefore they are stored in tanks of cooled water. Here it loses much of its activity. The waste is then filtered through an ion exchange resin where strontium and caesium, the main radioactive wastes, are removed before being discharged out to the sea. Or it could be kept in steel containers inside concrete-lined vaults.

  25. Storage & Disposal: High-level Waste High-level waste is treated by a method called vitrification. The liquid waste is dried in a furnace and then mixed with glass-making material. This molten material is then poured into steel tubes with air flowing around it to cool it down. Eventually it solidifies. However The waste still remains radioactive for possibly thousands of years. Thus there is a problem of storing it and the risk of leaking radioactive substances into water supply.

  26. References • http://science.howstuffworks.com/environmental/green-science/landfill3.htm • http://www.deq.state.ok.us/factsheets/local/opendump.pdf • http://health.co.st-clair.il.us/NR/rdonlyres/26E2433A-896E-44BA-BF26-D37831B7F595/0/ODBrochure.pdf • http://www.hamiltoncountyhealth.org/en/permits_licensing_inspections/waste_management/open_dumping.html • http://www.gdrc.org/uem/waste/disposal.html

More Related