Journal of Hydrogeology & Hydrologic EngineeringISSN: 2325-9647

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Research Article, J Hydrogeol Hydrol Eng Vol: 8 Issue: 2

Simulation of Nutrient Fluxes from Deep Trenched Faecal Sludge with Hydrus-2D

Patrick Adadzi1*, David Still2, Harrison Coffie3, Emmanuel Afetorgbor3 and Simon Lorentz1

1Centre for Water Resources Research, School of Agricultural Earth and Environmental Sciences, University of KwaZulu-Natal, South Africa

2Pietermaritzburg, South Africa

3Faculty of Engineering, Ho Technical University, Ho, Volta Region, Ghana

*Corresponding Author : Patrick Adadzi
Centre for Water Resources Research, School of Agricultural Earth and Environmental Sciences, University of KwaZulu- Natal, South Africa
Tel: +233245142414
E-mail:
pcadadzi@gmail.com

Received: August 07, 2018 Accepted: August 16, 2018 Published: August 23, 2019

Citation: Adadzi P, Still D, Coffie H, Afetorgbor E, Lorentz1 S (2019) Simulation of Nutrient Fluxes from Deep Trenched Faecal Sludge with Hydrus-2D. J Hydrogeol Hydrol Eng 8:2.

Abstract

Ventilated Improved Pit-latrine is a commonly used toilet facility in most developing countries, and faecal sludge accumulating in this facilities need to be disposed carefully in an environmentally safe manner. One such option is through the deep row trenching of ventilated improved pit-latrine (VIP) faecal sludge as nutrients in forest plantations. This experiment was to simulate the process of leachate losses compared to measured values, to determine subsurface losses. The modelling and simulation of the process of water, nitrate and phosphorus transport processes was carried out to monitor changes in concentration over time and to monitor the movement of solutes and any change taking place in the surrounding soil water and groundwater using HYDRUS-2D model. The study demonstrated that the nutrient migration processes can be approximated with the conceptual simplifications of the inputs to the model based on field evidence, soil survey data and applicable literature. The study revealed the presence of sandy alluvial formation at the site, and the presence of unsaturated zone below the entrenched faecal sludge retarded nutrient transport.

Keywords: Faecal sludge; Nutrients; Water; Hydrus-2D; Simulation

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