SREL Reprint #2749
Removal of Ammonium Ions from Fellmongery Effluent by Zeolite
N. S. Bolan1, C. Mowatt2, D. C. Adriano3, and J. D. Blennerhassett1
1Fertilizer and Lime Research Centre, Institute of Natural Resources, Massey University, New Zealand 2Resource Refineries Ltd., Matamata, New Zealand
3Savannah River Ecology Laboratory, Aiken, South Carolina, USA
Abstract: The introduction of the Resource Management Act in 1991 in New Zealand enforces statutory requirements for the disposal of farm and industrial wastewaters in ways that minimize environmental impacts. Wastewaters often contain high concentrations of ammonium (NH4+), phosphate (H2PO4-) and potassium (K+) ions, and in some cases heavy metals. Zeolite is a naturally occurring, porous and electrically-charged alumino-silicate mineral, which can be used to adsorb cation and anion contaminants from wastewater.
Zeolites of New Zealand origin were obtained from New Zealand Resource Refinieries Ltd. and evaluated for their effectiveness to remove NH4+ ions from a fellmongery wastewater stream. The natural zeolites were of clinoptilolite species and had high cation exchange capacity (CEC) (>100 cmol kg-1), which after treatment with alkali solutions increased by up to 74%. The CEC of the zeolites indicated that these samples can hold a potential maximum of 18.7 to 20.1 g NH4+kg-1 zeolite.
The adsorption of NH4+ ions by the zeolites increased with increasing NH4+ ion concentration in the fellmongery wastewater. The presence of other cations in the fellmongery wastewater apparently interfered with NH4+ ion adsorption, resulting in only a small fraction of the CEC getting occupied by the NH4+ ions. Although an increase in CEC due to alkali treatment increased the adsorption of NH4+ ions, H+ ion saturated zeolites adsorbed higher amount of NH4+ ions than the zeolites saturated with other cations. The cation-loaded zeolite was regenerated for NH4+ ion adsorption by leaching with 0.5M HCl, and even after 12 regeneration cycles the amount of NH4+ ion adsorption remained unaffected, indicating the potential for recycling zeolite for removing NH4+ ions from the waste stream.
Keywords: Ammonium, Cation exchange capacity (CEC), Cation adsorption, Fellmongery, Nutrient ions, Wastewater, Zeolite
SREL Reprint #2749
Bolan, N. S., C. Mowatt, D. C. Adriano, and J. D. Blennerhassett. 2003. Removal of ammonium ions from fellmongery effluent by zeolite. Communications in Soil Science and Plant Analysis 34:1861-1872.
This information was provided by the University of Georgia's Savannah River Ecology Laboratory (srel.uga.edu).