and consequently, every landfill must treat its leachate in one way or another. A popular option is to send
leachate to a wastewater treatment facility, either through a direct sanitary sewer main or by tanker
truck. Either option represents added management costs. On top of this, ammonium concentrations
present in the leachate can further complicate the treatment process. It is typical that leachates with
high ammonium concentrations encounter a surcharge from wastewater treatment facilities. In
addition, leachate recirculation is also practiced by some landfills. While recirculation can lead to higher
biogas production, ammonium levels can spike, thereby rendering methanogenic bacteria ineffective. For
these reasons, a pretreatment method to remove ammonium needs to be explored. Precipitating
ammonium in the form of magnesium ammonium phosphate, or struvite, is an attractive management
alternative. Besides removing ammonium from the leachate, this pretreatment technique converts
ammonium into a reusable product. Struvite has been shown to be an excellent fertilizer, with heavy
metal concentrations below conventional store-bought fertilizers. This proposed study will seek to
optimize the operating conditions for producing struvite from landfill leachate and test the effectiveness
struvite as a multi-nutrient fertilizer.