1 Groundwater Pollution Ex Situ Physical Removal of Pollution. 안정제.

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Presentation transcript:

1 Groundwater Pollution Ex Situ Physical Removal of Pollution. 안정제

When the soil is excavated it can be incinerated

3 Incineration Incineration means burning hazardous materials to destroy harmful chemicals. Incineration also reduces the amount of material to be disposed of in a landfill. Incineration destroys a range of chemicals, such as PCBs, solvents, and pesticides. Incineration does not destroy metals.

5 Incineration

6 An incinerator burns polluted soil at a temperature which is high enough to destroy the harmful chemicals. An incinerator can be brought to the site for cleanup or the material can be taken from the site to an incinerator.

7 The material is placed in the incinerator where it is heated. Control the amount of heat and air in the incinerator. As the chemicals heat up, they change into gases, which pass through a flame to be heated further. The gases become so hot they break down into smaller parts that combine with oxygen to form less harmful gases and steam.

8 The gases produced in the incinerator go to air pollution control to remove any remaining metals, acids, and particles of ash. These are harmful and must be properly disposed of in a landfill. The other cleaner gases, like steam and carbon dioxide, are released outside through a stack ( 큰 굴뚝 ).

9 The soil or ash remaining in the incinerator after the burning may be disposed of in a landfill or buried on site. The amount of material that requires disposal is much less than the initial amount of waste that was burned.

10 The time it takes for incineration to clean up a site depends on several factors: size and depth of the polluted area types and amounts of chemicals present whether or not the waste must be taken to the incinerator Larger incinerators can clean up several hundred tons of waste each day.

11 Incineration can destroy some types of chemicals that other methods can’t. It is also quicker than many other methods. Important when a site must be cleaned up quickly to prevent harm to people or the environment. On-site incineration can reduce the amount of material that must be moved to a landfill.

When the soil is excavated it can be washed

14 Soil washing Soil washing removes and separates the portion of the soil that is most polluted. This reduces the amount of soil needing further cleanup. Soil washing alone may not be enough to clean polluted soil. Therefore, most often it is used with other methods that finish the cleanup.

15 Soil washing

16 Chemicals tend to stick or sorb to some types of soil more than others. For instance, chemicals sorb more to fine-grained soils like silt and clay than to larger-grained soils like sand and gravel. The silt and clay, in turn, tend to stick to sand and gravel.

17 Soil washing helps separate the silt and clay from the larger-grained, cleaner soils. It works best when the soil contains a much bigger portion of the larger-grained soils than the fine-grained ones.

18 Soil washing can clean up chemicals, such as fuels, metals, and pesticides, that can sorb to soil.

20 First soil is sifted to remove large objects, like rocks and debris. The soil is placed in a machine called a scrubbing unit. Water, and sometimes detergents, are added to the polluted soil in the scrubbing unit.

21 The mixture goes through sieves, mixing blades, and water sprays. This washes the silt and clay from the larger-grained soil and separates them. The polluted wash water is removed and cleaned up at a treatment plant. The clean water then can be reused or discharged.

22 The silt and clay contain most of the pollution, are tested for chemicals. Most often the silt and clay need further cleanup. The silt and clay may be washed again in the scrubbing unit or cleaned using another method like bioremediation or thermal desorption.

23 If the sand and gravel are clean, they can be returned to the site. If pollution is still present, they are washed again in the scrubbing unit. If necessary, another method is used to finish the cleanup.

24 The time it takes to clean up a site using soil washing depends on several factors: amount of silt, clay, and debris in the soil type and amount of pollution in the soil size of scrubbing unit (The largest units can clean up to 100 cubic meters of soil per day.) Cleanup usually takes weeks to months, depending on the site.

25 Soil washing reduces the amount of soil needing further cleanup. This lowers the cost of cleanup and disposing of polluted material. Soil washing can remove many types of pollution and works when the soil is very polluted. Not good for small amounts of pollution. Not good for soils with a large amount of silt or clay.

