Solar Harvest

​Sometimes land has to sit before you know what crop will thrive on it. This was the case at the E.L. Smith Water Treatment Plant, which opened in 1976 and where much of the site was empty and earmarked for future expansion. Only recently however, advances in solar energy created options for an entirely different kind of harvest. A solar harvest.

​S​hining a light on the path to net zero

​The solar farm is a central element of the overarching strategy, given that the water treatment plant is EPCOR’s second largest power user, due to the energy needed to pump roughly 250 million litres a day to the city and its surrounding communities. Having a solar farm on site will dramatically alter that equation.

How? Ever heard the term “behind ​the grid”?

That’s okay. Me neither.

​Honouring Indigenous history, partnerships

But there is more to this story than efficiency and sustainability. The solar farm sits on land formerly part of the Enoch Cree Nation (ECN), which was made to surrender it in 1908. After that, it passed through a series of owners before being designated the home of the water treatment plan. But as EPCOR grew alongside the city and as reconciliation assumed a larger place in our collective consciousness, it seemed only right for EPCOR to engage with the nation. This engagement with the ECN, as well as with dozens of other Indigenous nations, included sharing information about artifacts uncovered and obtaining feedback on proposed developments.

“And we’re doing that not just for this solar farm project,” says Trina Manning, “but for all the projects at the plant.”

The process led to the signing of a memorandum of understanding in 2020 between EPCOR and ECN, which brought ceremony back to the land, opened the door for the harvesting of medicinal plants and offered land-based learning opportunities for Indigenous youth. It also resulted in the naming of the solar farm: kīsikāw pīsim, which means daylight sun in Cree.

​Harnes​​sing the power of research and education 

There are other unique aspects to the project. Sustainability may be the driver of the solar farm, but there are few other passengers enjoying the ride, namely, research and education. Sam Ferraz is the program coordinator with Future Energy Systems (FES) at the University of Alberta. FES is essentially a research program launched in 2016, with $75 million from the Government of Canada’s Canada First Research Excellence fund, focusing on multi-disciplinary research into current and future energy technologies and their consequences for society, the economy and the environment. With 121 research projects, almost 1,000 grad students, over 150 researchers, and over 4,000 research outputs, let’s just say it’s a rather large program. ​

Ferraz is originally from Venezuela, but after studying there and in France, he came to the University of Alberta specifically to work with FES. “Working in academia and having the opportunity to liaise with several students and researchers and industry all with the same goal of working towards a net zero carbon economy, I mean, it virtually speaks for itself!” says Ferraz. 

“There are so many ways researchers can connect with industry because industry usually wants researchers to look at and to find solutions for their real-world problems. Of course, there must be interest on the researcher's side to look into those specific questions.”​

FES is currently working on launching two joint research projects with EPCOR. One of them is going to look at the societal acceptance of renewable energy installations, and comparing the solar farm’s decision processes with those of other installations in Edmonton. The other project involves researchers from the Faculty of Agricultural, Life and Environmental Sciences, working on assessing the re-vegetation approaches at the solar farm and using pollinators (like bees and butterflies) as indicators of success of these re-vegetation strategies. The research possibilities at the solar farm are, therefore, only partly about energy. 

​It’s because of that variety and complexity that education is such a vital part of the overall approach. Having a fully operating solar farm in the city servicing a water treatment plant is “like having a living classroom,” says Dr. Valerie Miller. She is the outreach and engagement coordinator for FES, as well as the coordinator for the Land Reclamation International Graduate School (LRIGS). 

​Teaching a new​ generation about renewables​

Miller started her university life in Ontario at Trent University, and during her PhD exploring land reclamation in the north, she became passionate about science communication, which led to her current roles at the University of Alberta. In her work with FES, she spends time engaging the community with research, building relationships, getting researchers into classrooms and libraries and communities into research spaces, and basically developing all manner of educational programming. ​

​Project of ​​​a lifetime

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