ERTC 2022
Insights from Shell Rheinland’s transition to net zero
Jörg Dehmel Shell Energy and Chemicals Park Rheinland
building units that will convert more than 30,000 t/y of hard-to-recycle plas- tic waste into pyrolysis oil that will feed Rheinland’s revamped steam cracker and also the one at Moerdijk. Although the projects mentioned above will help to reduce the emissions that come from our customers’ use of our products – the 85% I mentioned at the beginning – they will not address the 15% of emissions that come from our operations. For those, we are con- tinuing to implement energy-efficiency improvements and are also explor- ing carbon capture and storage (CCS) opportunities. For example, we are involved in a project that would see emissions cap- tured from Rheinland and other indus- trial facilities transported through the Netherlands and stored in an empty gas field beneath the North Sea. This is the Delta Corridor clean hydrogen and CCS project, which involves a consortium of companies and expects to avoid and abate 22 Mt/y of emissions. Shell’s ambition is for Rheinland to become a platform for sustainable value chains by 2030, as shown in Figure 2 . Then, we will have both a much more varied feed slate and a more diversi- fied product portfolio. Furthermore, all the projects mentioned above will com- bine as part of the integrated asset and enable optimisation among different ele- ments, from mobility and heating through to growth areas such as performance chemicals, lubricants, and bitumen. This is likely to be particularly important as demand is set to decline for mobility products and grow for chemicals. Conclusion So what does all of this mean for other refiners? I believe our experience at Rheinland provides some important lessons. First, refiners cannot do it on their own. We have to take our customers with us on this journey, so working with the sectors that use the energy we pro- vide, and helping them find their own paths to net zero, is essential. Second, integration is key. It enables you to optimise your product slate and deliver, for example, growth chemicals as well as low-carbon mobility energy products. Third, this is happening! Tackling cli- mate change is an urgent challenge, and projects take time to be delivered. Perhaps the decarbonisation projects that refiners may need to start imple- menting will involve a different level of risk than they are used to, but our expe- rience at Rheinland is demonstrating a path for refineries to decarbonise.
When a refiner is defining its decarboni- sation plans, it is likely to face a daunting realisation: of all the carbon dioxide (CO₂) emissions for which it is responsible, only about 15% are from the site’s operations. The other 85% come from the end cus- tomers who use those products, for exam- ple, for mobility or heating. And that refiner can only address those emissions by trans- forming its entire asset. In my role as transformation man- ager at Shell Energy and Chemicals Park Rheinland – the former Rheinland refinery – I have first-hand experience of the size of this challenge, and in this article I would like to share some insights that could help others on their energy transition journeys. Unfortunately, there is no low-hanging fruit. You must change your feeds: move away from crude oil towards renewable and circular sources such as solar and wind energy, plastic waste, and biomass. And you must change your product portfo- lio: your diversified product slate will likely need to include renewable-energy-derived hydrogen, biofuels, and sustainable avia- tion fuel (SAF), for example. But it can be done, and two of the keys are integration and collaboration. Shell Rheinland today Change is happening quickly at Rheinland, and observers are often surprised at the progress we have made already. For example, we have been provid- ing green hydrogen since 2021 when, together with our partners, we built Europe’s largest electrolyser, Refhyne I (see Figure 1 ). This converts solar and off- shore wind energy into green hydrogen, which is helping hard-to-abate industries, such as road freight and heavy industry, to decarbonise. However, this is only the first step, and Refhyne II, when it goes ahead, will expand the electrolyser’s capacity from 10 to 100 MW. We are also evalu- ating projects that envision this hydrogen being used to refine biofuels and even pro- duce power-to-liquids (PTL) sustainable aviation fuels that are an exciting option for fuelling aircraft. We are also providing biofuels. In 2019, we began co-processing vegetable oils alongside conventional crude oil feeds in an existing hydrotreater. One of the inter- esting things here is that this can produce renewable diesel, renewable kerosene, and also renewable naphtha, which can be used to make biochemicals, so all the key markets can be served. However, the amount of renewable feed- stock that can be used in co-processing is limited to about 10%, so we are devel- oping plans to move to 100% renewa- ble feedstocks such as used cooking oil, waste animal fat, and other industrial and agricultural residual products. This will involve building a dedicated biofuels unit similar to the 820,000 t/y hydropro- cessed esters and fatty acids unit cur-
PTL for aviation
Green hydrogen Re f hyne I 10 MW Re f hyne II 100 MW
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Green Hydrogen for industry
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Fed into electrical grid
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Figure 1 Through the Refhyne projects, Shell is scaling up green hydrogen production for road transport, industry, and aviation
rently under construction at Shell Energy and Chemicals Park Rotterdam, the Netherlands. This will be one of Europe’s largest biofuels facilities and is based on the Shell Renewable Refining Process and Shell Renewable Catalysts, both of which are available from Shell Catalysts & Technologies. Crucially, SAF could be more than 75% of the over 800,000 t/y capacity of our biofuels unit’s output, with the rest being renewable diesel and renewable naph- tha. SAF currently accounts for only about 0.1% of global aviation fuel, and Shell’s investment will help increase this, which is vital if aviation is to cut its carbon emissions. BioLNG – liquefied natural gas (LNG) from organic waste such as manure, agri- cultural waste, food scraps, and expired food products – is another low-carbon product that the site will soon add to its product portfolio. We started building a bioLNG production facility at Rheinland in early 2022, and we expect this to be oper- ational in 2023 and to save up to 1 Mt/y of CO₂ emissions from road transport. Two factors make bioLNG particularly interesting. First, it can be used in exist- ing LNG engines and filling stations with- out any need for modifications, which means it offers an important short-term step towards cleaner road transport. Second, it is ideal for heavy-duty road
transport, for which electrification is a major challenge, so it offers a solution as a transition fuel. Another vitally important project at Rheinland relates to the production of sustainable chemicals from plastic waste. Shell has an ambition to process 1 Mt/y did you know Shell’s ambition is for Rheinland to become a platform for sustainable value chains by 2030? of plastic waste in its global chemicals plants by 2025 and is already process- ing hard-to-recycle plastics at its Norco (USA) and Moerdijk (the Netherlands) sites. Next year, after we have revamped the steam cracker, Rheinland will also have this capability. Of course, you also need pyrolysis oil, and for this Shell has invested in BlueAlp and its technology, which transforms hard-to-recycle plastic waste into pyrol- ysis oil. Together, Shell and BlueAlp are
Bio fuel LNG SAF
Lubricants Bitumen Performance chemicals
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Supplying industry partners in NRW
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Carbon capture and storage
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Contacts: joerg.dehmel@shell.com, chris.egby@shell.com
Figure 2 Shell’s Rheinland site is quickly transforming to meet the goal of being a plat- form for sustainable value chains by 2030
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