RHEINLAND-PFALZ Rheinland-Pfalz AT THE HANNOVER MESSE … · E-mail: [email protected] Contact...
Transcript of RHEINLAND-PFALZ Rheinland-Pfalz AT THE HANNOVER MESSE … · E-mail: [email protected] Contact...
Organisation and Implementation:IMG Innovations-Management GmbHDr. Joachim DörrTrippstadter Sr. 11067663 KaiserslauternPhone: +49 (0) 631 31 66 875Fax: +49 (0) 631 31 66 898E-mail: [email protected]
Contact Administration:Ministery of Education, Further Education and Culture of Rheinland-PfalzDepartment of Knowledge transfer at UniversitiesDaniel GrafféMittlere Bleiche 6155116 MainzPhone: +49 (0) 6131 16-2256Fax: +49 (0) 6131 1617-2256E-mail: [email protected]: www.mwwk.rlp.de
Contact Universities:Transfernetz Rheinland-Pfalzc/o Technische Universität KaiserslauternDipl.-Ing- Klaus DoschPhone: +49 (0) 631 205-3001Paul-Ehrlich-Str. Gebäude 3267663 Kaiserslautern
RHEINLAND-PFALZAT THEHANNOVER MESSE 2018Research PavilionHall 2 / Booth B40Phone: +49 (0) 1590 - 2317548
Exhibition Program
MINISTERIUM FÜRWISSENSCHAFT, WEITERBILDUNG,UND KULTUR
Forschung & InnovationRheinland-Pfalz
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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
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Content
Research and Innovation Rheinland-Pfalz
Allymatch GmbHsmart b2b matching app . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Johannes Gutenberg-University MainzElectrifying Organic Synthesis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Johannes Gutenberg-University MainzHIKE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Science ǀ SquareInnovation and Highlights of Research and Technology . . . . . . . . . . . . . . . . . . . 8
Technische Universität KaiserslauternImproving energy- and eco-efficiency by usingplastics in tribological applications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Technische Universität KaiserslauternKaiserslautern Racing Team . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
Technische Universität KaiserslauternInnovative Service Products forAvailability-Oriented Business Models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
Technische Universität KaiserslauternInteroperability for the Internet of Things . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
Transfernetz Rheinland-PfalzAccess to the universities of Rheinland-Pfalz for businesses of all kinds. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
University of Applied Sciences BingenContinuous Separation of Enantiomers by Selective Crystallization . . . . . . . . 14
University of Applied Sciences BingenPIRXAT – Pilotless Intelligent Radar Experiment. . . . . . . . . . . . . . . . . . . . . . . . . . 15
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Content
Research and Innovation Rheinland-Pfalz
University of Applied Sciences Kaiserslautern Development of a novel Ice-Tribometer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
University of Applied Sciences TrierLaROS - radar system . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
Institute of Ceramics and Building Materials, Opole - PLBinders made of paper waste . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
Institute of Ceramics and Building Materials, Opole - PLBiochar from clean and waste biomass . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
Institute of Ceramics and Building Materials, Opole - PLAn organomineral product with fertilizing properties . . . . . . . . . . . . . . . . . . . . 20
Booth Info . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21HMI chart . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22Transfer offices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 - 24more exhibitors from Rheinland-Pfalz . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25 - 28Appendix . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
Forschung & InnovationRheinland-Pfalz
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allymatch is the digital matching platform for innovative companies to find
R&D and investment partners, suppliers, buyers, and service providers
globally. allymatch is designed for decision makers of innovative companies
and organizations specializing in the manufacturing industries.
Companies worldwide are looking for sophisticated partnerships. Particularly
manufacturers are making big moves to achieve growth; entering new
geographic markets or sectors and changing the range of the products and
services they offer. There is an evident demand for a service that connects
innovators with one another. Existing solutions like b2b matching events are
surprisingly low-tech and high in cost. Scouring the world for the right match
requires a lot of effort. allymatch takes the long travel and wait times out of
B2B matching by automatically pairing users with one another with a mobile
app. Intelligent algorithms match users instantly based on inquiries that
can be created in a matter of minutes. Profiles and product information
are confidential, and they cannot be seen by users unless they are matched.
