Contact: Ministery of Education, Further Education and Culture of Rheinland-Pfalz Department of Knowledge transfer at Universities Mittlere Bleiche 61 55116 Mainz Phone: +49 (0) 6131 16-2256 Fax: +49 (0) 6131 1617-2256 E-mail: [email protected]Internet: www.mwwk.rlp.de Organisation: IMG Innovations-Management GmbH Trippstadter Sr. 110 67663 Kaiserslautern Phone: +49 (0) 631 31 66 875 Fax: +49 (0) 631 31 66 898 E-mail: [email protected]RHEINLAND-PFALZ AT HANNOVER MESSE 2017 Research Pavilion Halle 2 / Booth B40 Phone: +49 (0) 1590 - 2317548 Exhibition Program Forschung & Innovation Rheinland-Pfalz RESEARCH & INNOAVTION RHEINLAND-PFALZ MINISTERIUM FÜR WISSENSCHAFT, WEITERBILDUNG, UND KULTUR
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Contact:Ministery of Education, Further Education and Culture of Rheinland-PfalzDepartment of Knowledge transfer at UniversitiesMittlere Bleiche 6155116 MainzPhone: +49 (0) 6131 16-2256Fax: +49 (0) 6131 1617-2256E-mail: [email protected]: www.mwwk.rlp.de
RESEARCH & INNOAVTION RHEINLAND-PFALZMINISTERIUM FÜRWISSENSCHAFT, WEITERBILDUNG,UND KULTUR
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Preface
Research and Innovation Rheinland-Pfalz
Research, technology and innovation are becoming increasingly im-portant in the face of increasing demands on the modern knowled-ge society. Market success can often only be achieved using new technologies and innovations in global competition. Presentations of current research and development results, new products and pro-cesses as well as innovative service management models at trade fairs are central instruments of knowledge and technology transfer.
To provide the Rheinland-Pfalz region with an ideal environment for a successful presentation of its research and innovation Research, the Ministry of Science, Further Education and Culture and the Ministry of Economic Affairs, Transport, Agriculture and Viticulture of the State of Rhein-land-Pfalz jointly support the organisation and implementation of research pavilions at interna-tional leading technology-oriented trade fairs.
In this connection one focus is on presentations of the potential areas identified in the country‘s innovation strategy (e.g. ICT, sensor technology, materials and life sciences) in order to strengt-hen the innovative capacity and competitive position of Rheinland-Pfalz. At the same time, the exchange processes between science and industry, the promotion of key technologies as well as the acquisition of specialist and top-level forces are supported. In addition to universities and non-university research facilities, knowledge-based entrepreneurs, innovative companies and technology-oriented platforms, initiatives, networks and clusters will be enabled to present their innovative projects and technological solutions too.
I would like to thank all the participants for their great commitment, and I expect the presenta-tions to have a visibility far beyond the borders of Rheinland-Pfalz.
Prof. Dr. Konrad WolfMinister for Science Further Education and Cultureof the federal state of Rheinland-Pfalz
Improved material performance by fiber‐reinforcements for injection molding inserts – complex application possibilities with
high cost‐efficiency
In cooperation with A + Composites GmbH and the Institute for Composite Materials, the competence network for plastics technology in Rhineland‐Palatinate Kom‐K‐Tec presents fiber‐reinforced injection‐molded inserts for increased material performance of plastic components.
Injection molding for plastic components opens up a wide range of geometric design possibilities and is therefore widely used. The main challenges are within material performance. These are addressed with the developed injection molding inserts. In an automated tape laying process, load‐bearing reinforcement structures are created, which are inserted into the mold in the subsequent injection molding process and over molded with plastic. This results in components with great geometric flexibility, while at the same time greatly increasing material performance is assured.
Improved medical efficacy and higher wearing comfort – unique features for orthoses and prostheses
The A+ Composites GmbH presents in cooperation with the University of Kaiserslautern a novel method to process continuous fiber reinforced composites in medical engineering.
A combination of the customizable features of the fiber‐reinforced composites and the possibilities of the newly developed thermoplastic tape placement process allows products with unique features. Particularly for orthoses, this means for example a direction‐dependent adjustment of stiffness, high flexibility as well as a post‐production reshaping directly at the customer. Based on the A+ Composites Technology, a new class of products can be manufactured which do not only convince by a higher medical efficacy but also by 30‐50% less skin contact, their ultra‐lightweight and therefore by a higher wearing comfort.
This is enabled by an innovative merging and selective heating of fiber and polymer in the production process. Further, it is for the first time possible to impregnate thermoplastic composites during the tape placement process. In addition, the elimination of previously indispensable refining stages decreases material costs drastically.
