Can the Middle East open the door to affordable clean hydrogen?

Image: Ghadir Shaar

A report by the International Renewable Energy Agency (IRENA) has suggested affordable green hydrogen could already be obtainable, based on the record-breaking low prices for solar negotiated in the Middle East.

Solar electricity tariffs of $0.0157, $0.0135 and $0.0104 per kilowatt-hour agreed in Qatar, the United Arab Emirates and Saudi Arabia, respectively, in the last 18 months, would enable renewables-powered hydrogen to be produced for as little as $1.62 per kilogram, according to IRENA's Renewable Power Generation Costs in 2020 report.

The Abu Dhabi-based international body made its calculations – all of which are in U.S. dollars – based on the $0.0104 solar power tariff agreed in Saudi Arabia in April, with green hydrogen generation being modeled at the Dumat al Jandal site in the kingdom which boasts strong solar and wind power resources. With the site already hosting a wind farm, IRENA modeled a hydrogen plant which would also harness solar and be connected to the grid. The report suggested lack of a grid connection would raise the renewable hydrogen cost to $1.74/kg, which still compares favorably to the current $1.45-2.40/kg price of hydrogen production powered by natural gas and equipped with carbon capture and storage (CCS) tech.

Further extrapolating the costs, the study estimated a fall in hydrogen electrolyzer costs, from $750 per kilowatt of capacity to $350, would enable renewable hydrogen production for $1.16/kg. Raising electrolyzer efficiency to 72.5% and extending stack lifetime from 15 to 17.5 on top of that, IRENA said, could take green hydrogen below the prized $1/kg point.

With this year's renewables price report explaining how the three tariffs secured in the Middle East since January 2020 can be regarded as viable without any hidden caveats or subsidy, the authors of the study stated: “low-cost renewable hydrogen may already be in reach.”

The document fleshed out how up to 800 GW of coal-fired power generation capacity worldwide could already be replaced by newly-built renewable energy facilities as solar and wind prices have dipped under the cost of running legacy fossil fuel plants in many markets. That estimate included a $5/MWh cost of integrating renewables into the electric grid and IRENA said, with around 40% of that overpriced capacity – and 37% of actual generation – based in Bulgaria, Germany, India and the United States, decommissioning could save around $32 billion per year in energy costs. Making the switch would also eliminate three gigatons of carbon emissions – 20% of what IRENA estimates is needed to keep global heating to a maximum 1.5 degrees Celsius this century.

The data

The latest edition of the report is based on data from around 20,000 renewables generation facilities worldwide which account for 1.9 TW of generation capacity, and on clean energy auction prices and power purchase agreements which add up to 582 GW of capacity. All the figures in the study exclude any form of subsidy and the authors point out, adding CCS to the world's overpriced coal plants would merely drive up their costs further.

IRENA has estimated all of Bulgaria and Germany‘s coal plants will this year cost electricity bill payers more than new renewables facilities would, based on a European carbon emissions price of €50 per ton. Even without an emissions trading scheme in the U.S. and India, the picture is similar, with 77-91% of American coal plants and 87-91% of Indian facilities also overpriced.

That conclusion is based on an estimated levelized cost of energy (LCOE) for solar power in India this year of $0.033/kWh, down from $0.038 last year; and of $0.031 in the States this year, although the report's authors note the solar module price has picked up between 1% and 9% in the first quarter of this year, thanks to shortages of raw materials such as polysilicon.

With the global LCOE of solar having fallen 7% from 2019 to last year, from $0.061 to $0.057/kWh, India led the world for low-price PV last year, with an average LCOE of $0.038/kWh for utility scale generation, ahead of China, with $0.044, and Spain, with $0.046. The authors noted Turkey also rapidly reduced average solar tariffs, to $0.052 last year, and Australia posted an average $0.057.

That translated into average solar project development costs of $596 per kilowatt installed in India, the world's lowest figure and down 8% from Indian costs in 2019. Solar projects in Vietnam came in to $949/kW and were only $796/kW in Spain last year, the report added. At the other end of the scale, projects in Russia cost $1,889/kW and, in Japan, $1,832, with those two countries exceptional among the 19 markets studied as the cost differences between areas from Canada (at $1,275/kW) down to India, were more evenly distributed.

