Numerical modelling on sorption kinetics of nitrogen species in wastewater-applied agricultural field
Author:
Publisher
Springer Science and Business Media LLC
Subject
Water Science and Technology
Link
http://link.springer.com/article/10.1007/s13201-018-0869-5/fulltext.html
Reference69 articles.
1. Akosman C, Ozdemir T (2010) Adsorption dynamics and equilibrium studies on nitrate onto various soils. Fresenius Environ Bull 19:2245–2252
2. Alfnes E, Breedveld GD, Kinzelbach W, Aagaard P (2004) Investigation of hydrogeologic processes in a dipping layer structure 2.Transport and biodegradation of organics. J Contam Hydrol 69:173–194
3. Allen-King RM, Grathwohl P, Ball WP (2002) New modeling paradigms for the sorption of hydrophobic organic chemicals to heterogeneous carbonaceous matter in soils, sediments and rocks. Adv Water Resour 25:985–1016
4. Almasri MN, Kaluarachchi JJ (2007) Modelling nitrate contamination of groundwater in agricultural watersheds. J Hydrol 343:211–229
5. Antonopoulos VZ (1993) Simulation of water and nitrogen dynamics in soils during wastewater applications by using a finite-element model. Water Res Manag 7:25–237
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