Composite Aneurysm‐Clip for brain surgery eliminates artefacts
An aneurysm is a local blood filled bulging of a blood vessel, and its presence can be very dangerous, as a ruptured aneurysm may lead to life‐threatening bleedings. Traditionally, mainly metallic titanium alloys are used in the human body. A standard treatment clamps the aneurysm at its base using a clip, so that it can be emptied on purpose. Currently, all aneurysm clips available on the market are metallic and therefore limit the visibility and possibility of monitoring postoperative conditions by CT scan (computer tomography) and magnetic resonance imaging (MRI).
Within the project InnoClip IVW forms a team together with NEOS Surgery S.L. and ADETE® ‐ Advanced Engineering & Technologies GmbH, dedicated to the development of a new x‐ray transparent aneurysm clip based on biocompatible materials, namely carbon reinforced composites. The use of polymeric materials reduces the formation of x‐ray or MRI‐artifacts during imaging procedures compared to titanium alloy aneurysm clips and enables less time consuming, more cost‐effective and less risky patient follow‐ups.
The project InnoClip was realized within the European Eurostars program and the German partners were funded by the German Federal Ministry of Research and Education. Dipl.‐Sporting. Matthias Bendler Institut für Verbundwerkstoffe GmbH Erwin‐Schrödinger‐Str. Geb. 58 D‐67663 Kaiserslautern Tel: +49 (0)631 2017‐339 Mail: [email protected]‐kl.de www.ivw.uni‐kl.de
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Sustainability – a challenge for everybody Sustainability Office – University of Kaiserslautern
With 3Digify building high-quality, inexpensive 3D scanners at home
How can sustainability be structurally anchored in complex and dynamic organizational structures? To handle this challenge, the University of Kaiserslautern founded a sustainability office in 2016. Next to its main task of editing a sustainability report, the office is also an initiative that gives students and employees the opportunity to contribute to university sustainability by their own voluntary projects. Accordingly, the office deals with interdisciplinary “top-down” as well as “bottom-up” projects.
For the University of Kaiserslautern, “sustainability” means ecological, economic and social sustainability in the areas education, research, operations and governance as well as knowledge transfer.
Our goal is a dialogue with other universities, scientific institutions and companies regarding the institutionalization of sustainability management. Relevant concerns are: What should be the design of university education to satisfy the interdisciplinary requirements of sustainability management? How to design the transfer of knowledge from current sustainability research projects at the University of Kaiserslautern?
J. Hufnagel/B. Baumann/ Prof. K. SpraulUniversity of KaiserslauternSustainability OfficeD-67653 KaiserslauternTel: +49 (0)631 205-5559Mail: [email protected]:www.uni-kl.de/universitaet/projekte/nachhaltigkeitsbuero
www.uni-kl.de/universitaet/
projekte/nachhaltigkeitsbuero/
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VICINITY Towards a digital Neighbourhood that we can trust
The VICINITY project will build and demonstrate a platform and ecosystem for IoT infrastructures that will offer "Interoperability as a Service". The platform aims to be device and standard agnostic, and will rely on a decentralised and user-centric approach. VICINITY aims to retain full control of the ownership and distribution of data across the different IoT domains.
VICINITY will be demonstrated during its project lifetime in the domains of Energy, Mobility, E-Health and Building Automation. However, the concept is directly applicable to other domains like e.g. Industry 4.0 as well.
Prof. Dr. Christoph Grimm TU Kaiserslautern Design of Cyber-Physical Systems Gottlieb-Daimler-Str. Geb. 49 D-67663 KaiserslauternTel: +49 (0)631 205-3283Mail: [email protected]
www.vicinity2020.eu
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The aim of the Transferinitiative Rheinland-Pfalz, is to approach knowledge- and technology transfer and to implement, ensure and enhance the competitiveness of the „Innovation-System“. The project was launched by the Foundation for Innovation Rheinland-Pfalz (Stiftung für Innovation Rheinland-Pfalz) and is implemented by IMG Innovations-Management GmbH.
Positioning of the Transferinitiative Rheinland-PfalzWith the Transferinitiative Rheinland-Pfalz, a demand-oriented approach (from the entrepre-neur‘s side) is used (Market Pull). We are concentrating on three main focus areas, which are derived from the regional innovation strategy of Rheinland-Pfalz:
1. Microsystem Technology, Sensors, AutomationFocus on Industry 4.0
2. Materials, Materials and Surface TechnologyFocus on Lightweight Construction and New Materials
3. Life Sciences, Health CareFocused on Personalized Medicine
Activities are implemented for the knowledge- and technology transfer in a close co-operation with the respective relevant actors to increase the visibility and the impact. Working indepen-dently from institutions and regions we are focused on the subjects of the Transferinitiative Rheinland-Pfl az and its aims.
