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Elimination de l' ammoniac sur divers adsorbants: charbons actifs, tourbe et boues de station d' epuration.
1994
Samanni Vaute L. | Fanlo J.L. | Le Cloirec P.
Static pile passive aeration composting of waste slurries
1993
Zhan, W. | Fernandes, L. (Department of Civil Engineering, University of ottawa (Canada))
Domestic wastewater treatment in small farms and private houses
1992
Wierzbicki, K. (Institute for Building, Mechanization and Electrification in Agriculture, Warsaw (Poland)) | Kuczewski, K. | Eymontt, A.
The effect of drainage on nutrient release from fen peat and its implications for water quality - a laboratory simulation
1990
Heathwaite, A.L. (Sheffield Univ. (UK). Dept. of Geography)
Mercury in soils, sediments and clams from a North Carolina peatland
1987
Di Giulio, R.T. (Duke Univ., Durham, NC (USA). School of Forestry and Environmental Studies) | Ryan, E.A.
The use of sludge from biogas plant for mushroom cultivation
1994
Levanon, D. (Institute of Soils and Water, Bet Dagan (Israel)) | Danai, O.
Purification of municipal wastewater by adsorption on a chemically-thermally activated peat | Prečišćavanje gradskih otpadnih voda adsorpcijom na hemijsko-termički aktiviranom tresetu
2010
Cibulić, V., Univerzitet Union, Beograd (Serbia). Fakultet za ekologiju i zaštitu životne sredine | Stamenković, L., Univerzitet Union, Beograd (Serbia). Fakultet za ekologiju i zaštitu životne sredine
It has been established that processing by CTA - peat, under normal pressure, significantly reduces COD of tested wastewater, but at the same time, quickly comes to a stoppage, due to clogging. Results show that filtration process needs to be done under increased pressure. Based on gained results it could be concluded that CTA-peat represent efficient means of eliminating organic matters from wastewaters.
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