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  • Project Description
  • Project Objectives
  • Outcames & Outputs
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• SAR Technology
  • What is SAR?
  • Origin Of SAR
  • Working Principle
  • Process Outline
  • Limitations Technique
  • Succeeded Stories
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• Activities
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  • Field Visit
  • Initial Site Assessment
  • Need Assessment Study
  • Groundwater Quality Sampling and Experiment
  • Training on Arsenic Removal Technology
  • Community Education Training
  • Arsenic Treatment Plant Construction
• Documents

Origin of SAR

WHO has emphasised: "Arsenic in drinking water is a major public health hazard and should be dealt with as an emergency."What is worrying is that the arsenic, which is swept down from the Himalayas and used to be deposited in silt on riverbanks, started becoming soluble between 30 and 40 years ago. Scientists say this is because the introduction of modern methods of intensive farming, using huge quantities of chemical fertilizers, upset the balance of nature.

In order to solve the problem, DrBhaskarSen Gupta, (a senior lecturer in Environmental Engineering at Queen's University, Belfast who did his B.Tech in Chemical Engg from Jadavpur University, Kolkata, Masters from IISC, Bangalore &Ph.D from Malaysia) had to go back to basics and understand how the arsenic came to be in the water in the first place. Arsenic is present in the mineral matters deposited in the form of silt by major rivers in West Bengal and Bangladesh. The arsenic-bearing minerals exist in the shallow aquifer zones (up to 200ft soil depth) of the region. One popular theory of the presence of arsenic in the aqueous phase is biochemical activity of soil bacteria, which uses arsenic-bearing minerals as a source of oxygen. Intensive agriculture that uses high quantities of fertiliser further accelerates the bacterial action. The dissolved form of arsenic is far more toxic than the mineral form, which is abundant in the subterranean zone of the Bengal delta.

While researching the history of groundwater extraction, DrSen Gupta zeroed on a technique that had been used in Germany for well over a century to take out unwanted manganese and iron also removes the deadly arsenic. Sen Gupta flew to Stuttgart and at once realized that the precipitation process which removes the iron also precipitates the soluble arsenic. We did not have to invent something new. He pursued the ISWA, Stuttgart to let him apply that technology for arsenic removal. To find out its effectiveness in the Deltaic region, a TiPOT (Technology for in-situ treatment of groundwater for potable and irrigation purposes) project funded by EU was initiated at Kasimpore branch of Ramakrishna Vivekananda Mission, Barrackpore. After treating for a few months, the arsenic level came down from 300 µg/L to 10 µg/L. DrSen Gupta was proven right. But, a single case may not satisfy the critics. So he decided to take his idea to the next level.

Contact Info

Mrs. Chea Eliyan

Project Coordinator and Deputy Head

Department of Environmental Science, Royal University of Phnom Penh

Room 112A, First Floor, Royal University of Phnom Penh, Russian Confederation Blvd. Phnom Penh, Camobdia
+855-17 485 675
chea.eliyan@rupp.edu.kh or chea_eliyan@yahoo.com