Hassen NASFI的动态

''Advancing Steam Reforming with Superior Catalytic Performance'' Clariant ReforMax? 210 LDP is a high-performance, potassium-promoted, nickel-based catalyst specifically designed for steam reforming of hydrocarbon feedstocks, such as natural gas (NG) and liquefied petroleum gas (LPG). It plays a critical role in the production of ammonia, hydrogen, and methanol by delivering superior activity and exceptional strength in a 10-hole ring shape that minimizes pressure drop. Key Benefits: Enhanced Catalytic Activity: With its optimized design, ReforMax? 210 LDP offers exceptional catalytic efficiency, ensuring higher conversion rates during steam reforming reactions. Superior Durability: The catalyst is engineered for outstanding strength, providing excellent resistance to mechanical stress and ensuring long-term performance. Low Pressure Drop: Its unique 10-hole ring shape guarantees a reduced pressure drop, contributing to improved overall plant efficiency and lower energy consumption. Coking Resistance: ReforMax? 210 LDP provides reliable protection against coking, a critical factor during plant startups or when encountering sudden feedstock changes, ensuring uninterrupted operation. Strategic Layering: Typically used as the top layer (30-50%) over an un-promoted catalyst like ReforMax? 330 LDP, it enhances operational reliability and provides added protection during startup or challenging process conditions. #ReforMax210LDP #ReforMax330LDP #SteamReforming #CatalystInnovation #HydrogenProduction #MethanolProduction #AmmoniaProduction #NickelCatalyst #HighPerformanceCatalyst #CokingResistance #ProcessEfficiency #IndustrialCatalysts #ReformerTechnology #SustainableManufacturing #HydrocarbonProcessing #ChemicalEngineering #Clariant

?????? ?????? ???????? ???????????????? ???????? ???? ???????????????? ????????????? ?? Today, natural gas is mainly used as the input raw material for methanol production. Unwanted natural gas components such as sulphur are bound through targeted hydrogenation and then removed in the desulphurisation reactor. ?? In order to monitor the activity of the catalyst in the hydrogenation reactor constantly over the entire bed, specially adapted multipoint thermometers are used to monitor multiple points. ?? Correct functioning must be permanently guaranteed to prevent sulphur components from slipping through. ?? Read more about our methanol solutions:?https://lnkd.in/eqvfAU4P #WIKAgroup #WIKAsmartinsensing #Chemical #ChemicalIndustry #ProcessSafety #ProcessAutomation #ProcessControl #Methanol

NOVEL CATALYTIC APPLICATIONS IN (?ncluding ENERGY, WATER Sectors) PETROLEUM OIL&GAS REFINING AND PETROCHEMICALS PROCESSING As can be seen from the diagram, not only fuels consumed in internal combustion machines (gasoline, diesel fuel, JetFuel, etc.) are produced from petroleum-based (Oil and Gas) as konventional primary energy sources. Apart from fuels, almost all materials needed in our daily lives are also produced from fossil-based hydrocarbons. It is a fact that catalysts are definitely used in the refining processes of petrochemical-based products from Crude Oil and Natural Gas rather than fuels for internal combustion Engines, and that catalysts affect the quality, purity and cost of the products produced. According to the announced reports, catalysts constitute 35% of the annual total GNP (Global National Product) cost share. Despite this great financial burden, unwanted side effects and environmental pollution occur due to the defects in the production processes of the products that must have such features as cost, quality, purity, stability and durability. With the 'Unsaturated Polymer-Based Catalyst Coating Product' application technology we have developed, it is possible to complete processes without using any catalyst material or special reactor designing and without catalyst regeneration, to increase energy efficiency and to apply it with simplicity and much lower costs and quality in production processes. #UnsaturatedpolimerbasedCatalystCoatingProductApplicationTechnology #NovelCatalysisApplicationTechnology #SolubleAlkiylResinOrganicSiliconbasedCatalystCoatingProduct #OrganoSiliconCatalysis