Company name and user details will only be displayed when the match is
accepted by both. allymatch brings a modern and digital approach to the
search enabling speed and privacy in ways never before possible.
allymatch users are innovative manufacturing companies, research institutes,
economic development organizations, tech startups and investors having an
opportunity to find one another from the familiar comfort of their
executives’ own smartphones for a fraction of the time and cost of other
B2B services.
allymatch makes innovation possible by
bringing partners together for collaboration.
Allymatch GmbH Erhaltstr. 1 55518 Mainz Email: [email protected] Web. https://www.allymatch.com
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Electrifying Organic Synthesis Exploiting electric current for the conversion of compounds and sustainable produc‐tion of value‐added products for the chemical and pharmaceutical industry
Switching the national energy supply system currently based of mostly fossil re‐sources onto renewable electricity such as wind power and photovoltaics generates provides electricity which does not match the demand. Storage of electricity in giant batteries turns out to be quite expensive and therefore, an employment of electricity for a significant value addition of the surplus in power is highly demanded. The elec‐tro‐conversion to value enhanced products seems to be one of the most attractive options for the use of surplus of electricity. The Waldvogel Lab is internationally rec‐ognized as a leading figure in this respective field, having unique experience for al‐most 20 years. The portfolio of this research lab covers the whole range starting from very powerful screening methods for optimizing the electrolytic conditions on a small scale up to upscaling of such process. In addition, electrolyte systems and electrode materials for highly selective conversions are investigated. Currently, this chemical discipline experiences significant attention by the producing chemical business as well as in the sustainable production of drug‐like compounds in agro and pharmaceu‐tical industry. Because often the chemical synthetic pathways can be short‐cut and reagent waste is avoided, this methodology is considered as disruptive and as future innovation.
Johannes Gutenberg‐Universität Mainz Tel.: +49 6131 3926069 Fax: +49 6131 3926777 E‐mail: waldvogel@uni‐mainz.de
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HIKE – Innovationsraum Bioökonomie Use of biogenic material streams for the production of intermediates for the plas‐tics industry
Fossil oil is a limited resource, the use of which is predominantly as energy source. The use in the form of plastics, which are mainly energetically exploited in Europe at the end of material life, is responsible for climate change. It is important to develop alternative methods being usable to build biogenic intermediates or materials for the plastic industry. In the proposed project to develop the "HIKE" innovation area, raw material and residual material streams in the processing industry of renewable raw materials have to be made usable by sustainable and almost CO2‐neutral biotechno‐logical and electrochemical implementations. This should lead to the identification of (novel) biotransformed materials as intermediates or even final products in the plas‐tics industry. The implementation of such a comprehensive area often fails, despite the great potential of innovative ideas, because the fitting partners from science, business and society do not come together. In this respect we will focus on the planned "HIKE" innovation space. For this purpose, materials and competences of industry, research facilities and academia are creatively combined to generate inno‐vations, products and technologies for the bioeconomy. The goal is to identify a de‐sired (biobased) material application and the research consortium, consisting of the initiator team and additional companies, determine the potentials thereof on a bio‐genic basis.
Johannes Gutenberg‐Universität Mainz Tel.: +49 6131 3926069 Fax: +49 6131 3926777 E‐mail: waldvogel@uni‐mainz.de
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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]: www.mwwk.rlp.de
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Improving energy- and eco-efficiency by using
plastics in tribological applications Taylored materials reduce friction and wear
Annual losses of approximately 5 % of the gross domestic product are caused by friction and wear. The availability of tailored materials with ad-vantageous frictional behaviour and low wear leads to reduced energy consumption and CO2-emissions, particularly when they are used in mobile applications.
The Chair of Composite Engineering at Technische Universität Kaiserslau-tern works on the development of such materials. High performance poly-mers are combined with reinforcement fibers and micro- and nano-sized fillers. The resulting composites join the advantages of their individual components to achieve optimal properties for their respective field of use.
