Division of Agriculture and Natural Resources
Division of Agriculture and Natural Resources
Division of Agriculture and Natural Resources
University of California
Division of Agriculture and Natural Resources

Posts Tagged: energy use

Innovating dairy digester research

Dr. Pramod Pandey, a faculty member and cooperative extension specialist at the UC Davis School of Veterinary Medicine runs experiments in capturing biogas.

California leads the nation in agricultural production, producing nearly all the nation's leafy green vegetables, most nut and fruit varieties, and is ranked first in egg and dairy production.

What that means is that California also produces a lot of agricultural waste materials, including lots of manure.

Historically these waste materials have been used as a rich source of compost. However, researchers at UC Cooperative Extension are researching innovative uses for this material. 

Dr. Pramod Pandey, a faculty member and Cooperative Extension specialist at the UC Davis School of Veterinary Medicine, focuses on better ways to manage waste material for both large and small farms. Dr. Pandey researches how to convert the organic matter in manure and other waste materials into a renewable energy source that can be used to power our state.

Converting manure to renewable energy

California gets over 27% of its energy from renewable resources like solar wind, and hydroelectric. Our goal is 50% renewable energy by 2030. California is taking steps towards this goal by building a network of dairy digesters which use bacteria to break down dairy manure and convert it into biogas. Clean burning fuels, such as biogas, are a sustainable source for generating energy because when they are burned, harmful by products are not produced.

Big bonus

A bonus is that the solid material left after the digesters have done their job is a fertilizer that can be used to grow the fruits, vegetables and nuts that our state is famous for. This type of fertilizer contains nutrients that are more readily available for plants because the digestion process breaks up organic materials more efficiently than traditional composting. The digestion process also helps reduce the number of harmful bacteria found in manure, making it much safer for use on plants grown for human food.

California leading in discovery and innovation

When we think about where agriculture has been and where it is going, innovation, efficiency and environmental sustainability are hallmarks of our approach in California. People like Dr. Pandey are driving forward research and technology to minimize the impact of agriculture production on the environment. When we think about where agriculture has been and where it is going, innovation, efficiency and environmental sustainability are hallmarks of our approach in California. His multidisciplinary approach to solving this complex problem of agricultural waste materials and water/air quality helps improve the economic wellbeing of farmers, and benefits Californians by providing nutrients for safe, healthy, and nutritious food.

While the importance of California's agriculture might be huge, its footprint on the environment doesn't have to be, and it is researchers like Dr. Pramod Pandey who are ensuring our state leads in discovery and innovation for many harvests to come.

Heather Johnson, Instructional Systems Designer, Gregory Wlasiuk, E-Learning Curriculum Designer, and Dr. Sara Garcia, Project Scientist, with the Western Institute for Food Safety and Security at the University of California, Davis, provided the script for the video which was used in this story. View Heather, Sara and Greg's filming and editing skills in the video below. Greg provides the narration. 

Posted on Tuesday, October 29, 2019 at 2:27 PM
Focus Area Tags: Agriculture, Innovation

Phase 3 complete in Kearney solar energy project

JKB Energy has completed three phases of a solar energy project at UC ANR Kearney Agricultural Research and Extension (KARE) Center in Parlier. The system eliminates thousands of pounds of emissions and saves the center tens of thousands of dollars in energy costs annually, according to a JKB Energy news release. Kearney is one of nine research and extension centers located throughout the state that are part of the University of California Division of Agricultural and Natural Resources (UC ANR).

JKB Energy has worked with Robert Ray, superintendent of the UC ANR KARE physical plant, to maximize their bill offset program. Since 2012, when the program started, UC ANR KARE has steadily cut its energy costs.

After the completion of the final phase, projected for 2016, the center's “postharvest” meter's annual electricity costs will be offset by approximately 96 percent. Postharvest research is science conducted after a crop has been harvested and includes such processes as of cooling, cleaning, sorting, and packaging and how these might affect the quality of stored fruits and vegetables.

According to JKB Energy, over 25 years, this project will eliminate the equivalent of:

  • 473,735 pounds of carbon dioxide, the leading greenhouse gas
  • 1,520 pounds of nitrogen dioxide, which creates smog
  • 1,376 pounds of sulfur dioxide, which causes acid rain
  • 94 pounds of particulates that cause asthma
  • 770,814 miles driven in an average car

The system is the equivalent of taking 2.5 cars off the road for 25 years, or planting 4.1 acres of trees. 

The solor array at Kearney is at the bottom of the photo.
Posted on Friday, July 17, 2015 at 3:49 PM

Students design a solar home for farmworkers

When a team of UC Davis students packs up its house and travels to Irvine next year for the U.S. Department of Energy's 2015 Solar Decathlon competition, its members will bring not only a desire to win, but also to make zero-net-energy homes more affordable.

After submitting an entry for the first time, UC Davis was one of 20 universities selected in February to compete in the Solar Decathlon. The competition draws students and scientists from universities across the nation — from Yale and Vanderbilt to CalPoly and Sacramento State — to design and build solar-powered homes that are energy efficient and attractive.

