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Passive treatment system

April 11, 2024

A passive treatment system is a method for removing metals from acid mine drainage. There are several types of passive treatment systems, each of which may be used on their own or in combination to treat effluents. The type of system selected is dependent upon the chemistry of the acid mine drainage and the flow of the discharge, as well as relevant regulations. Passive treatment systems do not require power and are less expensive than active treatment systems. They also require less maintenance, which is an advantage in remote locations.[1]

Types of passive treatment systems edit

 
A hybrid system using Flowforms in a passive treatment pond, in Norway.

There are many types of water treatment systems available for removing metals from acid mine drainage. Passive treatment systems are a relatively recent technology that involves using sulfate-reducing bacteria or limestone or both to neutralize acidity and precipitate metals. These systems are sometimes called “wetlands” or “bioreactors.” Passive treatment systems differ from active systems (water treatment plants), which commonly use power; use more hazardous chemicals such as hydrated lime, caustic soda, or ammonia; and, are more expensive. Passive treatment systems are preferred for sites managed by the Bureau of Land Management (BLM).[1]

Passive treatment systems provide a controlled environment in which natural chemical and biological reactions that help in the treatment of acid mine drainage can occur. There are several types of passive treatment systems. Each type may be used on its own, or more than one may be used in sequence to optimize treatment of difficult effluents. However, the design selected will ultimately depend upon site characteristics and other specific criteria.[1]

Aerobic wetlands edit

Aerobic wetlands are shallow (1–3 foot deep) ponds; they may be lined or unlined and some are nearly filled with soil or limestone gravel. Such wetlands facilitate natural oxidation of the metals and precipitate iron, manganese, and other metals. Anaerobic wetlands are used to neutralize acidity and reduce metals to the sulfide form. This reaction consumes H+ and therefore acidity.[1]

Anaerobic wetlands edit

Anaerobic wetlands may be lined or unlined shallow ponds filled with organic matter, such as compost, and underlain by limestone gravel. Water percolates through the compost, becomes anaerobic and metals precipitate as sulfides. Microorganisms facilitate this reaction by first consuming oxygen. Alkalinity and H2S are produced. If the system is improperly sized, if flow dries up, or if extended low temperatures are encountered, the microorganisms will die and the performance will be decreased. Some anaerobic wetlands discharge a sulfide “sewage” effluent, particularly during the first few years.[1]

Anoxic limestone drains edit

Anoxic limestone drains consist of a buried limestone gravel system that requires the exclusion of oxygen and aluminum in the water. If oxygen or aluminum are present, iron and aluminum hydroxides clog the system, causing failure. Alkalinity producing systems are a combination of an anaerobic wetland and an anoxic limestone drain.[1]

Other types edit

Other types of passive treatment systems include various limestone treatment configurations, ranging from limestone ponds to open limestone channels in which water flows down a steep slope with limestone riprap. These systems oxidize and precipitate metals and add alkalinity to the water.[1]

Another passive treatment system uses lime dispensing technology to neutralize acidity and precipitate metals in a settling pond. These units do not require power or hazardous chemicals and are inexpensive. BLM is currently conducting pilot tests on the Aquafix technology.[1]

Advantages edit

Passive treatment systems are a valuable option for treating acid mine drainage at remote locations. The advantages of passive treatment systems are that they do not require electrical power; do not require any mechanical equipment, hazardous chemicals, or buildings; do not require daily operation and maintenance; are more natural and aesthetic in their appearance and may support plants and wildlife; and, are less expensive than active alternatives.[1]

Disadvantages edit

There are disadvantages with any water treatment system. The disadvantages of passive treatment systems are that they may require complex discharge permits unless taking a Comprehensive Environmental Response, Compensation, and Liability Act (CERCLA) action; may not meet stringent water-quality-based effluent standards; may fail because of poor design or severe winter conditions; and, are a relatively new technology and an area of active research. For these reasons, there have been failures along with success stories.[1]

Maintenance edit

All of the passive treatment systems described will accumulate metal precipitates and will eventually have to be replaced.[2] Research indicates that these systems can be expected to perform for 20 years.[3][4] The precipitate is not normally a hazardous waste. Nonetheless, regular monitoring, inspection, and maintenance are required, although to a much lesser extent than with active water treatment systems.

See also edit

References edit

  1. ^ a b c d e f g h i j K. L. Ford (2003). (PDF). Bureau of Land Management, National Science and Technology Center, Technical Note 409. Archived from the original (PDF) on 26 August 2003.
  2. ^ Gusek, J.J.; Wildeman, T.R. & Conroy, K.W. (March 26–30, 2006). "Conceptual methods for recovering metal resources from passive treatment systems". Proceedings of the 7th International Conference on Acid Rock Drainage (ICARD). Lexington KY: American Society of Mining and Reclamation (ASMR). from the original on 6 October 2015. Retrieved 5 October 2015.
  3. ^ Jeff Skousen (2001). "Overview of passive systems for treating acid mine drainage" (PDF). West Virginia University Extension Service. (PDF) from the original on 2015-10-06. Retrieved 2015-10-01.
  4. ^ Robert S. Hedin; Robert W. Nairn & Robert L. P. Kleinman (1994). "Passive treatment of coal mine drainage" (PDF). U. S. Bureau of Mines Information Circular 9389. (PDF) from the original on 2015-09-05. Retrieved 2015-10-01.

  This article incorporates public domain material from websites or documents of the United States Government.