The characterization of these novel materials is performed using special-ized test rigs for the measurement of friction and wear (tribometers). A pin-on-disc-tribometer, equipped with particular measuring and controlling devices will be displayed at Hannover Messe 2018 along with recent re-sults of research.
M.Sc. Nicholas EckeTU KaiserslauternLehrstuhl für Verbundwerkstoffe Gottlieb-Daimler-Str. Geb. 44D-67663 KaiserslauternTel: +49 (0)631 205-5753Mail: [email protected]
www.mv.uni-kl.de/cce/
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Kaiserslautern Racing Team Students from Kaiserslautern participating in a worldwide design competition
Kaiserslautern Racing Team, KaRaT, is formed by students of the Technical University and the University of Applied Sciences Kaiserslautern. Since 2008 it attends competitions of the Formula Student. They can be described as international events that put the interdisciplinary teamwork to test. Students from different specializations design, manufacture and assemble a formula style racing car and compete with university teams from all around the world. There are many different disciplines demanding a wide range of knowledge.
Within the project there are currently around 50 active team members that deal with latest challenges of the automotive industry by designing a highly complex vehicle.
The racing car called “Electronyte e17” is not just the only electrically powered of its kind in the state of Rhineland-Palatinate, it is also honored as the most energy efficient at the major competition in Germany. Within this project students are enabled to advance their personal and professional development. Therefore, they are prepared for upcoming tasks of the professional world and future E-Mobility as best as possible.
Kaiserslautern Racing Team - KaRaT TU Kaiserslautern Gottlieb-Daimler-Straße 47 D-67663 Kaiserslautern Tel: +49 (0)631 205 4026 Mail: [email protected] www.karatracing.de
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vpe.mv.uni-kl.de
Prof. Dr.-Ing. Jens Göbel TU Kaiserslautern Lehrstuhl für Virtuelle Produktentwicklung (VPE) Gottlieb-Daimler-Str. 44 D-67663 KaiserslauternTel: +49 (0)631 205-3873Mail: [email protected]
Innovative Service Products for
Availability-Oriented Business Models The BMBF Research Project InnoServPro (FKZ: 01FJ15009)
Today, availability-oriented business models for capital goods can only be implemented poorly despite increasing demand, as they involve a high degree of uncertainty and high risk. Excessive costs due to a lack of transparency about the condition of a machine are not economically viable for the supplier and the customer. The reason for this is missing information about the product during operation. By means of Internet-based use and intelligent analysis of field and operating data of communicating products, however, these uncertainties can be eliminated and the risk can be better estimated. Industrie 4.0 and IT technologies available today offer new opportunities to realize innovations in the service sector and thus to be able to offer availability-oriented business models and exploit their potential.
The BMBF research project InnoServPro addresses this topic. The overall goal is the development of innovative service products for the entire extended value-added network for the realization of individualized, availability-oriented business models for capital goods through product service systems (PSS). The basis for this are intelligent, communication-capable components that provide real-time data on the operation of capital goods, the intelligent analysis and integration of this operational data with master data and data from the service provision to a consistent database as well as the management and the exchange of all data via an innovative information management system and a suitable communication platform. In particular, the self-initiated and organized maintenance of machines opens up the need for research into models, methods and IT technologies in product development.
The Institute for Virtual Product Engineering (VPE) presents first project results, including modern development methods and IT technologies (such as Model-Based Systems Engineering, System Lifecycle Management, Service Lifecycle Engineering, Digital Twin) as components of an innovative information management system for the realization of PSS. The innovative IT solutions developed in the project are explained using virtual demonstrators.
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Interoperability for the Internet of Things Towards a virtual neighborhood
The current landscape in the Internet of Things is dominated by isolated, closed Systems, often also referred to as “Silos”. A connection between these Systems is only very limited or not even possible at all.
One possible solution involves forming virtual neighborhoods, connecting various devices from different silos via an IoT Gateway. One key aspect: the “Thing” owners, hence the users remain in complete control over their devices, their data and can decide individually who has access to which part of their system.
This approach is applicable to various domains, such as E-Health, energy management, building automation or even Industry 4.0.
