Faced with high costs, midstream transportation challenges, and the slow development of demand, the low-carbon hydrogen economy faces lowered expectations around its growth in the near term. Developers and consumers continue exploring alternative forms of low-carbon hydrogen, among them white hydrogen.
White hydrogen’s superpower is that — unlike alternatives such as green or blue, which require inefficient conversion processes — it comes ready-made and at a much lower cost. With their exploration and development expertise, oil and gas companies are well-placed to become champions of this emerging low-carbon molecule.
The world needs low-carbon hydrogen to decarbonize. Some suggest that naturally occurring hydrogen could be a potential market disruptor — but, as a nascent industry only now beginning to gain ground, there are currently many questions surrounding white hydrogen and its potential.
Here are five of the most important questions about white hydrogen answered.
1. What is white hydrogen?
Like oil and gas, white hydrogen is naturally occurring. Generated by continuous geochemical reactions in hard rock, white hydrogen’s characteristics differ from hydrocarbon molecules in that they are small and light and more likely to escape cap rocks.
More research is still required, with practical field experience and data collection needed to establish the key components of a hydrogen play.
2. Why is white hydrogen generating interest right now?
The world needs low-carbon hydrogen to decarbonize. Global low-carbon hydrogen demand is forecast to reach almost 200 Mtpa (million tonnes per annum) by 2050, up from 1 Mtpa today in WoodMac’s base case, with green hydrogen supply meeting the bulk of this future demand.
Green hydrogen’s production costs, though, remain stubbornly high, with a range as wide as US$6/kg to US$12/kg. This is driven by green hydrogen’s need for high availability of renewable power for electrolysis. It will also depend for years on substantial subsidies to work towards a commercial threshold in the range of US$3/kg.
White hydrogen offers a much cheaper alternative resource. Without the need for inefficient energy conversion or manufacturing processes, white hydrogen produced at scale from reservoirs sited close to end-user markets could be delivered well below US$1/kg. The co-existence of helium may also offer a valuable commercial lever for white hydrogen exploitation.
3. How significant an energy source could white hydrogen become?
White hydrogen is not an energy transition panacea. Currently, WoodMac estimates that alternative forms of low-carbon hydrogen production — including methane pyrolysis, gasification and the extraction of naturally occurring white hydrogen — combined will form only a small portion of future supply.
This outlook may change in the coming decade if successful pilot projects prove technical and commercial feasibility and supportive policy frameworks are introduced. Based on prospective resource volumes, white hydrogen production could reach 17 Mtpa by 2050. Capturing similar levels of subsidy support to green hydrogen would also significantly boost infrastructure, displacing some higher-cost manufactured hydrogen production.
4. Who is involved?
The white hydrogen industry is truly nascent. A handful of innovators backed by private investment are leading the way in trying to understand the prospective resource. To date, the only operational white hydrogen project is the Bourakébougou field in Mali, which delivers electricity to a small village.
Globally, some countries are considering the opportunity to develop white hydrogen, enabling exploration-led activity through amendments to existing petroleum and mining codes. But regulating the unknown is never straightforward. In Europe, France has led the way in recognizing the potential of white hydrogen, modifying its mining code as a result, whereas the German government has announced it sees no extraction opportunity in naturally occurring hydrogen. Australia is a hotspot for exploration activity, an outcome of several regional governments adding it to the list of regulated substances and allocating budgets and grants.
5. Can oil and gas companies lead the way?
With significant work needed to gain a full technical understanding of how hydrogen molecules are generated and stored in the subsurface, petroleum industry techniques are critical to unlocking white hydrogen.
With their subsurface expertise, white hydrogen should hit the sweet spot for oil and gas companies. Given the right regulations and incentives, governments could enable exploration opportunities for these companies and kick-start the sector. Block licensing, exploration and appraisal drilling and fiscal terms could broadly mirror those for oil and gas.
Oil and gas companies also have the capital to drive white hydrogen forward, just as they are doing with carbon capture, utilization and storage. This could prove transformational, as even the most advanced white hydrogen projects being led by small privately backed startups still lack firm timeframes to Final Investment Decision and face significant obstacles.
Still unproven, white hydrogen has the potential to form part of the future portfolio of low-carbon molecules for some oil and gas companies, which will also include biomethane, e-methane, blue and green hydrogen and its derivatives. Indeed, white hydrogen would likely displace some blue and green developments. Technology, capital and regulation hold the key.
With thanks to Kate Adie, Research Analyst, Subsurface, Wood Mackenzie and Gavin Thompson, Vice Chairman, Energy – Europe, Middle East & Africa, Wood Mackenzie.
This article previously appeared in the World Economic Forum.