Contact:Dr. Jürgen Gerber | IMG Innovations-Mahangement GmbHTrippstadter Str. 110 | 67663 [email protected]
Innovations-ManagementRheinland-PfalzIMG
Our mission• Improvement of the exchange of processes
between business and science• Improvement of transnational visibility• Central services for universities, research
facilities, companies and multipliers.
Our target group• Enterprises - in particular SMEs -• Scientifi c institutions (universities and research institutes).
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Transfernetz Rheinland-PfalzAccess to the universities of Rhineland-Palatinate for businesses of all kinds
The “Transfernetz Rheinland-Pfalz” is the network of knowledge andtechnology transfer offices from the eleven state universities of Rhineland-Palatinate. We are at the economy’s disposal concerning questions on the numerous possibilities of cooperation between universities and enterprises.As your partner in the innovation processes, we are opening the gates in the world of science in Rhineland-Palatinate. With us you
obtain information on the latest scientific results and get access to a modern science infrastructure
find cooperation partners for joint research and development projects get in touch with graduates gain detailed information on intellectual property rights as well as
market and competition
Klaus DoschTel.: +49 (0)6312053001Email: [email protected]., Building 32 D-67663 Kaiserslautern
www.transfernetz-rlp.de
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Next Generation biofilm ‐ the "Rose of Jericho" of biotechnology Food production and the production of energy as well as the production of valuable substances are becoming more and more competing (plate or tank problems). One of the major challenges facing the future is thus to make the growing demand for food, energy and materials sustainable with a low consumption of agricultural space, energy and water. The sustainable production of proteins (proteins), lipids (fats) And carbohydrates (sugars and polysaccharides) by cyanobacteria, microalgae or plants have central meanings. Cyanobacteria harbor e.g. an enormous pool of renewable biopharmaceuticals and fine chemicals. However, this potential is scarcely developed because previous production processes are both energy and resource intensive. On the other hand, this project, funded by the German Federal Ministry of Education and Research (BMBF), uses photosynthetic drying‐tolerant biofilms (terrestrial cyanobacteria) for the water vapor‐controlled production of bacterial polysaccharides and dyes. A resource‐efficient and energy‐efficient process technology is used, which is realized by means of a novel emersen photobioreactor (ePBR) generation. The new system solution combines green and white / industrial biotechnology to optimize a 20‐40%. more cost‐effective and environmentally friendly production process for biopharmaceuticals and fine chemicals. An interdisciplinary research group led by Prof. Lakatos, Prof Groß (both Kaiserslautern University of Applied Sciences), Prof. Ulber (TU Kaiserslautern), Prof. Schmidt (Augsburg University of Applied Sciences), Daniel Abendroth (INOGRAM, Stuttgart), economic experts of engage AG and Prof. Wahl (Trier University of Applied Sciences – Umwelt Campus Birkenfeld) is developing a new indoor photobioreactor in the laboratory scale, which produces valuable substances by means of terrestrial microalgae biofilms by means of emerse air‐guided fermentation methods.
Contact: Prof. Michael Wahl Trier University of Applied Sciences Umwelt‐Campus Birkenfeld Institute for Business‐ and Technology Management
+49 6782 17‐1313 m.wahl@umwelt‐campus.de
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Me
Sehr geehrte Aussteller, zunächst möchten wir uns für Ihr Interesse an einer Teilnahme als Mitaussteller auf dem Gemeinschaftsstand der CeBIT 2015 bedanken. Anbei möchten wir Ihnen die wichtigsten Informationen bzw. Termine und Fristen der Datenabfrage mitteilen. Zur reibungslosen und fristgerechten Organisation der CeBIT 2015 benötigen wir von Ihnen einige Informationen: 1) Beitrag für das Standhandout (Abgabefrist 06.02.15) 2) Bedarfsmeldung Technik, Möblierung und sonstige Standinfrastruktur (Abgabefrist 06.02.15) 3) Präsentationsfläche / Elektroposter (Abgabefrist 06.02.15) 4) Versicherung der Messegüter (Abgabefrist 13.02.15) falls nicht von Herrn Dosch anders terminiert. 5) Pressemeldungen (Abgabefrist 13.02.15) 6) Standbetreuungsliste, auch für Namensschilder (Abgabefrist 06.02.15) Detailinformationen und die entsprechenden Unterlagen zur Datenabfrage finden Sie im Anhang. P.S. Sollten Sie nicht der verantwortliche Ansprechpartner für die genannte Messe sein, so bitten wir Sie diese Mail an die betreffende Person weiterzuleiten. Vielen Dank!
Für weitere Fragen stehen Herr Dr. Dörr ([email protected]) und Ihnen gerne zur Verfügung.