Prof. Dr. Christoph Grimm TU Kaiserslautern Arbeitsgruppe Entwicklung Cyber-Physikalischer Systeme Gottlieb-Daimler-Str. 49 D-67663 KaiserslauternTel: +49 (0)631 205-3283Mail: [email protected] http://vicinity2020.eu
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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 Dosch Tel.: +49 (0)6312053001Email: [email protected]., Building 32D-67663 Kaiserslautern
www.transfernetz-rlp.de
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Continuous Separation of Enantiomers by Selective Crystallization
What are enantiomers?
Enantiomers are molecules found in two variants that are mirror images of each other, like left hand and right hand. They occur frequently as food components or as pharmaceutical agents.
Why separation of enantiomers?
Enantiomer and counter‐enantiomer may have completely different effects on biological organisms or the human body. As chemical synthesis usually produces a 50/50 % mixture of both enantiomers, the mixture has to be separated into its two components. The separation task is challenging, because enantiomer and counter‐enantiomer have identical physical and chemical properties in an achiral environment.
Continuous Separation of Enantiomers by Selective Crystallization
is a novel process that allows for the separation of a large class of enantiomers (so‐called agglomerates). By coupling two fluidized bed crystallizers in a suitable way, both enantiomers can be recovered in pure crystalline form from a racemic mixture. The process is studied in a joint research project funded by the German Science Foundation DFG.
Why mathematical modeling?
The operation window of the considered process is quite small; choosing optimal operation conditions by experimental studies is tedious. Therefore, as a key objective of the project mathematical models are developed for the process design. Based on these models, computer simulations and numerical optimizations determine optimal operation conditions and optimal crystallizer geometries for maximum product purity or maximum yield.
Contact: Partners:
Prof. Dr.‐Ing. Michael Mangold Technische Hochschule Bingen Berlin‐Str. 109 55411 Bingen Tel: 06721 / 409 139 m.mangold@th‐bingen.de
Prof. Dr.‐Ing. Andreas Seidel‐Morgenstern Max‐Planck‐Institut für Dynamik komplexer technischer SystemeMagdeburg PD Dr.‐Ing. Gabor Janiga Lehrstuhl für Strömungsmechanik und Strömungstechnik Otto‐von‐Guericke‐Universität Magdeburg
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PIRXAT – Pilotless Intelligent Radar Experiment
The advanced flying drone PIRXAT of the TH Bingen ‐ AT stands for Advanced Technology ‐ has reached a level that qualifies it for various mission scenarios. The system is modular in design and consists of three main components: the drive segment, the combined payload/electronic unit and the removable wings. It is transported disassembled in a robust case and mounted before use without special tools. On customer request, it can be completed with a ground station that can also be transported in a case. The electronic unit provides the user with a well‐defined payload volume for his own applications. Various electronic and mechanical interfaces offers connection points and feed options for data acquisition and data transmission. A microwave radar allows controlled level flight with defined contour tracking. An anti‐collision radar is under development. Some mechanical system components are realized as 3D printed parts.
Prof. Dr.-Ing. Jens Altenburg Technische Hochschule Bingen Berlinstraße 109 55411 Bingen am Rhein Tel: 06721 / 409 490 Email: [email protected]
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Development of a novel Ice‐Tribometer
The objective of developing novel coatings for jump skies is to reduce the friction between the ski sole and the ice surface of the inrun in order to increase the jump speed. It is known that an increase in speed leads to further jumps (rule of thumb: 1 m/s faster correlates to about 10 m). A problem consists in the objective measurement of the coefficient of friction under competition conditions (100 m inrun, acceleration from 0 to 100 km/h in about 5 seconds, same surface pressure). All known ice‐tribometers use small‐sized sample with too high surface pressures or accelerate much faster.
