ACHEMA Daily 2022 #1

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16 ACHEMA DAILY #1 | MONDAY, AUGUST 22, 2022 Daily Program H4.0 – Europa 1+2 H4.C – Consens H4.C – Alliance H4.C – Concorde Making hydrogen sustainable – an offshore approach – Flagship project H2Mare Chair: K. Litty¹ ¹Fraunhofer-Institut für Mikrostruktur von Werkstoffen und Systemen IMWS, Halle/D Industrialization of water electrolysis for green hydrogen on gigawatt scale: Flagship project H2Giga Chair: I. Kundler¹ ¹ Dechema e. V., Frankfurt am Main/D Handling of hydrogen Hydrogen: Unlocking the future poten - tial – Materials for hydrogen Chair: J. Drillet¹ ¹ Dechema-Forschungsinstitut (DFI), Frankfurt am Main/D 14:45 H2Mare – Green Hydrogen from Offshore Wind! M. Müller¹ ¹ Siemens Energy AG, Erlangen/D Hydrogen Flagship Project H2Giga at a Glance I. Kundler¹ ¹ Dechema e. V., Frankfurt am Main/D Process Analytics for Hydrogen Liquefier F. Thielland¹ ¹ Siemens AG, Karlsruhe /D Enabling sustainable gas economy with superior membrane technology A. Maljusch¹ ¹ Evonik Creavis GmbH Marl, Marl/D 15:15 Integrating Offshore Wind and Hydrogen – An Operator’s view F. Gremme¹ ¹ RWE Technology International GmbH, Essen/D Thyssenkrupp Nucera – industrialization of alkaline water electrolysis (Project: Install AWE) F. Gabriel¹; C. Haas¹ ¹ Thyssenkrupp Nucera, /D Modular Automation Concepts for Clean Hydrogen B. Kalusche¹; H. Böhm¹ ¹ Siemens AG, Karlsruhe/D Raman Spectroscopy as Powerful Tool for Gasturbine Protection against Variable Quality of Natural Gas Supplies S. Feihl¹ ¹ Endress+Hauser (Deutschland) GmbH+Co. KG, München/D 15:45 Low carbon hydrogen, a UK perspective B. Rollert¹; M. Knight² ¹ Fraunhofer IWES, Bremerhaven/D; ² Siemens SE EU GB&IE, London/UK Reference factory for high-rate production of hydrogen systems – Chance for German value creation (Project: FRHY) C. Baum¹ ¹ Fraunhofer-Institut für Produktionstechnologie IPT, /D Power to Gas as system solution with cross-sectoral J. Hundrieser¹ ¹ Endress+Hauser (Deutschland) GmbH+Co. KG, Weil am Rhein/D Sealing Solutions for Hydrogen Applica - tions A. Mierzwa¹; A. Berger¹ ¹ Frenzelit GmbH, Bad Berneck/D 16:15 Green Hydrogen for Chemical Synthesis B. Rollert¹; R. Dittmeyer² ¹ Fraunhofer IWES, Bremerhaven/D; ² Karlsruhe Institute of Technology KIT), Karlsruhe/D Scalable and flexible hydrogen generation: modular concepts for operation and automation of electrolyser plants (Project: eModule) A. Klose¹; L. Urbas² ¹ TU Dresden, Process-to-Order-Lab, Dresden/D; ² Technische Universität Dresden, Dresden/D New Concept of Electronically and Protonic Conductive Polymer Structures for the Proton Exchange Membrane Water Electrolysis Produced by 3D-Printing A. Maletzko¹; J. Melke¹; C. Hübner¹; C. Höhne¹ ¹ Fraunhofer ICT, Pfinztal/D Towards industrialisation of an MSC-based HT-SOEC Electrolyser A. Friedacher¹; S. Lachmann²; A. Medved² ¹ Christof Industries Global, Graz/A; ² Christof Systems GmbH, Graz/A H12.0 – Expert Forum H11.0 – Granat H9.1 – Logos H9.1 – Genios Closing inorganic raw materials cycles with novel technologies and concepts Additive Manufacturing Chair: T. Kraus¹ ¹INM – Leibniz-Institut für Neue Materialien gGmbH, Saarbrücken/D Industrial water management – Water treatment Chair: K. Carter¹ ¹Dechema – Gesellschaft für Chemische Technik und Biotechnologie e. V., Frankfurt/D New Power-to-X concepts and techno - logies Chair: K. Wagemann¹ ¹Dechema e. V., Frankfurt am Main/D 14:45 Abfall ist nicht wertlos M. Walzer¹ ¹ Siemens AG, Karlsruhe/D Simulation and parameterized design for optimized functionality