The front rendering of the UC Davis students' farmworker housing unit.
Meeting a competition milestone, UC Davis' team, Aggie Sol, submitted 80 percent-complete design documents to the department on Oct. 9. The UC Davis project is designed to be a marketable, sustainable house for farmworkers and other low-income communities. Complete plans for the home are due in January, when construction will begin at UC Davis. In October 2015, the home will be disassembled, packed in pieces and transported to the competition site in Irvine.  

“I really want to see solar homes everywhere,” said Aggie Sol team member Payman Alemi, a civil and environmental engineering major. “I want every house to be solar powered, and I want every car to be electric. I want everything to be sustainable, and I think that developing a mass marketable house is a big stepping stone.”

Connecting a campus

In addition to addressing a social and environmental problem, the project also provides unique educational opportunities for undergraduate and graduate students.

It connects students in the fields of engineering, architecture, design, communication and development. They've drawn on the expertise and support of faculty in the colleges of Letters and SciencesEngineering, and Agricultural and Environmental Sciences. They've also tapped the experience of several energy centers on campus—most located at West Village—including the Institute of Transportation StudiesEnergy Efficiency CenterPlug-In Hybrid and Electric Vehicle Research Center, and Center for Water Energy Efficiency.

Looking over the Simplex design.

“I heard about what we were going to do about ZNE housing for low-income families, and that really struck a chord with me, being from a low-income neighborhood,” said team member Alejandro Perez, a civil and environmental engineering major. “I really want to make my own house energy efficient, but it's really costly, and it's not really practical where I'm from. Just being part of that effort to make it more affordable really inspired me to be part of the team.”

And while team Aggie Sol is made of about 20 students, an estimated 200 to 500 students from various disciplines will study the project in the coming months, including students from UC Davis Extension, the continuing education division of UC Davis.  

The project students are also working with the UC Davis Graduate School of Management and the Division of Social Sciences to create a business plan for the home.

“We want to use this as a way to showcase the ability for zero net energy to be affordable and to do it with a business model in place to implement change in California,” said faculty adviser Frank Loge, a professor of civil and environmental engineering. “If we don't win the competition and still market it, some of us will feel like this has been a very successful effort.” 

Nothing but net

UC Davis has proven itself a national leader in zero-net-energy design. In 2011, it opened West Village, a public-private partnership with West Village Community Partnership LLC and the nation's largest planned zero-net-energy community. This past spring, it debuted the Honda Smart Home, which produces enough renewable energy to power both the home and a Honda Fit electric vehicle in its garage.

Private builders and homeowners worldwide have also taken on the challenge of creating homes that produce as much energy as they consume, and the California Public Utilities Commission has a goal for all new residential homes to be zero net energy by 2020. Yet such residences still tend to fall on the upper financial spectrum of the real est

ate market.

“As part of our effort at UC Davis, we want to make zero-net-energy housing affordable for everyone,” Loge said. “We're trying to drive down the price point of zero-net-energy housing to help the housing market understand that you can have affordable, nice homes that are zero net energy.”

Big cut in price

Price estimates for most homes that compete in the Decathlon range from $300 to $350 per square foot. Team Aggie Sol intends to cut that price by more than half, to $70 to $150 per square foot.

One way they're doing that is by creating a relatively simple, modular design using prefabricated materials. The Aggie Sol design also addresses the health and living concerns associated with farmworkers' current housing conditions, such as poor air quality, crowding and lack of shade.

The home combines public and private spaces in three linear zones: Two climate-controlled living spaces are separated by an enclosed deck. The zones act as climate buffers that maximize passive cooling in summer and passive heating in winter. It will also feature “smart home” technology that aligns the home's needs with the electrical grid, communicating with the resident and power provider to manage energy systems more effectively.

The team plans to begin building the house in January on the UC Davis campus but has not yet chosen a location. Loge said they intend for the home to be built in a public place. 

The Department of Energy provided a $50,000 grant to Aggie Sol, while the team is attempting to raise at least another $700,000 for training, travel, equipment, uniforms and team-building costs.

Posted on Wednesday, October 22, 2014 at 9:57 AM

Biodigester turns campus waste into campus energy

Campus and community food and yard waste will be put inside large, white, oxygen-deprived tanks. Bacterial microbes in the tanks feast on the waste, converting it into clean energy that feeds the campus electrical grid. (graphic: Russ Thebaud/UC Davis)
More than a decade ago, Ruihong Zhang, a professor of biological and agricultural engineering at the University of California, Davis, started working on a problem: How to turn as much organic waste as possible into as much renewable energy as possible.

Last week, on Earth Day, the university and Sacramento-based technology partner CleanWorld unveiled the UC Davis Renewable Energy Anaerobic Digester (READ) at the campus' former landfill. Here, the anaerobic digestion technology Zhang invented is being used inside large, white, oxygen-deprived tanks. Bacterial microbes in the tanks feast on campus and community food and yard waste, converting it into clean energy that feeds the campus electrical grid.

