Pile of organic waste at the READ facility
UC Davis Renewable Energy Anerobic Digester, or READ Facility's off-loading zone where food waste waits to be scooped into an adjacent depackager. Every day 20 tons of food waste is delivered here from local grocery stores and UC Davis' campus dining commons. Thanks to a new technology that currently only resides at UC Davis, the food waste is converted to agricultural fertilizer and sold to a California-based manufacturer. (Anjie Cook / UC Davis)

Turning Trash into Treasure: Food Waste Byproducts Fertilize Fields

UC Davis’ Closed-Loop Solution for the Pervasive Ammonia Problem

The Renewable Energy Anaerobic Digester, or READ facility, at UC Davis has a storied history of innovation and challenges – a common balance when finding solutions to evolving technologies. Since taking ownership in 2017, UC Davis Facilities Management has dedicated itself to revitalizing the READ facility, working with academic and industry experts to find creative solutions. Learn more about the recent $4.7M CalRecycle grant.

Side Effects of Converting Food Waste to Power

A regular day at READ involves processing 20 tons of food and grease trap waste from local grocery stores and campus dining commons – waste that would otherwise end up in a landfill –  and turning it into energy. Semi-trucks deliver food waste in plastic garbage bags, which are then separated by depackagers into an organic fraction (food) and contaminants (mostly plastic). The organics are liquified into a slurry and converted into biogas.

However, this process also generates ammonia in concentrations that are too high for disposal and processing at the campus's wastewater treatment plant, yet too low to be valuable as fertilizer. Proper disposal of this ammonia-rich digestate became costly. 

“We ultimately had to pay a farmer to remove and use it,” said Joe Yonkoski, UC Davis Facilities Management superintendent of thermal infrastructure and biodigester supervisor. “This cost represented a significant portion of READ’s operating costs.”

Innovative Solutions and Key Collaborations

To address this challenge, Facilities Management collaborated with Harold Leverenz, PE, then a postdoctoral researcher in the UC Davis Department of Civil and Environmental Engineering. In his spare time, Dr. Leverenz conducted research in his garage with Rus Adams, PE to evaluate strategies for separating and concentrating the ammonia from waste streams, including urine, the digestate from READ and others. Research prototypes of nutrient recovery technologies were installed on campus for testing at UC Davis’ wastewater treatment plant. The team also founded Advanced Environmental Methods LLC, or AEM, to explore the commercial aspects of and barriers to the implementation of nutrient recovery projects. 

“I’ve been interested in helping solve the problem of nutrient pollution through nutrient recycling since my time as an undergraduate in biosystems engineering at Michigan State University,” said Leverenz, who still conducts research for UC Davis Civil and Environmental Engineering and also designs constructed wetlands and other natural treatment systems as an engineer at Biohabitats, Inc. 

“We could be capturing nutrients from waste streams for beneficial use in crop production and create a closed-loop system instead of discharging these fertilizers into our waterways or putting it into the air or landfills.”

This collaboration led to an auspicious partnership between AEM and Facilities Management who together led the design of this one-of-a-kind ammonia distillation system, the Chemdist Group who fabricated it, and California Safe Soil, a fertilizer and pet nutrition product manufacturer.

Large metal cylinder with pipes and portholes
The novel ammonia distillation column, custom designed through collaboration between AEM and UC Davis, stands among tanks, pipes and other equipment at READ. In the column, the digestate is heated to create nearly ammonia-free digestate that can be recycled into the university's wastewater system and ammonia vapor. See next image to learn what happens to the vapor. (Anjie Cook/UC Davis)
Large white cylindrical column with pipes attached at the READ facility
The "Scrubber" a large cylindrical column between tanks at the READ facility, takes ammonia vapor created by the novel distillation column and creates a liquid concentrate. The concentrate is sold to California Safe Soil as fertilizer they certify as organic. This partnership serves as an important revenue stream for keeping the READ facility running.(Anjie Cook/UC Davis)

The system processes the ammonia-rich digestate, separating it into nearly ammonia-free digestate and concentrated ammonia. The ammonia-free digestate can be processed at the campus’s wastewater treatment plant, or by other means, locally without adding excess nutrients to inland waters. The concentrated ammonia product has now become a valuable commodity purchased by California Safe Soil as an ingredient in the formulation of a certified organic fertilizer.

“The new ammonia extraction system not only eliminates a major operating cost, it’s environmentally responsible, generates revenue, and helps support the operation of READ,” said Yonkoski. “It’s taken years of hard work and collaboration so we’re excited that it’s up and running.”

Solving a Global Issue

With this update, UC Davis addresses a significant challenge for anaerobic digester facilities worldwide. READ’s novel ammonia extraction system can remove 90-97% of ammonia from the digestate without the use of fossil energy sources – resulting in a low-carbon or “green” ammonium fertilizer. With more efficient and sustainable digestate recycling, the facility's capacity to process food waste can increase from 20 tons per day to 50 tons per day, further reducing landfill waste. 

The system also aligns with California's SB 1383 objectives by reducing greenhouse gas emissions and enhancing the economic viability of anaerobic digestion. To this end, research is ongoing at READ to advance the biorefinery concept, where our urban waste streams are processed for the recovery of various products, including organic acids, nutrients, energy, and water. As demand grows for “green” waste management solutions, UC Davis serves as a model for institutions worldwide, while READ's progress highlights the importance of continued research and collaboration in achieving sustainable solutions.  

What’s Next

While the ammonia distillation column has greatly enhanced digestate management, Facilities Management is eager to make further improvements at the READ facility. Learn how READ will continue to manage more waste and reduce greenhouse gas emissions, thanks to coming improvements funded by a CalRecycle grant.


At UC Davis, sustainability is a multi-dimensional challenge with ambitious goals. The strategies and projects needed to reach those goals involve our entire university, especially the operations represented here: buildingsclimatediversity, equity and inclusionenergyfood and dininglabsland managementzero wastepurchasingtransportation, and more. Learn about these and other goals on the Sustainable UC Davis website

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