Relief as Africa University commissions new 250-kilowatt solar power plant |14 June 2025

When load shedding, introduced over the past two years, led to frequent electricity blackouts in the eastern part of Zimbabwe, Jose Tenete Domingos Lumboa, and fellow students at Africa University endured learning disruptions.

The university responded to these scheduled outages, known as load shedding and meant to manage the demand for electricity from the national grid, with backup generators. However, that response brought its own set of challenges for the students and the university administration.

Apart from the noise and air pollution from the diesel-powered generators, the backup system did not run the whole night, and it was expensive.

“It was disruptive,” says Angolan Lumboa, (26), who is studying Education at the United Methodist-related university.

“You have an assignment due, and you are still researching online and if the electricity goes off, you cannot meet the deadline,” he recalled.

Lumboa is lucky not to have missed the deadline for any of his assignments but says most of his fellow students endured the most of rolling power cuts. 

A new solar mini-grid at AU, just outside Zimbabwe’s third-largest city of Mutare, is changing the lives of students like Lumboa. 

The university commissioned a 250-kilowatt solar power plant, the first phase of a larger project, on June 6. It has 590 solar panels, a 250 kilovolts inverter system, and a 600-kilowatt-hour battery bank.The lithium batteries have a lifespan of 25 years. Africa University (Tennessee) Incorporated is funding the entire project, set up in 1992 to enable the founding of Africa University Zimbabwe and to provide resources to sustain the university long-term.

“No donor provided funding for this project and that is its uniqueness. That is what I am talking about, sustainability,” says James Salley, president and chief executive officer of Africa University (Tennessee) Inc. and the associate vice-chancellor for institutional advancement at Africa University Zimbabwe. 

Although it is only 50 percent complete, the solar plant is providing uninterrupted power to AU’s main campus, including student hostels and laboratories.

“Annually, we had to spend a minimum of $216,000. That was our energy bill. Our maximum (would) be around $240,000. So, we will save around $240,000 per year,” says Professor Talon Garikayi, an engineer overseeing the solar power project and the deputy vice-chancellor at AU.

Beyond the significant budgetary savings, Africa University’s board of directors saw operational, relational and sustainability benefits in the project.

“We felt like it was critical to invest in this solar power plant to ensure the university continues to be dependable in its operations and its systems that are critical knowledge advancement on the continent,” says board chairperson, Reverend Alfiado Zunguza. 

“The university was spending $240,000 a year for electricity, making education expensive. We want to reduce the cost of education at AU, making it more affordable to as many people as possible,” he adds.

Zunguza says eventually, the funds saved can be channeled towards infrastructure development, research labs and capacity building.

Ugandan Maria Kwikiriza, (25) who has asthma, sees the plant’s contribution to a clean environment as paramount.

“The campus is now quiet. The oil from the generator was affecting my breathing. We now have access to Wi-Fi all night, which is essential in our studying,” says Kwikiriza.

Zimbabwe, a country of 15.1 million people, has 62 percent electricity access and relies heavily on coal and hydropower for its energy needs. 

Contextually, that makes the impact of AU’s new solar plant multilayered, according to the vice- chancellor, Reverend Peter Mageto. By reducing its demand on the national grid, his institution is releasing electricity, which will hopefully improve access for surrounding communities. 

“We are glad that we are venturing into this so that the electricity supply authorities can provide electricity to the underserved communities,” Mageto says, adding that this project is part of the AU’s 2023-2027 Strategic Plan.

AU is working to generate 1.4 MW of solar power by October, enough to cover the university's farm and its residential areas. At plant completion, any excess electricity generated will be shared with the Old Mutare United Methodist Church Mission Centre, home to primary and secondary schools, a children’s home, and a 90-bed hospital.

“We will be able to save 1200 business units within Manicaland. Everyone within the region can now use that energy we would have been allocated,” says Garikayi.

The solar plant project’s wide-ranging impact is inspirational to Lumboa, who is now dreaming of replicating it in Angola.

“I was talking to my compatriots about taking this technology back home. It improves students’ welfare and boosts our confidence,” he says.

Contributed

Photos: Africa University

CAPTIONS

Local dignitaries join Africa University vice-chancellor, Prof. Peter Mageto (Kenya); Manicaland’s Minister of State for Provincial Affairs and Devolution, Advocate Misheck Mugadza (Zimbabwe); Africa University Zimbabwe Board Chair, Reverend Alfiado Zunguza (Mozambique); and Africa University Chancellor, Bishop Gaspar Domingos (Angola) in commissioning the solar plant

Hon Advocate Misheck Mugadza, Manicaland’s Minister of State for Provincial Affairs and Devolution graced the commissioning

Deputy vice-chancellor, Professor Talon Garikayi, an engineer, is overseeing Africa University’s solar power project

Education student Jose Lumboa from Angola says the solar plant improves students’ welfare and boosts their confidence

Phase one of AU’s solar plant installation features 590 solar panels, a 250 kilovolts inverter system, and a 600-kilowatt-hour battery bank

Sidebar:

In 2024, a punishing drought, fueled by El Niño, a climate phenomenon increasingly linked to climate change that can worsen dry spells or storms and lead to other extreme weather events, exacerbated electricity supply woes in Zimbabwe.

The water levels in Lake Kariba, home to the country’s main hydro power plant, which is shared with Zambia, dropped sharply. The authorities in the southern African country were forced to roll out load shedding schedules, sometimes lasting for more than 18 hours a day. 

The Lake Kariba hydroelectricity plant was generating less than 20 percent of its installation capacity of 1050 megawatts (MW) at the time.

By April 2024, the government declared the drought a national disaster – the worst in 40 years. Not only was hydroelectricity generation an issue, but more than half of Zimbabwe’s population had been made food insecure.

Government leaders present at the June 6 event lauded Africa University for its forward-thinking initiative and growing focus on sustainability research, environmental innovation and renewable energy solutions.

“As Manicaland’s premier institution of higher learning, and one of the continent’s most celebrated academic centres, Africa University continues to make us proud,” Advocate Misheck Mugadza, Manicaland’s Minister of State for Provincial Affairs and Devolution, said.

The Zimbabwe government, through its National Energy Policy, has announced plans to generate 2100MW of electricity by 2030 from renewable energy and biofuels like ethanol.