Unlocking the Power of Hydrocarbons: From Petroleum to Everyday Products Hydrocarbons, the building blocks of petroleum and natural gas, play a vital role in our daily lives. From fueling our vehicles to manufacturing consumer goods, their impact is undeniable. Did you know? - Hydrocarbons are classified into alkanes, alkenes, alkynes, and aromatic hydrocarbons. - Petroleum refining yields gasoline, diesel, jet fuel, kerosene, and lubricants. - Natural gas processing produces methane, ethane, propane, and butane. - Hydrocarbons are used in energy, transportation, industrial processes, consumer goods, and agriculture. Key conversion processes: - Cracking - Reforming - Isomerization - Hydrogenation - Catalytic cracking Applications: - Energy (fuel, heating, electricity) - Transportation (vehicles, aircraft) - Industrial processes (manufacturing, chemicals) - Consumer goods (plastics, packaging) - Agriculture (fertilizers, pesticides) Let's connect! Share your experiences working with hydrocarbons or ask questions about their applications. #Hydrocarbons #Petroleum #NaturalGas #Energy #Manufacturing #Sustainability #Chemistry #Innovation #IndustryInsights

What happens inside a factory... doesn't stay inside the factory. ?? If you're in an industry like chemical production, petroleum refining, paper manufacturing, etc. you spend a lot of energy on processes to separate mixtures into their individual components. This is called Industrial Separations, and it is a mass emitter of carbon dioxide – 4.9 gigatons annually, to be exact. In fact, up to 50% of the energy used in industrial operations (or 15% of total global energy consumption) is for separations. But what can we do about it? Read At One Analyst Alisha Jani's take on the problem and the four pathways she concludes are the best way to decarbonize this process –?and prevent those factories from spewing more CO2 into our atmosphere. https://lnkd.in/ehJSvzim #decarbonization #climatetech #industrial #factory #energyuse

??TAKE TIME OUT TO READ THIS ARTICLE OUT NOW:?FCC co-processing of biogenic and recyclable feedstocks: Part 2. In Part 1 of this article, it provided a segue into operational concerns ranging from WPO co-processing to maximising oxygen removal and flexible catalytic solutions for FCC operations. Jon Strohm, Darrell Rainer, Oscar Oyola-Rivera and Clifford Avery from Ketjen Corporation find out more. ? ?? READ THE ARTICLE IN FULL HERE:?https://lnkd.in/ewMgFySC ??For more articles on Alternative Fuels, visit: https://lnkd.in/dpdwwXA ??For more articles on Catalysts and Additives, visit: https://lnkd.in/dkJRWmK ??For more articles on Fluid Catalytic Cracking, visit: https://lnkd.in/dmvm6vi ? ??Download a digital copy of PTQ Q2 at: https://lnkd.in/eSr7SZ9v ? ?? Register at?https://lnkd.in/dUHqUEJ?for a free copy of every issue to be sent straight to your inbox. #emissionsreduction #catalysts #refining #refinery #refiners #gasandoilindustry #gas #oil #fuel #petrochemicals #alternativefuels

Industries that Benefit from Stack Testing Stack testing plays a crucial role in ensuring clean air and environmental compliance across various industries. Here are just a few sectors that benefit from this essential service: Power Generation: Power plants, including coal-fired, natural gas, and renewable energy facilities, rely on stack testing to monitor emissions of pollutants such as sulfur dioxide (SO2), nitrogen oxides (NOx), and particulate matter (PM). Manufacturing: Industrial manufacturing facilities, such as chemical plants, refineries, and metal smelters, use stack testing to assess emissions from processes like combustion, chemical reactions, and material handling. Petrochemicals: Refineries, petrochemical plants, and oil and gas facilities rely on stack testing to monitor emissions of hazardous substances such as benzene, toluene, and hydrogen sulfide (H2S) from various process units. By conducting stack testing, industries can identify areas for improvement, reduce environmental impact, and ensure compliance with air quality regulations, ultimately contributing to a healthier environment for all. Visit https://lnkd.in/dY3fQk7c to learn more. #StackTesting #AirQuality #EnvironmentalCompliance #IndustrialEmissions #CleanAir

