In a brand new Nature Communications research, researchers suggest a brand new methodology for hydrogen storage utilizing current pipes situated on the backside of lakes and reservoirs.
Hydrogen has surfaced as a promising various to fossil fuels for power technology in a number of industries. The main focus is particularly on inexperienced hydrogen, which is produced through electrolysis of water utilizing renewable power sources like photo voltaic, wind, and air.
Nonetheless, the broad adoption of inexperienced hydrogen has confronted challenges, primarily because of an absence of sufficient storage options.
This research recommends the usage of high-density polyethylene (HDPE) pipes as a method of storing inexperienced hydrogen. HDPE pipes are used on the backside of lakes, reservoirs, or hydropower storage programs for water administration.
Phys.org spoke to the research’s first writer, Dr. Julian David Hunt, a Analysis Scientist on the King Abdullah College of Science and Expertise (KAUST) in Saudi Arabia.
He identified that his previous work on compressed air power storage (CAES) within the deep sea impressed his exploration of recent methods for hydrogen storage.
Limitations of present storage options
A number of hydrogen storage choices can be found as we speak, various based mostly on how the hydrogen is being saved.
For instance, compressed hydrogen must be saved in specialised tanks below excessive strain, liquid hydrogen have to be saved at extraordinarily low temperatures, and underground storage options depend upon the precise area.
With region-dependent options, akin to salt caverns and depleted pure fuel reservoirs, the tactic will not be very scalable. It is because these sources might not be geographically out there the place hydrogen storage is required.
Dr. Hunt and his workforce’s use of HDPE pipes is a extra extensively relevant methodology as these pipes are already current on the backside of lakes, reservoirs, and different hydropower storage programs.
Nevertheless, pursuing this feature proved difficult due to the inadequate info concerning the underwater depths of ocean flooring, riverbeds, lakes, and different water our bodies.
Dr. Hunt mentioned, “The main issue is the lack of bathymetric data of lakes and reservoirs. Essentially, this data represents a topographic map of the seafloor or lakebed, providing information about the shape, features, and composition of submerged areas.”
Goal of HDPE pipes
The actual goal of the HDPE pipes is for water administration in water our bodies. They are often utilized to move water for quite a lot of functions, together with agriculture, client wants, and drainage.
The fabric is made to resist excessive pressures underwater, making it extremely sturdy and additionally it is proof against corrosion and degradation, making it appropriate for long-term use.
Moreover, gravel is added round these pipes to make sure they’re steady and do not transfer because of water currents, appearing as a assist for the pipes.
These components are additionally fascinating if HDPE pipes have to be used for hydrogen storage.
HDPE pipes as storage
Hydrogen might be injected into these pipes from the highest, pushing out the water into the pipes. Hydrogen must be saved at a sure strain to keep away from pointless growth or compression. That is naturally achieved because of the strain of the water column above the pipes.
By sustaining the inner hydrogen strain on the similar stage because the water strain exterior, the system ensures that the hydrogen doesn’t develop and exert stress on the pipes.
When water ranges and, consequently, water strain fluctuate, strain aid valves are in place to regulate the circulation of each water and hydrogen, thus sustaining a gradual strain within the pipes.
If heavy rain causes the water stage to rise, it will result in a rise in strain. In such a state of affairs, strain aid valves are used to withdraw hydrogen, letting within the extra water to take care of the strain within the pipe.
This solely works as a result of hydrogen is insoluble in water, making this course of innocent to aquatic life and minimizing environmental affect.
Countless potentialities
The researchers used information from the Oroville Reservoir in California to know the potential of the proposed storage answer.
They discovered that the levelized price of hydrogen storage utilizing their proposed methodology got here out to round 0.17 USD per kilogram at a depth of 200 meters in a 12 months.
They additional discovered that the tactic is extra space-efficient than solar energy technology, requiring about 38-times much less space for storage than for photo voltaic panel set up.
As well as, this expertise demonstrates nice versatility, making it suitable with present hydropower infrastructure. It might additionally accommodate various water ranges in reservoirs, thereby growing storage capability when these ranges rise.
The researchers additionally used information from synthetic lakes and reservoirs.
The information point out that the worldwide capability for hydrogen storage in lakes and reservoirs is estimated to be 15 PWh (petawatt-hours), comprising 12 PWh in pure lakes and three PWh in synthetic reservoirs.
The Caspian Sea alone represents greater than half of this potential (6.4 PWh).
“The possibility of storing hydrogen in hydropower reservoirs and lakes substantially increases the possible locations for large-scale hydrogen storage, particularly close to the demand for energy (cities, industrial districts) or renewable energy supply (solar, wind, and hydropower plants),” mentioned Dr. Hunt.
Future hydrogen economic system
“Hydrogen storage with gravel and pipes in lakes and reservoirs is a competitive alternative for long-term hydrogen storage and can support the development of future hydrogen economies,” defined Dr. Hunt.
Because the methodology makes use of current infrastructure, it’s cost-effective. Furthermore, since hydrogen is insoluble in water, this method poses no environmental threat.
Nevertheless, Dr. Hunt identified, “The main environmental impact is the existence of large pipelines at the bottom of the lake/reservoir, which could disrupt the fauna and flora at the bottom of the reservoir.”
The shortage of complete information on this space is a little bit of an issue, with Dr. Hunt hinting it could possibly be an space of analysis he wish to discover.
“An interesting research [topic] would be to combine all the possible options for large-scale hydrogen storage in one database, including geological, reservoirs, lakes, and oceanic storage,” he concluded.
Extra info:
Julian David Hunt et al, Hydrogen storage with gravel and pipes in lakes and reservoirs, Nature Communications (2024). DOI: 10.1038/s41467-024-52237-1.
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