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Topsoe´s ReFRESH™ technology offers you the opportunity to use Haldor Topsoe catalysts twice for maximum economic benefit by reactivation of the catalytically active sites. Activity up to 95+ % of fresh catalyst is restored. The technology is commercially proven with more than 65 references and applicable for spent BRIM® and HyBRIM™ catalysts. The ReFRESH™ technology is a specialized method of metal redistribution – available only from Topsoe ...
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Slash your hydrogen production costs
By utilizing low value, excess fuel gas, you can reduce your consumption of costly traditional hydrogen plant feedstocks, such as natural gas, LPG, butane or naphtha. Upgrading fuel gas produced onsite is a proven way to significantly cut the cost of your hydrogen production. Refinery fuel gases are an attractive feedstock option. However, impure RFG feeds can cause problems in the feedstock purification section. With Haldor Topsoe’s fuel gas hydrotreating (FGH) technology, ...
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Squeeze more value out of your FCC gasoline
As sulfur legislations tighten, it becomes more difficult for refiners to meet the specifications from their FCC gasoline post-treatment units. Particularly the octane number poses challenges, since some olefins are simultaneously being hydrogenated. The consequent loss of octane often prevents the refineries from achieving maximum value. Topsoe’s series of HyOctane™ catalysts are specifically developed for all steps in FCC gasoline post-treatment applications. ...
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Topsoe refinery Research & Development
Providing refiners with the best catalysts on the market would be impossible without the innovative ideas from Topsoe R&D. Combined with the knowledge obtained from our pilot plant units, catalyst development is essential to providing high-performing, customized solutions. Topsoe’s research facilities in Denmark have more than 50 hydroprocessing pilot plant units with more than 100 catalytic reactors for catalyst screening and process studies, including dedicated ...
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Ensuring optimal utilization of all hydroprocessing units, hydrogen and catalyst. Refiners often face bottlenecks and challenges at their different units. Many times, these are solved within the refinery itself, and only considering a single or maybe a few units. With Topsoe Stream Management the feed and product pool is assessed applying Topsoes advanced proprietary models. That provides a performance optimization at a level unreachable by the refinery alone. Within the past ...
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Want to make ULSG from your FCC unit?
Topsoe’s new superior FCC pretreatment catalysts provide high HDN as well as HDS. Legislations worldwide push towards lower sulfur emissions from diesel and gasoline vehicles, forcing refiners to rethink their fixed assets to meet new product specifications. Topsoe’s new HyBRIM™ catalysts allow for more severe FCC feed pretreating which ultimately improves operation of the FCC unit leading to better products. TK-569 HyBRIM™ offers the highest activity ...
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Want to remove particles from your naphtha gas phase?
Topsoe’s gas phase scale catcher effectively removes particles from the process stream and prevents reduction of bed void fraction and pressure drop build up. Particles entering with the gas, are often preventing units from optimal performance. Topsoe has developed a gas phase scale catcher, which is especially designed to catch all sizes of particles from the gas stream. Installation of the technology can significantly prolong the cycle lengths of units suffering from pressure ...
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Wet gas sulfuric acid - profitable sulfur management
The WSA technology is an excellent alternative to the Claus technology for sulfur management within oil refining, coal gasification, gas sweetening etc. High steam production, feed flexibility, ease of operation, and low CAPEX & OPEX are some key benefits for the operator when selecting the WSA technology. Today we have +130 references world wide.
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When reliable operation and easy inspection is key
Topsoe’s outlet collector is easy to install and inspect and help ensure even flow distribution in the bottom of the reactor. It is important to have the best catalyst to ensure optimal performance of your hydroprocessing unit. However, it is equally important to have the best reactor internals to ensure the optimal flow conditions for the catalytic reactions in your reactor. Topsoe’s outlet collector ensures even flow distribution in the bottom bed thereby maximizing ...
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Maximizing renewable diesel and sustainable aviation fuel yields with ISOTERRA Technology
Investments in renewable diesel (RD) and sustainable aviation fuel (SAF) production are gaining considerable momentum and are expected to play a vital role in reducing carbon emissions for heavy-duty transportation. Currently, the majority of these projects focus on the production of HEFA (Hydroprocessed Esters and Fatty Acids). Chevron Lummus Global combines the renewable processing catalyst experience and technology of ART's ENDEAVOR™ catalyst system, CLG's hydroprocessing ...
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Low cost production of renewable diesel and SAF with BioFlux™ Hydrotreating Technology
Feed flexibility is critical for operators to stay competitive and deliver high-quality products. But diversifying your feed can bring its own set of challenges. It gets even trickier when working with renewable feedstocks from biological sources. These materials are highly olefinic and might be packed with heteroatom contaminants. To turn them into something valuable, you need substantially more hydrogen than you would for conventional petroleum hydrotreating. We're talking 1,700 ...
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An introduction to Sinopec Hydrocracking Technologies
This webinar gives you an overview and understanding of hydrocracking and its applications, with an emphasis on technologies and catalysts developed by Sinopec and its research arm, Sinopec Fushun Research Institute of Petroleum and Petrochemicals (Sinopec FRIPP). You will first get an introduction to hydrocracking including feed processing and target output products. Commercial considerations include market share and reference installations such as 40 hydrocracking units designed ...
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Steam Cracker recycle processing and product upgrade options
LPG and light naphtha generated in a refinery complex (from both straight-run and conversion units) are sent to the ethylene cracker as feedstock. There is more i-paraffin than n-paraffin in LPG and light naphtha generated from a hydrocracker and reformer, in particular, i-butane and i-pentane. When cracking i-paraffin and n-paraffin separately in an ethylene cracker, the yield of ethylene and propylene is different; n-paraffin can generate 20wt% of “ethylene + propylene + butadiene” ...
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Maximising naphtha through hydrocracking: Refinery of the future
Globally the demand for petrochemicals is increasing at rates nearly 1.5 times GDP. In regions where there is a heavy investment in large-scale para-xylene capacity there is a significant demand for naphtha. However not all naphtha is suitable to produce aromatics. Heavy naphtha is required, but it is in limited supply. This is where the Honeywell UOP UnicrackingTM process becomes the key enabler to petrochemical production. By installing one, or a combination of Unicracking ...