South Africa has huge 'green fuels' potential. But it needs to act now

10th January 2020

     

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The ConversationIn this opinion piece, first published in The Conversation, professors David Walwyn and Rod Crompton make the case for South Africa to pay greater research and development attention to the production of green hydrogen using a combination of wind and solar power and electrolysers. In addition, they call for a combined government-Sasol effort to pilot the conversion of that green hydrogen into cleaner aviation fuels using Sasol’s installed Fischer Tropsch fleet.

South Africa needs to seriously start thinking about shifting its energy focus. This is for two reasons.

The first is that the country’s important exports – coal and platinum – face potential collapse with the imminent shift of global energy markets. A number of factors are driving this.

The move away from vehicles powered by petrol and diesel to ones powered by electric batteries is gathering pace. Two thirds of the demand for platinum depends on combustion engines where it is used for the hardening of spark plug tips and in vehicle exhaust auto-catalysts.

The second major reason that the country needs to refocus its energy situation is there’s a major switch from coal to renewables underway in the world. And South Africa itself can’t continue its current levels of dependency on coal. South Africa is the 14th largest emitter of carbon dioxide, and on a per capita basis, the 10th largest emitter. It leads the pack in Africa, and already faces considerable environmental issues in Mpumalanga, where state energy provider Eskom’s coal fired power stations and Sasol’s coal-to-liquid plant are located.

Sasol and Eskom account for more than 50% of the country’s carbon emissions.

It can address both these challenges by pursuing a feasible solution waiting to be exploited. The country could make use of its natural comparative advantages in wind and solar power to generate electricity. By linking these accessible resources to technologies such as Fischer-Tropsch, it’s in an ideal position to open another chapter in export-led economic development.

The Fischer-Tropsch technology was developed to exploit coal by converting the mixture of carbon monoxide and hydrogen – produced by heating coal at high temperature in a process known as gasification – to liquid fuels. The process was introduced into South Africa in the 1950s to reduce the country’s reliance on imported oil. Sasol is now a global leader in the technology and has more experience than any other company in the conversion of hydrocarbon gas to liquid fuels.

Moving in this direction also presents a golden opportunity for South Africa to transition from being a key contributor to global warming to becoming a key contributor to global emissions reductions.

The technology

South Africa can use its supply of solar and wind to produce hydrogen from water in a process known as hydrolysis. A cheap and reliable source of hydrogen is essential for the production of green fuels. To date, this technology has been too expensive. But advances in fuel cells have made large-scale hydrogen production cheaper and more accessible. More importantly, if the hydrogen is made with renewable energy, it is a “green” feedstock.

The green hydrogen can then be combined with carbon, captured from existing flue gas or from the air, to make liquid fuels and petrochemicals using Fischer-Tropsch technology. The present Sasol technology relies on coal as the source of carbon and is unsustainable. The possible innovation – which South Africa is in a prime position to exploit – will be to combine green carbon with green hydrogen to make liquid fuel.

There are substantial export opportunities for such “green” fuels and petrochemicals. This market could generate export revenue to replace lost revenues from declining coal and platinum exports.

The green hydrogen could also substitute fertiliser and explosives imports. About 60% of South Africa’s fertiliser is presently imported. The hydrogen could be combined with nitrogen from the air to make ammonia using the well-established Haber process, and the ammonia then converted firstly to ammonium nitrate and then to fertiliser and explosives.

The hydrogen step undertaken with fuel cells would create local demand for platinum because the metal is used as the catalyst in hydrogen fuel cells. In addition, the renewable power stations could provide cheap power to supplement Eskom’s constrained supply.

These new industries would have two knock-on effects: they would create jobs and the would move the country towards zero carbon emissions.

The jet fuel opportunity

One of the “green fuels” that has huge potential is jet fuel.

The aviation industry is under intense pressure to find alternatives to fossil fuels and reduce its emissions. This isn’t surprising. The total global market for aviation fuel is about $300-billion and air travel accounts for 2.5% of the global carbon emissions. This is equivalent to 900-million tonnes of carbon dioxide. This value could triple by 2050 and consume 25% of the global carbon budget.

This demand could be replaced entirely by the advent of green liquid fuels, produced from green hydrogen and carbon captured from the atmosphere.

The market for green aviation fuel is an attractive possibility for South Africa. To date, a viable solution has not been possible. Now, this outlook has changed with the possibility of fuel-cell hydrogen and technologies for carbon capture.

Three other technologies also matter: wind and solar power, as well as Fischer Tropsch technology. These are all well established in South Africa. The country’s renewable power bidding rounds have shown wind and solar power to be the lowest cost source of power. And Sasol has been operating Fischer Tropsch reactors for over 50 years.

Unfortunately, South Africa’s public-funded research and development efforts have been directed mainly into how to use hydrogen, instead of how to make hydrogen. It has been focused on using hydrogen to beneficiate platinum (processing it to enhance its properties) for vehicle fuel cells instead of concentrating on finding a commercial source of hydrogen which could be used in multiple applications. For its part, Sasol has made a substantial research and development effort, but it is not looking at lowering the costs of hydrolysis.

Government should shift the focus of research and development spending in partnership with Sasol to tackle this challenge and open a new cleaner, greener chapter in South Africa’s history.

Internationally several pilot facilities are in construction or are being planned. But they don’t have South Africa’s natural advantage in wind and solar resources. Nor do they have South Africa’s experience with Fischer Tropsch technology.

Looking ahead

South Africa has key ingredients it should be exploiting to fill an export gap, and to reduce emissions. It should seize a first-mover advantage.

But will the South African government and Sasol make the necessary moves? Given the potential for local employment, rescuing the platinum industry, reducing the country’s carbon emissions and earning much needed foreign exchange, it seems a logical decision.

Written by David Richard Walwyn, Professor of Technology Management, University of Pretoria and Rod Crompton, Adjunct professor African Energy Leadership Centre Wits Business School, University of the Witwatersrand

This article is republished from The Conversation under a Creative Commons license. Read the original article.

Edited by Creamer Media Reporter

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