C. Kiener¹ ¹ Siemens AG, München/D Water for X – Water Management for Offshore H2/PtX productionFließtext std A. Lucht Uribe¹; D. Frank²; T. Track² ¹ Dechema e. V., Frankfurt/D; ² Dechema e. V., Frankfurt am Main/D Power to X processes – Options for facing future challenges of low carbon processing requirements in petrochemical and chemical industries T. Streich¹ ¹ ThyssenKrupp Industrial Solutions AG, Dortmund/D 15:15 BMBF funding measure „Resource-efficient Circular Economy – Innovative Product Cycles (ReziProK)“: Digital technologies, business models and design concepts for a resource-efficient circular economy B. Gleede¹; K. Wendler² ¹ Dechema e. V., Frankfurt am Main/D; ² Dechema e.V, Frankfurt am Main/D How additive manufactured parts enable to optimize chemical processes D. Urbanczyk¹; L. Dilgert¹ ¹ BASF SE, Ludwigshafen/D Fresh water for arid and remote locations – Containerized mobile freshwater production and wastewater treatment J. Münz¹ ¹ Weil Wasseraufbereitung GmbH, Osnabrück/D PtX Technologies and Plants for a CO2-free Future of the Air Transport M. Haid¹; J. Schwartze¹; A. Wind¹ ¹ EDL Anlagenbau Gesellschaft mbH, Leipzig/D 15:45 Circular economy of hydrogen electrolysers: Closing the material cycles R. Simon¹; B. Gleede¹; K. Wendler¹ ¹ Dechema e. V., Frankfurt a.M./D Additive Manufacturing and their Application as High Temperature Materials for the Process Industry E. White¹; A. Ulrich¹; C. Schlereth¹; M. Galetz² ¹ Dechema-Forschungsinstitut, Frankfurt am Main/D; ² Dechema – Forschungsinstitut, Frankfurt am Main/D Influence of thermal reactivation on the properties of activated carbons used in water treatment V. Mauer¹; C. Bläker¹; C. Pasel¹; K. Rathinam¹; S. Panglisch¹; D. Bathen¹ ¹ Universität Duisburg-Essen, Duisburg/D Design and operation of a highly integrated laboratory-scale Power-to-Liquid plant utilizing SOEC technology M. Jahn¹; E. Reichelt²; G. Herz¹; S. Megel¹; M. Kusnezoff² ¹ Fraunhofer IKTS, Dresden/D; ² Fraunhofer IKTS, Dresden /D 16:15 Electrochemical Recycling of Photovoltaic Waste for the Recovery of Metals and Silicon Wafers C. Modrzynski¹; C. Weidlich¹ ¹ Dechema – Forschungsinstitut, Frankfurt a. M./D The Impact of Powder Reuse on the Particulate Properties and Powder Flow Behaviour of Metal Powders for Additive Manufacture J. Clayton¹; K. Brockbank¹; T. Thornton²; J. Saad² ¹ Freeman Technology, Tewkesbury/UK; ² Micromeritics Instrument Corporation, Norcross/USA Perspectives for Water Reuse in Industry – BMBF Funding Measure „Water Technologies: Reuse“ C. Jungfer¹; S. Giebner²; T. Track¹ ¹ Dechema e.V., Frankfurt am Main/D; ² Dechema e.V., Frankfurt/D C2PAT – Carbon To Product Austria C. Markowitsch¹; M. Lehner¹; M. Maly²; J. Kitzweger³; W. Haider⁴4; S. Ivanovici²; M. Unfried⁵5 ¹ Chair of Process Technology and Environmental Protection, Montanuniversität Leoben, Leoben/A; ² OMV Downstream GmbH, Vienna/A; ³ Lafarge Perlmooser GmbH, Vienna/A; ⁴ Borealis Olefine GmbH, Schwechat/A; ⁵ Verbund Energy4Business GmbH, Vienna/A

ACHEMA DAILY #1 | MONDAY, AUGUST 22, 2022 Mechanical/ Thermal Processing Page 17–22 17 ACHEMA Gewinnspiel 2022 Apple-Watch „Mitternacht“ im Wert von 450 Euro* zu gewinnen! *UVP des Herstellers Sie finden uns in Halle 11.1 Stand E13 Hier mitmachen! Solids Handling 05731_cav_php_vw_anzeigen_achema_daily_88x42.indd 1 28.07.2022 09:04:46 Versatile Sifters to Fit Solids Handling Applications The Contromat sifter for solids Source: Fuchs Maschinen capacity in relation to the sifting area. Since the sifting movement is purely horizontal, even longitudinally shaped fibers or other