Published in the Renewable and Sustainable Energy Reviews Journal, Doctoral Researcher Mulako Mukelabai and Dr. Richard Blanchard of Loughborough University and their teams focused on the role hydrogen can play in decarbonising Africa’s predicted future greenhouse gas emissions.

Several studies have evaluated the potential of hydrogen in Africa, but this paper is the first to look at hydrogen potential at a country-level and assess communities’ water and energy access needs, transportation systems, and costs.

It studied how solar power, concentrated solar power (a method that converts the sun’s energy using various mirror configurations to drive a heat engine and produce electrical power), wind power, and biohydrogen (hydrogen that is produced biologically) could be used to power electrolysis to produce green hydrogen.

Using techno-economic comparative analysis techniques, the research concluded:

Africa has solar power, concentrated solar power, wind power, and biohydrogen resource potential for significant hydrogen production; it is predicted Africa could produce a total of 16bn tonnes of hydrogen per year
Renewable water resources and electricity access are key enablers and so act as constraints in hydrogen production
Sustainable solutions, such as long-distance water transportation, can overcome such barriers and also benefit African communities by providing clean water access
The long-distance export of green hydrogen to markets is critical in propelling the hydrogen economy in Africa and can be done so using a method known as ‘high voltage direct current system’, which is three times cheaper than exporting liquid hydrogen and 20 times cheaper than exporting compressed hydrogen
Hydrogen is used to make ammonia and partnering with markets that use ammonia, such as the fertiliser industry, will enhance opportunities for successful renewable hydrogen adoption
Working with local ammonia markets will also help propel a self-sufficient African food system as, currently, 10,5bn tonnes of hydrogen a year is required for ammonia production to meet Africa’s current fertiliser demand
Regional hydrogen partnerships can catalyse the driving down of costs and investment risks associated with Africa.

Despite Africa’s carbon footprint accounting for 3% of global greenhouse gases due to current low economic activity, it heavily relies on traditional biomass fuels – such as wood and coal – to meet daily energy requirements.

Using such fuels not only contributes to global warming by releasing large amounts of carbon dioxide (CO2), burning biomass also emits harmful gases that threaten people’s health and it contributes to unmanaged deforestation.

Africa’s rapid population and economic growth are expected to increase the continent’s energy consumption, so meeting this growing demand is key to mitigating emissions and enabling Africa’s growth. Most of the current global hydrogen (80%) is produced through carbon-intensive methods involving methane. However, hydrogen can be produced through electrolysis.

Mulako said its potential forecasts are 24 times more than the forecasted 2050 global hydrogen demand.

He said, “But this enormous hydrogen potential can worsen the water and electricity access in Africa, especially with the onset of long-distance hydrogen trade. However, there is hope because we have provided sustainable solutions such as long-distance water transportation. Transporting water for hydrogen production and drinking can solve these issues through developing regional or interregional water transportation networks.”

The goal when creating a hydrogen economy should be to ensure access to electricity, clean and safe drinking water, and wealth distribution, he added, otherwise the hydrogen economy may repeat the same profit-driven values of the oil and gas industry.

Dr. Blanchard believes the paper shows that Africa could do a ‘technological leap-frog’. He said: “What we can infer is there is an opportunity for Africa to jump to a hydrogen economy by passing the need for large-scale fossil fuel power plants. This technological leap-frog has already happened with mobile phones and mobile banking where hard-wired infrastructure are not always needed.”

Professor Wijayantha added that Africa not only has all the raw materials necessary to produce green hydrogen, but the continent also has excellent platforms for collaborations in the form of regional economic associations.

“If the right investment environment is created, Africa has the potential to thrive the hydrogen economy and significantly contribute to reducing the global emission levels,” he said.

The research dovetails with a recent report from the Africa Green Hydrogen Alliance, which found green hydrogen can sustainably industrialise Africa and boost GDP by up to 12% in the six countries of the alliance.

Read more:  Green hydrogen can ‘sustainably industrialise’ Africa

And the latest forecasts far exceed those contained in a joint report by Masdar and Abu Dhabi Sustainability Week, which stated 30-60 million tonnes of hydrogen could be produced annually on the continent.

Read more:  Africa could produce 30-60 million tonnes of hydrogen annually