Author
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Norton, Lloyd |
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ALTIERI, ROBERTO - PURDUE UNIV., WLAF, IN |
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JOHNSTON, CLIFF - PURDUE UNIV., WLAF, IN |
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Submitted to: Beltsville Agricultural Research Center Symposium
Publication Type: Abstract Only Publication Acceptance Date: 5/4/1997 Publication Date: N/A Citation: N/A Interpretive Summary: Technical Abstract: Agriculture has been practiced in this country for hundreds of years. The general trend has been to produce foodstuffs and send them to towns and villages where most of the population lives. As a largely agrarian society, concentration of wastes was not a big problem because much of the wastes produced were applied back to the land where it came. With the population shift from farms to large cities the waste streams became larger and more concentrated. Disposal of these wastes were generally in landfills. Today with the increased cost of landfilling, less landfill space and regulations restricting what can be filled, land application of many waste streams is becoming more economically desirable. Also given the fact that many of these waste streams contain beneficial organic materials and nutrients that came from the soil to begin with, it may be beneficial to amend the soil with them to improve soil organic carbon content, nutrient status and control erosion. We studied two waste streams from a coal-fired power plant and a pharmaceutical operation in order to develop a co-blending technology. By combining the organic rich industrial sludge (ORIS) with fly and bottom ash from a fluidized bed combustor we were able to reduce adverse properties of both materials and create a soil like material with favorable properties. The impact of this research is that two waste materials with adverse properties can be combined such that they form a beneficial material with better properties than each individually with potential for erosion control. |