products, for example, plastic granules or carrot sticks, can be sorted according to their length with the plane sieve. The Siftomat inspection sifter can be equipped with up to three sieve decks (multilayer sieves). This makes it suitable not only for dedusting or control screening applications, but also for very precise sizing of the screened material into up to four fractions in one sifting pass. The Siftomat vibrating screen is available in 8 sieve sizes from 0.2 to 1.75 m 2 , which allows it to be used for small to medium sifting capacities from a few kg/hr to several tons/hr. The Siftomat has unrivalled ease of handling, cleaning and maintenance, the company says, as well as an extremely low noise level and long service life. Due to its lightweight design of the Siftomat plansifter, the replacement or cleaning of the sieve may be carried out by a single person. The Siftomat inspection sifter is available for Ex zones 2/22 or 1/21. scj Fuchs Maschinen Hall 3.1, Stand F48 The array of sifters offered by Fuchs Maschinen offers the ability to address solids-handling tasks with a variety of requirements. The Contromat sifting machine was developed especially for control or inspection screening as a vibrating sifter for applications in the pharmaceutical, food and cosmetics industries. Two versions of the Contromat are available: one with a round design, and one with a square design. The round design does not include an outlet for the oversize material and is the most cost-effective version of the Contromat control sifter. It is used where no or only a small amount of oversize particles are expected. Instead of an overflow, an inspection nozzle ensures a periodic check of the sieve for oversized particles or foreign particles. If such particles are present, they can simply be removed by hand or sucked off. The square design is recommended when the vibrating sifter is difficult to access, where smaller residues and impurities have to be screened out and when a certain amount of oversize or foreign particles are expected. In contrast to the round design, the square design has an overflow for the coarse grain. Foreign particles and unwanted agglomerates in the end product are automatically discharged. Both designs are based on a very simple structure, which greatly simplifies the maintenance, operation and cleaning of the sifting machine. Both the square and round designs are available in two sizes for small to medium screening or sifting capacities, ranging from a few kg/hr to several tons/hr, depending on the product and the mesh size. The two versions are also available for the use in hazardous areas. At ACHEMA, the company is also featuring its Siftomat plansifter, a versatile sifting machine based on an eccentrically oscillating screening movement. This allows very precise sifting with a high screening Wasserentsalzung Kompakte Umkehrosmose Umkehrosmoseanlage Condair AX Bild: Condair Die Condair AX ist eine Kompakt-Umkehrosmoseanlage, die zur Erzeugung von entsalztem Wasser eingesetzt wird. Das Wasser wird mit hohem Druck über semipermeable Membranen gefördert und das dabei entstehende Permeat abführt. Die zurückgehaltenen Salze werden mit dem Konzentrat kontinuierlich abgeschlämmt. Das Umkehrosmosesystem ist vorgesehen für den direkten Anschluss an das Trinkwassernetz oder an eine vorgeschaltete Enthärtungsanlage Condair Soft. Je nach Größe ist die Condair AX bestens zur Versorgung von Dampfluftbefeuchtern, Schnelldampferzeugern oder Verdunstungskühlern geeignet. dh Condair Halle 4.0, Stand F65 1803516-13.indd 2 09.08.22 12:46