“This technology can change the way we manage our solid waste,” Zhang said. “It will allow us to be more economically and environmentally sustainable."

It is the third commercial biodigester CleanWorld has opened using Zhang's technology within the past two years and is the nation's largest anaerobic biodigester on a college campus.

The system is designed to convert 50 tons of organic waste to 12,000 kWh of renewable electricity each day using state-of-the-art generators, diverting 20,000 tons of waste from local landfills each year. It is expected to reduce greenhouse gas emissions by 13,500 tons per year.

The READ BioDigester encompasses several of the university's goals: reducing campus waste in a way that makes both economic and environmental sense, generating renewable energy, and transferring technology developed at UC Davis to the commercial marketplace.

The biodigester will enable the more than 100 million tons of organic waste each year that is currently being landfilled in the U.S. to be converted to clean energy and soil products. The READ BioDigester is a closed loop system, moving from farm to fork to fuel and back to farm. Whatever is not turned into biogas to generate renewable electricity can be used as fertilizer and soil amendments — 4 million gallons of it per year, which could provide natural fertilizers for an estimated 145 acres of farmlands each day.

Nearly half of the organic waste, or feedstock, needed to operate the biodigester to full benefit will come from UC Davis dining halls, animal facilities and grounds. CleanWorld is working with area food processing and distribution centers to supply the remaining amount. Meanwhile, UC Davis will earn 100 percent of the project's green energy and carbon credits and receive all of the electricity generated.

Anaerobic digestion is an age-old process. However, Zhang's patented technology made it more efficient — capable of eating a broader variety and bigger quantity of waste, turning it into clean energy faster and more consistently than other commercial anaerobic biodigesters.

View a video about the UC David biodigester here:

(This blog post is condensed from a UC Davis news release about the biodigester.)

Additional information:

Posted on Wednesday, April 30, 2014 at 6:34 AM

UC to measure energy and greenhouse gas footprints of orchard crops

As trees grow, they draw carbon dioxide from the air to create sugar and cellulose for food and growth, locking some of that carbon into their wood as the trees age.
What if the trees in an orchard could be considered a savings account for energy and carbon? When determining the value of an orchard, we may account for the fruits it bears, the air it cleans, and the labor it employs. But with California climate policies in place and carbon becoming a tradable commodity, we may also be able to calculate and account for the long-term value of a tree itself.

A new study underway at the UC Sustainable Agriculture and Research and Education Program (SAREP) aims to help growers and policymakers better understand the energy use, greenhouse gas emissions, and carbon sequestration potential of orchard systems throughout California.

As trees grow, they draw carbon dioxide from the air to create sugar and cellulose for food and growth, locking some of that carbon into their wood as the trees age — in some trees for 25 years, in others like walnuts, for upwards of 150 years. Proper use of that carbon at the end of an orchard's life can have major implications for the overall greenhouse gas footprint of an orchard operation. Trees used for power generation after orchard removal have the potential to offset fossil-fuel related emissions created throughout the orchard's life.

"Our preliminary study in almonds shows that the amount of fossil fuel emissions saved in this way is equal to almost three-quarters of the greenhouse gas emissions generated during the whole 25-year lifespan of the orchard, using current practices," says the project's director, Sonja Brodt, SAREP academic coordinator. "We think that this information could help to position orchard crops favorably for a consumer base that is increasingly climate-smart."

This study, funded by the California Department of Food and Agriculture's Specialty Crops Block Grant Program, will focus on prunes, peaches, walnuts and almonds in all of the primary production regions of the state.

Many farm management practices have an energy use component that the project will consider including water and fertilizer use, tractor use and post-harvest transportation. By understanding which parts of orchard operations use the most energy as well as how much energy is required to manufacture and distribute inputs before they even arrive at the farm, growers can increase the efficiency of their practices. Industry groups can also develop more scientifically-sound grower sustainability programs to improve energy efficiency more broadly for the state's many tree crop growers.

"Energy is one input into agriculture that we have not thought about much from a whole supply chain point of view," says Gabriele Ludwig of the Almond Board of California, which funded a preliminary study on energy use and emissions in almond production and handling. "Yet the costs of energy, especially from fossil fuel sources, keep going up. The life cycle assessment approach used in this project can provide an analysis of where increased efficiencies may be possible."

The project's collaborators include the UC Cooperative Extension's Sutter-Yuba office, the UC Davis Department of Civil and Environmental Engineering, Department of Land, Air, and Water Resources, the Department of Plant Sciences, and graduate students in Horticulture and Agronomy and International Agricultural Development.

By working with growers throughout the state, project staff will be able to ensure that orchard management practices included in the project's models are representative of current practices. Growers interested in providing confidential input about their orchard practices are invited to contact Brodt at sbbrodt@ucdavis.edu or (530) 754-8547.

Posted on Thursday, February 20, 2014 at 8:56 AM
  • Author: Aubrey White

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