{"id":9494,"date":"2026-05-05T15:20:15","date_gmt":"2026-05-05T13:20:15","guid":{"rendered":"https:\/\/hch2.de\/?post_type=aktuelles&p=9494"},"modified":"2026-05-05T15:30:51","modified_gmt":"2026-05-05T13:30:51","slug":"challenge-load-flexibility","status":"publish","type":"aktuelles","link":"https:\/\/hch2.de\/en\/news\/challenge-load-flexibility\/","title":{"rendered":"Challenge: Load Flexibility"},"content":{"rendered":"\n
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Our name is a challenge: Helmholtz Cluster for a Sustainable and Infrastructure-Compatible Hydrogen Economy<\/a>. Anyone who presents it needs a short break afterwards due to its length. But it could have been even longer, as one crucial word is missing: load-flexible. <\/strong><\/p>\n\n\n\n

Load flexibility is essential for our climate-friendly energy future. While the sun and wind provide clean electricity, they do not always deliver when we need it most. Unlike natural gas, they cannot simply be turned up or down. Therefore, the energy system must become load-flexible \u2013 able to respond in a way that allows energy generation and consumption to continue to align, even though future inputs may fluctuate. Some of the fluctuations that renewables bring with them can be mitigated by storage technologies. Batteries and hydrogen storage complement each other well as buffer stores. But to convert the fluctuating input into a stable output, we need further innovation.

\u201cLoad flexibility is a central prerequisite for efficiently and cost-effectively integrating renewable energy into the energy system,\u201d says Dr. Sarah Deutz, who leads the expert team \u201cNew Methods of Process Synthesis\u201d at the Institute for a sustainable Hydrogen Economy in the Process and Plant Engineering<\/a> (IHE-4) division at Forschungszentrum J\u00fclich. Despite buffer storage, facilities, such as those synthesising ammonia<\/a>, still need to handle varying loads and pressures. \u201cThis presents many challenges. At the same time, load flexibility can help reduce the costs of green ammonia or green methanol, because we can make optimal use of inexpensive renewable electricity.\u201d<\/p>\n\n\n\n

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Dr. Sarah Deutz,<\/strong>
Team Leader, \u201cNew Methods of Process Synthesis\u201d at the Institute for a sustainable Hydrogen Economy in the Process and Plant Engineering Division<\/a> (IHE-4)<\/p>\n<\/blockquote>\n\n\n\n

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The Delicate Balance: Cost vs. Climate<\/strong><\/strong><\/h3>\n\n\n\n

Sarah Deutz speaks of conflicting goals. One example: In West Africa, a hydrogen production system based on electrolysis from renewable energy could work well, as there is inexpensive, constant green electricity and enough land available. However, if the electrolysis \u2013 the splitting of water into hydrogen and oxygen using electricity \u2013 results in a water shortage for agriculture, the price is too high. Additionally, load flexibility could lead to higher technical demands and increased material costs. \u201cAn energy transition that is technically feasible but so expensive that only a few can afford it will not work,\u201d describes Sarah Deutz, highlighting a crucial conflict of interest. <\/p>\n\n\n\n

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A Stress Test for Machines and Materials<\/strong><\/h3>\n\n\n\n

For the material, load flexibility presents particular challenges. A car that regularly cruises with cruise control at 110 km\/h experiences less material wear, despite higher mileage, than one that is constantly braking and accelerating. The same is true for energy converters \u2013 devices that transform electricity into chemical energy or vice versa. \u201cRegular load changes stress the construction and materials more than constant operation,\u201d explains Sarah Deutz.

An example illustrates how crucial load flexibility will be for the future hydrogen economy: methanol, CH\u2083OH. In a complex process, methanol synthesis, three hydrogen molecules (3 H\u2082) react with one carbon dioxide molecule (CO\u2082) to form methanol and water (H\u2082O). Methanol is a readily storable, lightly volatile liquid that is already well known. The hydrogen contained within it is much more compact and easier to transport: One litre of methanol corresponds to 1,100 litres of gaseous hydrogen. Methanol is also an important intermediate step in the production of dimethyl ether<\/a>.<\/p>\n\n\n\n

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Green Fluctuations<\/strong><\/h3>\n\n\n\n

The path to green methanol is not easy. It is based on green hydrogen, and therefore on green electricity. \u201cAs the amount of green electricity fluctuates, flexible operation of the electrolyser<\/a> is required. This accelerates the aging processes of the materials,\u201d explains Sarah Deutz. The same applies to the subsequent processes on the way to methanol. Hydrogen and carbon dioxide are mixed and heavily compressed. The compressor must be flexible, as must the reactor in which the heated gas mixture then reacts with the help of a catalyst to form methanol. The methanol is then cooled so that it condenses into a liquid. Finally, the raw methanol is purified in a distillation plant.

All of these steps are subject to fluctuations caused by the green electricity. \u201cWe need to weigh up to what extent we ride out electricity fluctuations. Frequent load changes can accelerate aging processes. It may therefore make sense to switch off the electrolyser at very low load to preserve the material. Each system needs its own balance. That\u2019s why we plan load flexibility from the outset, tailored to the location,\u201d says Sarah Deutz.

Chemical hydrogen carriers like methanol are very cost-effective storage options and thus enable decoupling of load-flexible production from consumption. \u201cMethanol is easy to store in large quantities. For the processes based on methanol, we can imagine large methanol stores that allow us to operate the following processes at a consistent load,\u201d explains Sarah Deutz, highlighting another advantage of chemical hydrogen storage such as methanol or ammonia: They alleviate the complex issue of load flexibility and enable a more affordable energy transition.<\/p>\n\n\n\n

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The copyright for the images used on this website is held by Forschungszentrum J\u00fclich, aligator kommunikation GmbH and
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