When the soil is excavated we can use thermal desorption

27 Thermal desorption Thermal desorption removes harmful chemicals from soil by using heat to change the chemicals into gases. These gases are collected with special equipment. Dust and harmful chemicals are separated from the gases and disposed of safely. The clean soil is returned to the site.

28 Thermal desorption

29 Soil is excavated. It might be crushed, dried, blended with sand, or debris removed. The soil is placed in the desorber. The desorber works like a large oven. When the soil gets hot enough, the harmful chemicals evaporate.

30 Control dust from the soil and collect harmful gases that are released to the air. The polluted gases are separated from the clean air using gas collection equipment. The gases are then changed back into liquids and/or solid materials which are then disposed of safely.

31 Spray the cleaned soil with water to cool it and control dust. If the soil still contains harmful chemicals, clean it further by placing it back in the desorber. Or try other cleanup methods instead. If the soil is clean, it is returned to the site. If the soil is not clean, it is sent to a landfill.

32 Thermal desorption systems can clean over 20 tons of polluted soil per hour. The time it takes to clean up a site using thermal desorption depends on: the amount of polluted soil the condition of the soil (Is it wet or dry? Does it contain a lot of debris?) type and amounts of harmful chemicals present Cleanup can take only a few weeks at small sites with small amounts of chemicals. If the site is large and the chemical levels are high, cleanup can take years.

33 Thermal desorption works well at sites with dry soil and certain types of pollution, such as fuel oil, coal tar, chemicals that preserve wood, and solvents. Sometimes thermal desorption works where some other cleanup methods cannot—such as at sites that have a lot of pollution in the soil.

34 Thermal desorption can be a faster cleanup method. This is important if a polluted site needs to be cleaned up quickly so it can be used for other purposes. The equipment for thermal desorption often costs less to build and operate than equipment for other cleanup methods using heat.

When the soil is excavated we can use solvent extraction.

37 Solvent extraction Solvent extraction (also known as chemical extraction) uses solvents to extract or remove harmful chemicals from polluted materials. Chemicals like PCBs, oil, and grease stick or sorb to soil, sediment, and sludge, making it hard to clean them up. Solvents are chemicals that can dissolve sorbed chemicals and remove them from polluted materials.

38 Solvent extraction

39 Soil is excavated and sifted to remove large objects like rocks and debris. The soil is then placed in a machine called an extractor where it is mixed with a solvent. The type of solvent will depend on the harmful chemicals present and the material being treated.

40 The cleaned soil is tested. If harmful chemicals remain, the soil is placed back in the extractor to repeat the process. Clean soil (or sediment) can be placed back on the site. After the solvent dissolves the sorbed chemicals, the solvent is drained into a separator where the chemicals are separated from the solvent.

41 The used solvent often can be recycled and reused to clean up more soil. Otherwise, the solvents must be destroyed or disposed of in a landfill. If any solvent stays in the soil following treatment, use thermal desorption to remove and recycle it. (gas changes back to a liquid solvent)

42 Solvent extraction can clean up to 125 tons of soil at a site per day. The time it takes to clean up a site depends on several factors: amount of polluted soil type of soil and conditions present (Is it wet or dry? Does it contain a lot of debris?) type and amounts of harmful chemicals present Cleanup usually takes less than a year, depending on the site.

43 Solvent extraction is used to clean up many chemicals that are difficult to remove from soil. Solvent extraction is usually quicker than methods that treat the soil in place. It can be done at the site to save money on transport and disposal of the soil. Also, the solvents can often be recycled and reused.

To remediate the groundwater we can pump and treat it.

45 Pump and treat Pump and treat is a common method for cleaning up groundwater. Pumps are used to bring polluted groundwater to the surface where it can be cleaned up (treated) more easily.

46 Pump and treat

47

48 An extraction system is built. This system usually has one or more wells equipped with pumps. The pumps pull the polluted groundwater into the wells and up to the surface. The water goes into a holding tank and then to a treatment system, where it is cleaned.

49 Treatment methods which can destroy the polluting chemicals or remove them for proper disposal. For example: Bioremediation Chemical Oxidation Air Stripping Activated Carbon Treatment The cleaned water can then be put back into the ground, into a public sewer, or into a pond.

