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

How one farmer’s invention is reducing postharvest losses around the world

In many developing countries, more than half of all fruits and vegetables are never eaten, but instead are lost, damaged or spoiled after harvest. These “postharvest” losses can mean that farmers need to sell their fresh produce as soon as it is harvested for whatever price they can get, before they lose the crops that represent investments of labor, water, and agricultural inputs. Improving how fruits and vegetables are handled after harvest can significantly prolong freshness — and cooling is key.

“The three most important aspects of postharvest handling are: temperature, temperature, temperature,” said Michael Reid, UC Cooperative Extension postharvest specialist who works with the Horticulture Innovation Lab at UC Davis. “In the developing world in particular, affordable cooling technology is mostly absent.”

Cooling can be expensive — even for American farmers 

As a farmer in upstate New York, Ron Khosla knew this problem too well. His vegetable crop was spoiling too quickly, but he could not afford to buy a walk-in cooler for his small farm. So he invented a solution: a small electrical device he called a CoolBot that tricks an air conditioner into getting colder without freezing over, turning a well-insulated room into a cold room at lower costs than refrigeration. 

“I was hoping for a cheap, DIY solution that I could maintain. But mostly I just needed to keep my leafy greens and strawberries cold,” Khosla said. 

The CoolBot tricks an air conditioner into getting even colder, seen here keeping vegetables fresh in Cambodia, as part of a project with the Horticulture Innovation Lab.
One of his farming customers suggested he sell this device to other farmers, so he started a small business called Store It Cold, LLC. 

Khosla's CoolBot invention caught the eye of postharvest researchers, including Reid, who saw it in action on farms in California and decided to try using it in developing countries too.

CoolBot goes global with the Horticulture Innovation Lab

In one of his first projects with the Horticulture Innovation Lab (a program led by UC Davis with funding from the U.S. Agency for International Development), Reid partnered with agricultural scientists from Uganda, Honduras and India to test the CoolBot in their climates. The four scientists also tested different local materials as insulation for each of the cold rooms.

Since that first project, the Horticulture Innovation Lab has tested CoolBots for farmer cold storage in Tanzania, Zambia, Uganda, Thailand, Cambodia, Bangladesh, India and Honduras. 

Jane Ambuko of the University of Nairobi is another Horticulture Innovation Lab partner who has worked with the CoolBot. She received a grant to pilot this technology with mango farmers for a program called the Kenya Feed the Future Innovation Engine. Her project was featured on an NTV Food Friday news segment about the CoolBot earlier this month.

“I see the CoolBot making a whole lot of difference,” Ambuko said during a TEDxNairobi speech. “But for it to make that desired difference we have to make it cost-effective and affordable for the smallholder farmers.”

Adapting, troubleshooting and scaling up

In many places, the most expensive part of a CoolBot-equipped cold room is the structure for the insulated room, but both Reid and Khosla expect foam building materials to become more widely available and affordable.

From left, farmers Pak Ry and Brap Yart carry a bin of sponge gourd and banana leaves into a CoolBot-equipped cold room in Cambodia, to keep the produce fresh before sale. (Horticulture Innovation Lab photo)
Reid has contacted Khosla, the farmer-inventor, to troubleshoot challenges and discuss results from new locations. In places without reliable electricity, Reid has tested options for solar power.

In the meantime, Khosla's small business has been growing — selling to not only farmers, but also florists, micro-brewers, and other artisanal food businesses. Now with six employees, the company has sold more than 27,500 CoolBots in 51 countries.

“I'm thrilled and so grateful to be a part of helping lots of people. Working with USAID has gotten us known in other countries, and I'm looking forward to the day when we have enough in-roads in India and Africa where we can work directly with farmers there,” Khosla said. “People didn't believe the CoolBots worked at first. But now we get the most amazing letters from people whose businesses have doubled or quadrupled. Good postharvest care makes such a difference. Once they try it, then they see.”

A previous version of this article appeared in the newsletter for Feed the Future, the U.S. government's global hunger and food security initiative, and also in the Horticulture Innovation Lab blog.


Event - Sustainable solutions and extending California's agricultural expertise to the world: The UC Global Food Initiative and UC Blum Centers will host a Global Food Summit on Sustainable Solutions, May 5-6 at UC Irvine. Elizabeth Mitcham, director of the Horticulture Innovation Lab and UC Cooperative Extension postharvest pomologist at UC Davis, will be speaking about technology transfer for horticulture-related technologies such as the CoolBot, seed drying beads, UC Davis-designed chimney solar dryer, pest-exclusion nets, and other tools the program adapts to the needs of farmers in developing countries. She will also be on a panel with two other UC Davis-based directors of Feed the Future Innovation Labs (UC Davis leads five Feed the Future Innovation Labs with funding from USAID — more than any other university). More info about this event.

Posted on Wednesday, March 30, 2016 at 8:55 AM

Comments:

1.
Dear Brenda Dawson! How are you doing? I hope you to be good. I am Mebrahtu Gebremariam from Ethiopia. I have BSc in Plant sciences and MSc in Horticulture. I am serving as a lecturer at Aksum University, Shire Campus, Ethiopia in department of Plant Sciences. I have great interest in to take part in minimizing the postharvest losses of perishables, however, I lack practical skills. Therefore, I am trying to update myself and need some training and experience from others like you. Hence I would like to thank you for sharing information regarding ways to minimize postharvest losses of perishables for smallholder producers of developing countries(Of course I have never seen CoolBot but I would like to appreciate your concern of possibilities to reduce the postharvest loss).  
Best regards,  
Mebrahtu Gebremariam  
Lecturer, Aksum University, Shire Campus, Ethiopia

Posted by Mebrahtu Gebremariam on April 3, 2016 at 8:48 AM

2.
Dear Mebrahtu Gebremariam, hello again! Yes, there is great need for more practical training in minimizing postharvest losses for fresh produce. We are fortunate to see this topic gaining attention as a priority.  
There are several groups who are working to fill this gap.  
One group you might be interested to hear about is the Postharvest Education Foundation (http://www.postharvest.org/) which has an e-Learning Program to provide training.  
Another option might be the UC Postharvest Technology Center, which has a 2-week training each year and usually offers a scholarship for participants from developing countries. The scholarship is competitive and the deadline has already passed this year, but in case you're interested for next year: http://postharvest.ucdavis.edu/Education/PTShortCourse/

Posted by Brenda Dawson on April 4, 2016 at 10:29 AM

3.
Dear Brenda and Mebrahtu,  
How are you? Am a MSc. Horticulture student in Kenya. My aim is to work towards minimal post harvest losses and my thesis is on the effectiveness of the Coolbot to keep low temperatures in a room under local conditions. The results are amazing!!!

Posted by Karithi Esther on July 14, 2016 at 11:18 PM

4.
Hello. We are a small farm in Newcastle Ca and have built a cool bot refrigeration unit but it is currently grid tied. I note the units shown have solar panels mounted and am curious how one could set that up to run the unit off grid. Are there plans and materials lists I could access somewhere? Thanks

Posted by Dayna Burgeson on May 27, 2020 at 9:05 AM

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