April 11, 2024
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A passive treatment system is a method for removing metals from acid mine drainage There are several types of passive treatment systems each of which may be used on their own or in combination to treat effluents The type of system selected is dependent upon the chemistry of the acid mine drainage and the flow of the discharge as well as relevant regulations Passive treatment systems do not require power and are less expensive than active treatment systems They also require less maintenance which is an advantage in remote locations 1 Contents 1 Types of passive treatment systems 1 1 Aerobic wetlands 1 2 Anaerobic wetlands 1 3 Anoxic limestone drains 1 4 Other types 2 Advantages 3 Disadvantages 4 Maintenance 5 See also 6 ReferencesTypes of passive treatment systems edit nbsp A hybrid system using Flowforms in a passive treatment pond in Norway There are many types of water treatment systems available for removing metals from acid mine drainage Passive treatment systems are a relatively recent technology that involves using sulfate reducing bacteria or limestone or both to neutralize acidity and precipitate metals These systems are sometimes called wetlands or bioreactors Passive treatment systems differ from active systems water treatment plants which commonly use power use more hazardous chemicals such as hydrated lime caustic soda or ammonia and are more expensive Passive treatment systems are preferred for sites managed by the Bureau of Land Management BLM 1 Passive treatment systems provide a controlled environment in which natural chemical and biological reactions that help in the treatment of acid mine drainage can occur There are several types of passive treatment systems Each type may be used on its own or more than one may be used in sequence to optimize treatment of difficult effluents However the design selected will ultimately depend upon site characteristics and other specific criteria 1 Aerobic wetlands edit Aerobic wetlands are shallow 1 3 foot deep ponds they may be lined or unlined and some are nearly filled with soil or limestone gravel Such wetlands facilitate natural oxidation of the metals and precipitate iron manganese and other metals Anaerobic wetlands are used to neutralize acidity and reduce metals to the sulfide form This reaction consumes H and therefore acidity 1 Anaerobic wetlands edit Anaerobic wetlands may be lined or unlined shallow ponds filled with organic matter such as compost and underlain by limestone gravel Water percolates through the compost becomes anaerobic and metals precipitate as sulfides Microorganisms facilitate this reaction by first consuming oxygen Alkalinity and H2S are produced If the system is improperly sized if flow dries up or if extended low temperatures are encountered the microorganisms will die and the performance will be decreased Some anaerobic wetlands discharge a sulfide sewage effluent particularly during the first few years 1 Anoxic limestone drains edit Anoxic limestone drains consist of a buried limestone gravel system that requires the exclusion of oxygen and aluminum in the water If oxygen or aluminum are present iron and aluminum hydroxides clog the system causing failure Alkalinity producing systems are a combination of an anaerobic wetland and an anoxic limestone drain 1 Other types edit Other types of passive treatment systems include various limestone treatment configurations ranging from limestone ponds to open limestone channels in which water flows down a steep slope with limestone riprap These systems oxidize and precipitate metals and add alkalinity to the water 1 Another passive treatment system uses lime dispensing technology to neutralize acidity and precipitate metals in a settling pond These units do not require power or hazardous chemicals and are inexpensive BLM is currently conducting pilot tests on the Aquafix technology 1 Advantages editPassive treatment systems are a valuable option for treating acid mine drainage at remote locations The advantages of passive treatment systems are that they do not require electrical power do not require any mechanical equipment hazardous chemicals or buildings do not require daily operation and maintenance are more natural and aesthetic in their appearance and may support plants and wildlife and are less expensive than active alternatives 1 Disadvantages editThere are disadvantages with any water treatment system The disadvantages of passive treatment systems are that they may require complex discharge permits unless taking a Comprehensive Environmental Response Compensation and Liability Act CERCLA action may not meet stringent water quality based effluent standards may fail because of poor design or severe winter conditions and are a relatively new technology and an area of active research For these reasons there have been failures along with success stories 1 Maintenance editAll of the passive treatment systems described will accumulate metal precipitates and will eventually have to be replaced 2 Research indicates that these systems can be expected to perform for 20 years 3 4 The precipitate is not normally a hazardous waste Nonetheless regular monitoring inspection and maintenance are required although to a much lesser extent than with active water treatment systems See also editConstructed wetlandReferences edit a b c d e f g h i j K L Ford 2003 Passive Treatment Systems for Acid Mine Drainage PDF Bureau of Land Management National Science and Technology Center Technical Note 409 Archived from the original PDF on 26 August 2003 Gusek J J Wildeman T R amp Conroy K W March 26 30 2006 Conceptual methods for recovering metal resources from passive treatment systems Proceedings of the 7th International Conference on Acid Rock Drainage ICARD Lexington KY American Society of Mining and Reclamation ASMR Archived from the original on 6 October 2015 Retrieved 5 October 2015 Jeff Skousen 2001 Overview of passive systems for treating acid mine drainage PDF West Virginia University Extension Service Archived PDF from the original on 2015 10 06 Retrieved 2015 10 01 Robert S Hedin Robert W Nairn amp Robert L P Kleinman 1994 Passive treatment of coal mine drainage PDF U S Bureau of Mines Information Circular 9389 Archived PDF from the original on 2015 09 05 Retrieved 2015 10 01 nbsp This article incorporates public domain material from websites or documents of the United States Government Retrieved from https en wikipedia org w index php title Passive treatment system amp oldid 1154308810, wikipedia, wiki, book, books, library,

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