50 treatment methods : Bioremediation Chemical Oxidation Air Stripping Activated Carbon Treatment

51 A pump and treat cleanup is a relatively slow process, at least five to ten years, but can last for decades. The time it takes depends on: the type and amount of harmful chemicals present the size and depth of the polluted groundwater type of soil and rock in the area

52 Cleaning up polluted water while it is still underground is often very difficult and sometimes not possible, so the water has to be pumped out. Pump and treat can also be used to help stop polluted groundwater from moving into nearby drinking water wells while other kinds of cleanup happen.

After pumping the groundwater we can remediate it by air stripping.

54 Air stripping Air stripping is forcing air through polluted water to remove harmful chemicals. The air makes the chemicals change from a liquid to a gas (evaporate). The gas is then collected and cleaned. Air stripping is often used as part of a pump and treat remedy.

55 Air stripper in Acton, MA. It is installed on an Acton public supply well affected by the W.R. Grace Superfund Site. Image courtesy of Peter Shanahan.

56

57

58

59 Air stripping uses an air stripper. An air stripper usually has a large tank filled with a packing material, made of plastic, steel, or ceramic. The polluted water is pumped into the tank and sprayed over the packing material. The water infiltrates down through the spaces between the packing material toward the bottom of the tank. A fan at the bottom blows air up. As the air passes upward through the water, it make the chemicals evaporate.

60 The air moves the evaporated chemical gases to the top of the tank where they are collected and cleaned. As water trickles to the bottom of the tank, it is collected and tested to make sure it is clean. If chemicals are still present, the water may be passed through the same or another tank, or cleaned up using a different method.

61 The time it takes to clean up groundwater or surface water using air stripping depends on several things: amount of polluted water types and amounts of harmful chemicals present rate that water can be pumped number of air strippers used Depending on the site, it can take many years to complete a cleanup.

62 Air stripping works best on water with chemicals that evaporate easily (like fuels and solvents). Air stripping can remove about 99% of these chemicals when it is designed properly. Air stripping cannot remove metals, PCBs, or other chemicals that do not evaporate. Air strippers are simple to build at a site and easy to maintain. They have been used to clean up polluted water at hundreds of sites.

63 Air stripping works best on water containing chemicals that evaporate easily (like fuels and solvents). Air stripping can remove about 99% of these chemicals when it is designed properly. Air stripping cannot remove metals, PCBs, or other chemicals that do not evaporate. Air strippers are simple to build at a site and easy to maintain. They have been used to clean up polluted water at hundreds of sites.

After pumping the groundwater we can clean it using activated carbon.

65 Activated Carbon

66 활성탄

67 Activated Carbon

68 Activated carbon filters harmful chemicals from polluted air and water. It looks like tiny pieces (granules) of black sand. As polluted water flows through an activated carbon filter, chemicals sorb or stick to the surface and within the pores of the granules. Activated carbon often used as part of a pump and treat system.

69 An activated carbon filter usually has one or more containers or columns of granules. It is designed to sorb the hazardous chemicals found at a site. Water or air is usually pumped through a column from the top down, but upward flow also is possible. As the polluted water or air flows through the column, the chemicals sorb to the porous surface.

70 The time it takes to complete activated carbon treatment depends on several things: amount of polluted water or air type and amounts of harmful chemicals present size and number of columns Depending on the site, cleanup can take just a few days or as long as many years. Activated carbon treatment is often used with other cleanup methods, so the time may depend on how fast the other methods work.

71 Activated carbon treatment is good for many chemicals like fuels, PCBs, dioxins, and radioactive wastes. It also can remove some types of metals, if they are in small amounts. Activated carbon treatment can be cheaper than other cleanup methods. However, activated carbon does not destroy chemicals. The chemicals and used carbon must be disposed of in a landfill or the chemicals removed from the carbon and destroyed by other ways.

72 The US EPA’s series of information sheets called “Citizen’s Guide to ….” can be found at You will see that much of the information here comes from these guides. You might like to download the guides because they were updated in 2012 to include information about new technologies and techniques.