Auction results posted last year, for projects expected to be commissioned this year and next, prompted IRENA to estimate the global average solar power price will fall to $0.039/kWh this year before rising slightly to $0.04 next year, which would still be a 30% fall on this year's figure and 27% less than the LCOE to be expected from new-build coal plants. With the predictions based on 18.8 GW of renewables capacity expected this year and 26.7 GW due in 2022, the study estimated 74% of the clean energy facilities expected this year and next will be cheaper than new fossil fuel generation sites.

Cheaper

Renewables are already making real headway, of course, with IRENA calculating 45.5 GW of the solar added last year was among the 62% of the 162 GW of clean energy facilities which were installed more cheaply than new-build coal plants.

Digging into the solar statistics, the report said mainstream solar panel costs in December ranged from $0.19 to $0.40 per Watt, for an average price of $0.27, with thin-film products averaging $0.28/W.

Operations and maintenance costs came in at an average of $17.80/kW last year in OECD countries and $9 elsewhere, in a year which also saw non-panel, balance-of-system equipment costs account for 65% of total project expense.

For residential solar arrays, average system prices in the 19 markets studied by IRENA ranged from $658/kW in India to $4,236 in California, for LCOE figures from $0.055/kWh in India to $0.236 in the U.K. For commercial systems, India was again the cheapest place to invest last year, at an average $651/kW, but a business in California would have to find $2,974/kW. Those system costs translated into LCOE numbers ranging between $0.055 in India and $0.19 in Massachusetts.

This article originally appeared on pv-magazine-usa.com, and has been republished with permission by pv magazine (www.pv-magazine.com and www.pv-magazine-usa.com).

Early this year Adani announced his company’s goal to become the world’s largest solar power company by 2025 and the largest renewable power company by 2030.

Image: Life tech/Flickr

Covid-19 presents an opportunity to pause, rethink, and design a new and faster transition to a cleaner energy future, said Adani Group chairman Gautam Adani recently in his LinkedIn post.

“The [clean energy] transition could lead to investment opportunities of US$ 19 trillion in solar, wind, battery storage, green Hydrogen, carbon management and energy efficiency by 2050, making it one of the largest global industries”—Adani quoted a recent forecast by the International Renewable Energy Agency (IRENA).

“Employment in the clean energy sector, currently at 12 million in 2020, could quadruple by 2050, while jobs in energy efficiency and system flexibility could grow by another 40 million.”

Adani believes India, in particular, is well-positioned to benefit from the transition as it is naturally endowed with very high levels of solar resources, and the long coastline makes an attractive proposition for wind power.

Falling solar prices in favour

With technology driving prices down, renewables would supplement fossil fuels in the short term and emerge as the favoured option in the long term.

Adani quoted an MIT research paper to share that the price of solar modules has dropped 99% over the past 40 years. Going by the trend, he expects prices to drop by an additional 99% over the next 40 years – probably reducing the marginal cost of electricity to zero.

“Such a reduction, in turn, will mean the coexistence of two business models – one based on fossil fuels and the other driven by renewables – both supplementing each other in the near future but the pendulum swinging decidedly in favour of renewables in the long-term,” he wrote.

Adani said many of the [power] system operators in Europe, faced with falling [electricity] demand, are learning to manage grids at a remarkably high level of renewables in the energy mix, often up to 70%.

“While the generation balance may swing back as [electricity] demand increases, the crisis has provided insights to operators on keeping the grid stable with high levels of renewable penetration. Post Covid-19, this may be the new norm,” he said.

Hydrogen storage, a potential game changer

With increasing investor confidence in solar and wind, their integration with various storage technologies will further accelerate the energy transition, said Adani, highlighting hydrogen as the predominant storage technology on the horizon.

“With the prospect of the future marginal cost of renewable energy dropping precipitously, green Hydrogen produced by the splitting water could be the game-changer.

“This Hydrogen could use much of the existing gas pipeline network for distribution, be blended with natural gas and be a green feedstock for the chemical industry. Add to this the fact that the energy density of a kilogram of Hydrogen is almost three times that of gasoline, and you have a momentum that would be near impossible to stop as Hydrogen fuel cell vehicle prices come down,” he said.

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This article originally appeared on pv-magazine-india.com, and has been republished with permission by pv magazine (www.pv-magazine.com and www.pv-magazine-india.com.)