Development of Redox Flow Systems and System Components Vanadium Redox Flow Battery In a vanadium redox flow battery (VRB) electric energy is stored in liquid electrolytes. So, power rating (determined by the cell size) and amount of energy stored (determined by the electrolyte tank size) can be adjusted independently to match applications such as residential energy storage, wind power, photovoltaics, or grid stabilisation. A major advantage of the vanadium system is the use of vanadium electrolytes at both electrodes which overcomes familiar problems with electrolyte mixing through the membranes employed.
Sensor for the state-of-charge measurement Apart from the cell voltage which serves as an indicator of the state-of-charge, there are currently no robust sensors for this type of redox flow battery available. As the electrolyte solutions are strongly coloured, an optical sensor system has successfully been developed at Umwelt-Campus Birkenfeld. Both redow flow system and sensor are on display.
Representation of Opolskie Region (BWO) The Representation of the Polish Opolskie Region is a governmental institution for economic development and for the initiation of international co-operation on various levels. The Economic Board offers a free and comprehensive information and service package concerning investments and market development in Poland (Opolskie Region), selective partner search, initiation of co-operations with regional authorities, institutions and organizations, international networking of public bodies, location promotion to investors, etc. Services offered include mediation of business contacts, economic and market information, contacts to authorities and public bodies (Opolskie Region/Poland). The Representation of Opolskie Region is looking for companies, who are interested in a co-operation with Polish firms and institutions or who are seeking partners for the development and implementation of international projects. The service package is free of charge for interested companies. Opolskie Centre for Economy Development (OCRG) Opolskie Centre for Economy Development (OCRG) – Investor and Exporter Assistance Centre (COIE) in Opole is an official partner oft the Polish Investment and Trade Agency (PAIH). It is the first line of contact for both the entrepreneurs who are interested in investing in the region as well as those who are willing to start operating abroad. COIE has the largest base of attractive investment sites in the Opole Region and an extensive portfolio of investment property. OCRG & COIE offers support in: - domestic and foreign investors assistance - information on investment conditions and procedures in Opolskie Region - investment offers database (brownfields and greenfields) - coordination of business partner meetings (utilities, environment, etc.) - co-operation with self – governmental and governmental institutions - post – investment care
Plastic moldings play an increasingly important role in industry. In order to reduce the use of petrochemical raw materials for the molded parts and to achieve good recycling possibilities, biogenic, fiber‐reinforced plastics, with a focus on biogenic duroplastics, are developed and studied at the Technical University (TH) Bingen.
TH Bingen is thus entering new territory, since the use of the more powerful biogenic thermosets for molded parts has so far been scarce. Rather, biogenic thermoplastics are generally used. However, particularly biogenic thermosets are ideal starting materials for natural fiber reinforced composites due to their mechanical, thermal and chemical resistance.
At the Hannover Messe, the Technische Hochschule Bingen will be showing a portfolio of selected biogenic composites and their starting materials. The materials are presented as application examples in the form of cafeteria trays.
The trays reach 80 to 90% of biogenic, i.e. renewable parts. This greatly reduces the use of fossil resources. In addition, the biogenic composites can be used energetically in the first approximation of CO2‐neutral energy.
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SCIENCE|SQUARE ‐ Innovation and Highlights of Research and Technology
SCIENCE|SQUARE will show numerous exhibits of the latest innovations, latest results, products and services of seven German federal states. The exhibitors of the common booths of the German federal states of Hessen, Rheinland‐Pfalz, the innovation market Berlin‐Brandenburg and Research for the Future (represented by Thüringen, Sachsen‐Anhalt and Sachsen) an additional members of Messearbeitskreis Wissenschaft are showing highlights from research and technology in a joint program. The SCIENCE|SQUARE is supported by MAK Messearbeitskreis Wissenschaft and Deutsche Messe AG.
Contact Daniel Graffé Ministerium für Wissenschaft, Weiterbildung und Kultur Rheinland‐Pfalz Mittlere Bleiche 61 55116 Mainz Tel: +49 6131 16‐2256 E‐Mail: [email protected] Web: www.mwwk.rlp.de
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Booth Info HMI 2017
Hall 2 / Booth B40
RHEINLAND-PFALZAT HANNOVER MESSE 2017
Research and Innovation Rheinland-Pfalz
1 University of Applied Sciences Trier, Umwelt-Campus Birkenfeld AG Hoogers Redox-Flow Systems2 University of Applied Sciences Trier, AG Wahl Next Generation Biofilm Umwelt-Campus Birkenfeld3 Technische Universität Kaiserslautern AG Grimm VICINITY
4 Inst. f. Verbundwerkstoffe - Kom-K-Tec Brzeski Features Orthoses and Prostheses
Department of Technology and Innovation (RTI)Technische Universität KaiserslauternDipl.-Ing. Klaus DoschPostfach 304967653 KaiserslauternPhone: +49 (0)631 205 3001Fax: +49 (0)631 205 2198E-Mail: [email protected]: www.rti.uni-kl.de/technologie/