Nitrogen dynamics model for a pilot field-scale novel dewatered alum sludge cake-based constructed wetland system

Abstract

A model simulating the effluent nitrogen (N) concentration of treated animal farm wastewater in a pilot on-site constructed wetland (CW) system, using dewatered alum sludge cake (DASC) as wetland substrate, is presented. The N-model was developed based on the Structural Thinking Experiential Learning Laboratory with Animation software and is considering organic nitrogen, ammonia nitrogen (NH₃) and nitrate nitrogen (NO₃-N) as the major forms of nitrogen involved in the transformation chains. Ammonification (AMM), ammonia volatilization, nitrification (NIT), denitrification, plant uptake, plant decaying and uptake of inorganic nitrogen by algae and bacteria were considered in this model. pH, dissolved oxygen, temperature, precipitation, solar radiation and nitrogen concentrations were considered as forcing functions in the model. The model was calibrated by observed data with a reasonable agreement prior to its applications. The simulated effluent detritus nitrogen, NH₄-N, NO₃-N and TN had a considerably good agreement with the observed results. The mass balance analysis shows that NIT accounts for 65.60%, adsorption (ad) (11.90%), AMM (8.90%) followed by NH₄-N (Plants) (5.90%) and NO₃-N (Plants) (4.40%). The TN removal was found 52% of the total influent TN in the CW. This study suggested an improved overall performance of a DASC-based CW and efficient N removal from wastewater.

Keywords:

• system dynamics
• STELLA
• nitrogen
• alum-sludge
• adsorption

Acknowledgement

Authors gratefully acknowledge financial support received from the Irish state Department of Agriculture, Fisheries and Food under the Research Stimulus Fund (project no. RSF 07-529). Thanks to University College Dublin for providing Research Demonstratorship scholarship during the period of this research work. The UCD Farm, Lyons Estate, Newcastle, Co. Dublin, Dr Edward Jordan and Mr Michael Hegarthy are all sincerely thanked for their support in the fieldwork.