Optimizing Naphtha Hydrotreating: Choosing the Right Technology and Catalyst In the ever-evolving landscape of refining, naphtha hydrotreating remains a cornerstone for producing cleaner fuels and protecting downstream units like catalytic reformers. With environmental regulations becoming more stringent, selecting the right technology and catalyst has never been more critical. Here are some highlights from leading hydrotreating technologies and their catalysts: 1. UOP's Modular Naphtha Hydrotreating Units Equipped with Unity? NiMo or CoMo catalysts, these modular solutions offer efficiency, scalability, and superior impurity removal. 2. Axens' Naphtha Hydrotreating Process Utilizing HR Series catalysts, this process ensures ultra-low sulfur and nitrogen levels, tailored for both straight-run and cracked naphtha. 3. Topsoe's Naphtha Hydrotreating Technology Powered by TK Series catalysts, Topsoe delivers reliable performance, especially for mild hydroprocessing conditions. 4. Shell Catalysts & Technologies DN-200 catalysts are designed to provide high stability and activity, ensuring effective impurity removal with minimal hydrogen consumption. 5. Criterion Catalysts & Technologies The DN Series catalysts deliver long cycle life and high selectivity, making them ideal for refineries prioritizing consistent performance. Each technology offers unique advantages tailored to specific feedstocks and operational goals. By aligning your choice with refinery needs, it's possible to achieve operational efficiency, meet environmental standards, and enhance product quality. #Refining #NaphthaHydrotreating #Technology #Catalysts #CleanFuels #Hydrogen #Gasoline #Refinery

#INSIGHTFULFRIDAY Did You Know? Oil refining transforms crude oil into everyday products like gasoline, diesel, and jet fuel through three main steps: 1. Separation (Distillation): Crude oil is heated in a furnace and sent to a distillation tower, where it is separated based on boiling points into different fractions (such as gasoline, diesel, and kerosene). 2. Conversion: In this stage, heavier fractions from the distillation process are converted into lighter, more valuable products. This is done through processes like cracking (breaking large molecules into smaller ones), reforming (rearranging molecules), and alkylation (combining smaller molecules). 3. Treatment: In this final stage, the refined products are treated to remove impurities, such as sulfur, to meet environmental and quality standards. This includes processes like desulfurization. - Byproducts include gasoline, LPG, asphalt, petrochemical feedstocks, and lubricants that power industries and our daily lives! Did you find this insightful? Let us know in the comment section ?? #insightfulfriday #oilrefinery #oilandgas #energy #sellafieldenergy

At Sperlux-Energy DWC-LLC, we are proud to offer high-quality toluene that is essential for a variety of industrial applications. Our toluene is refined to the highest standards, ensuring superior performance and reliability in all your processes. Here’s why our toluene stands out: 1. Versatile Solvent: Our toluene is a highly effective solvent used in the production of paints, coatings, adhesives, and inks. Its strong solvency power ensures efficient and consistent results in these applications. 2. Chemical Intermediate: Toluene from Sperlux-Energy is a vital chemical intermediate used in the synthesis of other compounds such as benzene, phenol, and toluene diisocyanate. This versatility makes it a cornerstone in the chemical industry. 3. High Purity and Stability: Our toluene is produced to meet the highest purity standards, providing stability and reliability in your manufacturing processes. This ensures the quality and consistency of your end products. 4. Fuel Additive: Toluene is commonly used as an octane booster in gasoline, enhancing fuel performance and efficiency. Its role in improving the combustion quality of fuel makes it indispensable for the automotive industry. 5. Wide Range of Applications: From pharmaceuticals to agrochemicals, toluene from Sperlux-Energy is used in a wide range of industries. Its adaptability and effectiveness make it a valuable resource for various sectors. 6. Environmentally Responsible Production: We are committed to sustainability and produce our toluene using environmentally responsible methods. Our production processes are designed to minimize environmental impact, supporting a greener future. www.sperlux-energy.com #SperluxEnergy #Toluene #VersatileSolvent #ChemicalIntermediate #HighPurity #FuelAdditive #SustainableProduction