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Cost Effective Method for Removing Arsenic from Water

IB-1742

   
  Researcher Ashok Gadgil holding bottom ash like that used in the Berkeley Lab arsenic removal method.  
 
 

APPLICATIONS OF TECHNOLOGY:

Removing arsenic from

  • drinking water
  • mining discharge
  • power plant boiler blowdown streams

ADVANTAGES:

  • Produces water that meets U.S. EPA drinking water standards (< 10 ppb)
  • Extremely cost effective
  • Offers flexible implementation

ABSTRACT:

Ashok Gadgil of Berkeley Lab has developed a low-cost and highly efficient method to remove arsenic from water to less than 10 parts per billion (ppb) - the World Health Organization and U.S. EPA standard for drinking water.   The technology has been tested in Bangladesh and Cambodia and proven effective. The cost of the treatment is projected to be substantially less than current technologies because it uses a material that is already a waste product to remove the arsenic.  

This invention "Arsenic Removal Using Bottom Ash" or ARUBA is based on coating the surfaces of particles of bottom ash (a finely powdered and sterile waste material from coal-fired power plants) with ferric (hydr)oxide .   The manufacturing process is conducted at room-temperature and atmospheric pressure. Thus, the material can be produced with relatively simple equipment at low cost.

Removing arsenic from contaminated drinking water is simple.   ARUBA is mixed into the water, where it reacts with and immobilizes arsenic by adsorption and/or co-precipitation.   The resulting complex can be filtered or settled out of the water, and is safe enough for disposal in municipal landfills, per EPA standards.

Bottom ash is much less expensive than solid ferric oxide particles, which are often used as a filter media to bond arsenic species.   Moreover, it has a high surface to volume ratio meaning that less material is required for water treatment, and hence less waste is produced.

The cost of raw materials needed for ARUBA production is expected to be low- less than 0.5 cents ($0.005) per kg ARUBA.   Based on field results over three trips to Bangladesh in 2007 and 2008, treating 1 liter of Bangladesh groundwater at an initial arsenic concentration of 400 ppb requires approximately 4-5 grams of ARUBA.

 

STATUS:

  • Issued Patent # 7820052 available at www.uspto.gov. Available for licensing or collaborative research .

 

FOR MORE INFORMATION:

http://arsenic.lbl.gov

http://www.lbl.gov/Science-Articles/Archive/EETD-Gadgil-water-filter.html

Amrose, S. and Mathieu, J. , Trip Report: LBNL/UC Berkeley ARUBA Project, Bangladesh 3/23/2007-4/7/2007

Mathieu, J. and Khan, T., Berkeley Arsenic Alleviation Group, 2007 Summer Fieldwork Trip Report, August 24, 2007

Mathieu, J, Babbitt, W., et. al, Berkeley Arsenic Alleviation Group, 2008 Summer Fieldwork Trip Report, September 9, 2008

Mathieu, J., Gadgil A., "Removing Arsenic from Contaminated Drinking Water in Rural Bangladesh: Recent Fieldwork Results & Policy Implications." In Proceedings UNC Environmental Symposium Safe and Sustainable Drinking Water in Developing and Developed Countries: Where Science Meets Policy, November 5-6, 2008

SEE THESE OTHER BERKELEY LAB TECHNOLOGIES IN THIS FIELD:

REFERENCE NUMBER: IB-1742

See More Technologies for the Developing World