Pregled bibliografske jedinice broj: 831842
Modelling Water Dynamics, Transport Processes and Biogeochemical Reactions in Soil Vadose Zone
Modelling Water Dynamics, Transport Processes and Biogeochemical Reactions in Soil Vadose Zone // Groundwater - Contaminant and Resource Managemenk / Salik Javaid, Muhammad ; (ur.).
Rijeka: IntechOpen, 2016. str. 133-162
CROSBI ID: 831842 Za ispravke kontaktirajte CROSBI podršku putem web obrasca
Naslov
Modelling Water Dynamics, Transport Processes and Biogeochemical Reactions in Soil Vadose Zone
Autori
Filipović, Vilim ; Ondrašek, Gabrijel ; Filipović, Lana
Vrsta, podvrsta i kategorija rada
Poglavlja u knjigama, znanstveni
Knjiga
Groundwater - Contaminant and Resource Managemenk
Urednik/ci
Salik Javaid, Muhammad ;
Izdavač
IntechOpen
Grad
Rijeka
Godina
2016
Raspon stranica
133-162
ISBN
978-953-51-2466-5
Ključne riječi
vadose zone, water flow, solute transport, numerical modelling, biogeochemical reactions
Sažetak
Large numbers of numerical models are nowadays available for the description of physical and chemical processes affecting water flow and solute transport in soil vadose zone. This chapter explains basic principles of water flow and solute transport modelling in soil vadose (variably saturated) zone and some of the most important processes present in it. First part deals with water dynamics in the soil, that is, soil water content, pressure head, soil porosity, and water flow. Also, some of the measurement techniques used to estimate water dynamics in soil are explained. Water retention curve and soil hydraulic properties needed for modelling are briefly discussed with the explanation of basic (i.e. most commonly used) hydraulic relationship in soil (van Genuchten equation) and water flow (Richards equation) approaches. Second part includes solute transport description in vadose zone, including processes such as advection, diffusion, dispersion, and adsorption. Basic advection‐ dispersion equation is explained and also the implementation of boundary and initial conditions in the numerical model. Preferential flow is shortly discussed with the basic principles behind its occurrence and modelling in the soil vadose zone. One real case one‐ dimensional (1D) example of modelling with HYDRUS software is presented in which water flow and nitrate transport is simulated on the lysimeter study. Short overview of the most widely used numerical models for simulating vadose zone processes is also presented, whereas the final part is focused on chemical speciation modelling in relatively homogeneous soil solutions using visual MINTEQ interface.
Izvorni jezik
Engleski
Znanstvena područja
Poljoprivreda (agronomija)
POVEZANOST RADA
Ustanove:
Agronomski fakultet, Zagreb
