TY - THES A1 - Müller, Mike T1 - Modellierung von Stofftransport und Reaktionen mit einem neuentwickelten, gekoppelten Grund- und Oberflächenwassermodell am Beispiel des Tagebaurestsees KW - Modellierung KW - Stofftransport KW - Grundwassermodell KW - Oberflächenwassermodell KW - Tagebaurestsee Y1 - 2003 ER - TY - CHAP A1 - Markowski, Jens A1 - Narra, Satyanarayana A1 - Ay, Peter A1 - Pempel, Harry A1 - Müller, Mike T1 - Automatic disassembly and recycling of lithium-traction-accumulators T2 - Proceedings, XXVII. IMPC, Santiago de Chile, 2014 N2 - Within the next few years major changes in mobility are expected. Increasing numbers of electric powered cars, electrobikes and E-Scooters define the transport sector. Recently lithium based traction batteries as storage medium have led into matrurity of series production combining high electrical efficiencies with low weights and compact dimensions. Due to the relatively young development with lithium batteries utilization, only few investigation were conducted regarding their recycling. Conventional battery recycling processes can not be applied due to differences in design and chemistry. So an automated disassembly and processing procedure for lithium traction batteries has been developed in the R/D-project "Li-WERT". Instead of complete smelting of the batteries without pretreatment, an automated disassembly and specific treatment of the material streams was realised, adjusted to the needs of the subsequent recovery technologies. A higher quality, with reduced expenses for the separation of fine-grained or fused material mixes, can be obtained for the individual components. The automated disassembly using an industrial robot significantly reduces dangers for the operating crew. The selective disassembly and beneficiation allows full recovery of the fractions. The batteries will be disassembled to cell level by the industrial robot. Anodes, cathodes, and separation layers are isolated and processed. The technology is designed, that no waste is generated for disposal. The pelletised cathode coating and the other separated metals (stainless steel, copper, aluminum) can be used in respective metallurgical plants. Circuit boards and plug contacts are also coveted secondary raw materials for reuse. The process is modular and offers high flexibility, e. g. for new battery types/ sizes by quick adjustment of the robot and tool change. Adaptation to other cathode materials (e. g. Li[FePO]) is possible. After finishing the R/D-project, a pilot plant for demontage was realised in 2013. KW - lithium traction accumulator KW - dismantling KW - recycling Y1 - 2014 SP - 227 EP - 236 PB - GECAMIN CY - Santiago de Chile ER - TY - CHAP A1 - Markowski, Jens A1 - Ay, Peter A1 - Pempel, Harry A1 - Müller, Mike T1 - Entwicklung eines innovativen Verfahrens zur automatisierten Demontage und Auf-bereitung von Lithium-Ionen-Batterien aus Fahrzeugen T2 - Recycling und Rohstoffe : Band 5 N2 - Die automobile Antriebstechnik steht in den nächsten Jahrzehnten vor tief greifenden Verän-derungen. Nachdem über 125 Jahre der Verbrennungsmotor die vorherrschende Antriebsart darstellte, basieren neue Entwicklungen auf Elektroantrieben oder auf der Kombination ver-schiedener Antriebsformen. Fahrzeuge mit elektrischen Antrieben haben mittlerweile den Status der Serienreife erreicht und werden perspektivisch zunehmend das Straßenbild be-stimmen. Mit der so genannten Lithium-Ionen-Traktionsbatterie wurde in den letzten Jahren ein Spei-chermedium zur Serienreife geführt, welches einen hohen elektrischen Wirkungsgrad mit kompakten Maßen und geringem Eigengewicht vereinigt. Mit den auf der Nutzung von Li-thium-Akkumulatoren basierenden Antriebskonzepten kann ein entscheidender Schritt zur Umsetzung einer umfassenden Verbreitung der elektrischen Antriebstechnik im Bereich der individuellen Mobilität erfolgen. KW - Lithium-Akkumulator KW - Demontage KW - robotergestützt Y1 - 2012 SN - 978-3-935317-82-5 SP - 443 EP - 456 PB - TK Verlag Karl Thomé-Kozmiensky CY - Neuruppin ET - 1. Auflage ER - TY - GEN A1 - Whale, Alexandra S. A1 - Spiegelaere, Ward De A1 - Trypsteen, W. A1 - Nour, Afif Abdel A1 - Bae, Young-Kyung A1 - Benes, Vladimir A1 - Cleveland, Megan A1 - Devonshire, Alison S. A1 - Dong, Lianhua A1 - Drandi, Daniela A1 - Foy, Carole A. A1 - Garson, Jeremy A. A1 - He, Hua-Jun A1 - Hellemans, Jan A1 - Kubista, Mikael A1 - Lievens, Antoon A1 - Makrigiogos, Mike G. A1 - Müller, Reinhold D. A1 - Nolan, Tania A1 - O'Sullivan, Denise M. A1 - Pfaffl, Michael W. A1 - Rödiger, Stefan A1 - Romsos, Erica L. A1 - Shipley, Gregory L. A1 - Taly, Valerie A1 - Untergasser, Andreas A1 - Wittwer, Carl T. A1 - Bustin, Stephen A. A1 - Vandesompele, Jo A1 - Huggett, Jim F. T1 - The Digital MIQE Guidelines Update: Minimum Information for Publication of Quantitative Digital PCR Experiments for 2020 T2 - Clinical Chemistry Y1 - 2020 U6 - https://doi.org/10.1093/clinchem/hvaa125 SN - 0009-9147 SN - 1530-8561 VL - 66 IS - 8 SP - 1012 EP - 1029 ER - TY - GEN A1 - Dreyer, Christian A1 - Müller, Vivian C. A1 - Bernaschek, Andreas A1 - Frahm, Mike A1 - Jankowski, Benjamin A1 - Elagroudy, Youssef A1 - Koppusch, Klarissa A1 - Fiedler, Tom A1 - Eckert, Angelika A1 - Tatai, Tiberiu Mihai A1 - Borges, Ralf A1 - Behrendt, Felix A1 - Fricke, Anna A1 - Schreiner, Monika A1 - Seidlitz, Holger ED - Heinemann, Dag ED - Polder, Gerrit T1 - Functional integration of photonic components for (vertical) urban farming T2 - Photonic Technologies in Plant and Agricultural Science III N2 - The project Food4Future (F4F) is a long-term initiative funded by the German government. The decade-long project aims to develop groundbreaking ideas for urban farming, along with the corresponding materials, technologies and processes. It considers various future scenarios such as the collapse of global supply chains (“no trade”) and a severe shortage of arable land (“no land”). Different strategies for cultivating organisms such as crickets, jellyfish, halophytes and algae in an urban environment are being developed. New modular cultivation compartments have been constructed and built which can be used as stand-alone units or in a paternoster (continuous loop) system. An overview is given on the functional integration of SMD-LEDs, ranging from large planar flat units for halophyte cultivation to salt water-resistant UV-LED light sabers for algae cultivation and LEDs integrated directly into transparent composites. KW - Urban farming KW - Photonic components KW - Food4Future (F4F) KW - UV-LED Y1 - 2026 U6 - https://doi.org/10.1117/12.3081069 SN - 277-786X PB - SPIE CY - Bellingham, WA ER -