خيارات البحث
النتائج 1 - 10 من 23
Selecting a dairy waste management system for eastern Oregon | Dairy waste management system for eastern Oregon
1982
Moore, James A. (James Allan) | Willrich, Ted L.
Scientific basis for nuclear waste management
1982
Selecting a dairy waste management system for the Oregon coast | Dairy waste management system for the Oregon coast
1982
Moore, James A. (James Allan) | Willrich, Ted L.
Selecting a dairy waste management system for the Willamette Valley | Dairy waste management system for the Willamette Valley
1982
Moore, James A. (James Allan) | Willrich, Ted L.
Trouble free automated system for liquid waste management [Manure management, liquid slurry storage].
1982
Smith W.W. Jr. | Martus T. | Smith A.O.
Biogasification of papaya processing wastes for waste management and utilization [Methane].
1982
Yang P.Y. | Weitzenhoff M.H. | Moy J.H.
Selecting a dairy waste management system for the Willamette Valley [Pollution control, manure handling; Oregon].
1982
Moore J.A. | Willrich T.L.
Distribution of Phosphorus in Soils Irrigated with Municipal Waste-Water Effluent: A 5-Year Study
1982
Latterell, J. J. | Dowdy, R. H. | Clapp, C. E. | Larson, W. E. | Linden, D. R.
This 5-year field study of phosphate (PO₄) management was conducted on Waukegan silt loam (Typic Hapludoll) soil, which has a water table at about the 140- to 150-cm depth. The results of municipal waste-water irrigation, with annual application means of 0, 126, and 237 cm, indicates that in terms of PO₄ management, soils receiving comparable quantities of PO₄ from either waste water or mineral fertilizer (rates for good crop management) behaved in similar manner. Sharp increases in organic-P were found in the surface horizon of soil receiving effluent, while increased levels of available-P were observed to a depth of 60 cm in the high-treatment area (mean annual P addition of 160 kg/ha). Phosphate-adsorption studies, with the aid of the Langmuir equation, showed that the adsorption power of soil from the higher effluent application rates (237 cm/year) had been reduced. This was substantiated by higher P concentrations (0.01 vs. 0.07 mg/liter) observed in soil water at the 60-cm depth of the high-treatment areas. These observations were fitted into a simplified model that described the fate of effluent PO₄ applied to soil.
اظهر المزيد [+] اقل [-]Selecting a dairy waste management system for eastern Oregon [Pollution control, fertilizer and bedding cost savings].
1982
Moore J.A. | Willrich T.L.
Technological and financing alternatives for water and waste management | Conference proceedings, Clean Water Fund, New York, June 1982
1982
