Globally, demand for food, water, and energy is sharply on the rise. The World Economic Forum says that by 2050, food demand could increase by over 50%, energy by up to 19% and water by up to 30%. The increasing scarcity of these resources – and potential solutions to their sustainable management – are deeply interconnected, calling for integrated solutions.
“Disruption in one amplifies vulnerabilities and trade-offs in others,” wrote the World Economic Forum in a July report. “Such disruptions also create opportunities for sustainable growth, enhanced resilience and more equity.” The idea of synergistic nexus solutions is starting to pick up steam in both public and private sectors.
A new project in California, aptly named Project Nexus, aims to do just that. The novel project seeks to find synergies for water management and renewable energy production in some of the nation’s sunniest and most water-stressed agricultural lands by covering miles and miles of irrigation canals with solar panels, yielding multiple benefits for the water-energy-food nexus.
While the panels generate clean energy, they also shade the canals from the harsh desert sun, mitigating water loss to evaporation and discouraging the growth of aquatic weeds that can choke the waterways. Plus, the presence of the water acts as a built-in cooling system for the solar panels. The $20 million state-funded initiative could produce up to 1.6 megawatts of renewable energy “while producing a host of other benefits,” according to a report from SFGATE.
In addition to these benefits, placing solar panels on top of existing agricultural infrastructure could offer key benefits compared to standard solar farms. They are more easily and quickly greenlit, as they don't face the same land-use conflicts that utility-scale solar farms are facing across the nation. Plus, “placing solar panels atop existing infrastructure doesn’t require altering the landscape, and the relatively small installations can be plugged into nearby distribution lines, avoiding the cumbersome process of connecting to the higher-voltage wires required for bigger undertakings,” reports Canary Media.
The result of Project Nexus and similar models appears to be a win-win for water, energy, and food, all while using less land. “The challenges of climate change are going to really force us to do more with a lot less … so this is just an example of the type of infrastructure that can make us more resilient,” says project scientist Brandi McKuin. While Project Nexus isn’t releasing figures on the project’s performance until they have a full year’s worth of data, McKuin says current analysis shows that the project is on track to meet its projected outputs.
Project Nexus is not the first project to place solar panels over canals, but it’s still among just a handful of such projects in the world. The United States’ first and only other solar canal project came online late last year in Arizona, where the project produces energy for the Pima and Maricopa tribes, collectively known as the Gila River Indian Community. While many large-scale renewable energy projects have run up against land-use issues with tribal lands, the Arizona project shows that the canal model can be an excellent alternative solution.
“Why disturb land that has sacred value when we could just put the solar panels over a canal and generate more efficient power?” David DeJong, director of the Pima-Maricopa Irrigation Project, was quoted by Grist. In keeping with the spirit of water-energy nexus solutions, the Project is currently developing a water delivery system for the water-stressed Gila River Indian Community.
Of course, these pilot projects produce a whole lot less energy than utility-scale solar farms. But research suggests that if the solar canal idea is scaled across the United States’ 8,000 miles of federally owned canals and aqueducts, it could have a significant impact. In 2023, a coalition of environmental groups calculated that installing panels on all that existing federal infrastructure could generate over 25 gigawatts of energy and potentially avoid tens of billions of gallons of water evaporation at the same time.
By Haley Zaremba for Oilprice.com