The base material of jumpski soles is defined by the International Ski Federation (FIS). Thus, it is compulsory to use an ultra‐high‐molecular‐weight polyethylene (UHMW‐PE) to manufacture jumpski soles. At the University of Applied Sciences Kaiserslautern, a procedure was
developed to joint UHMWPE‐tapes to rings without ridges. These rings are measured against the sliding partner ice on a test‐rig (works like a belt sander) also developed at the University of Applied Sciences Kaiserslautern. The friction force is due to the deflection of an ice‐sheet being form‐fitted in a flat bowl. The migration of coating particles can be eliminated by replacing the bowl after each test run. The test‐rig is situated in a cooled chamber at ‐8° C, the temperature defined by the FIS for the inrun.
Adress: Prof. Dr. Jens Schuster University of Applied Sciences Kaiserslautern Campus Pirmasens Carl-Schurz-Str. 10 – 16 D - 66953 Pirmasens
Tel: +49 631 3724-7049E-mail: [email protected] WEB: www.hs-kl.de
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2TX/8RX 24GHz radar system for the Basic and application research in the field of radar sensors
The primary objective of the project is to teach students of electrical engineering the mathematical, physical and technical basics of radar technology. While the basics of signal theory are taught in most universities, the acquired knowledge is not practically applied. Since the lectures are often accompanied by laboratories in the engineering sciences, a MIMO radar with two transmitting and eight receiving antennas has been developed for this purpose. The radar operates in the 24 GHz ISM band and can be operated as a pure continuous wave radar or as a frequency-modulated continuous wave radar. It enables a parallel processing of the four received signals and an independent selection of the transmitting antennas. The radar module can be connected to a computer using a data logger. In this way, the frequency ramps of the FMCW measurement can be controlled via a trigger signal and the baseband signals of the eight receiving antennas can be read. Students will thus be able to practically apply the theoretical knowledge of signal processing based on the radar signals in Matlab. Furthermore the radar module has five BNC ports through which the four baseband signals of the receive channels as well as the trigger signal can be tapped. The lab uses only the radar and four-channel oscilloscopes with Fourier transform capability. The students will intensify the topics of radiation characteristics, CW radar, FMCW radar, digital beamforming and MIMO radar in five experiments. Each experiment contains a detailed repetition of the theoretical foundations and is intended to familiarize students with the interpretation of the signals in the time and frequency domain.
Primäres Ziel des Projektes ist es Studierenden der FachrichtungElektrotechnik die mathematischen, physikalischen und technischen Grundlagen der Radartechnik zu vermitteln. In den meisten Hochschulenwerden zwar die signaltheoretischen Grundlagen gelehrt, allerdings wird daserlangte Wissen nicht praktisch angewandt. Da in den Ingenieurswissenschaften die Vorlesungen oft von Laboren begleitet werden,wurde zu diesem Zweck ein MIMO-Radar mit zwei Sende- und achtEmpfangsantennen entwickelt. Das Radar arbeitet im freien 24 GHz ISM-Band und kann als reinesDauerstrichradar oder als frequenzmoduliertes Dauerstrichradar betriebenwerden. Es ermöglicht eine parallele Verarbeitung der acht Empfangssignaleund eine unabhängige Auswahl der Sendeantennen.Das Radarmodul kann unter Verwendung eines Datenerfassungsgerät mit
Hochschule Trier Prof. Dr. Andreas Diewald Tel: +49 651 8103 217 E-mail: [email protected] WEB: www.hochschule-trier.de/go/laros
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Binders made of paper waste
Paper waste prepared for thermal processing in a rotary kiln and after thermal processing and milling. Paper mills produce waste paper that has to be managed, disposed of or safely stored in accordance to the current environmental protection requirements. A team of scientists from the Institute of Ceramics and Building Materials in Opole has developed a method to process waste from papermaking industry into an active binder. This is an interesting solution both from an economic and ecological point of view. As a result of thermal activation, the main components of the waste, calcite and kaolinite decompose and form active compounds: metakaolinite and reactive lime what leads to obtain binding and pozzolanic properties of thermally treated waste. For the wide range of economic application of recycled waste material, further investigations for many applications are required for: as addition to mortars, decorative plaster, cement; for the production of aerated concrete; for the production of a silicate stone; as a bleaching agent for papermaking. Furthermore it can be used in environmental protection: as a sorbent for flue gas desulfurization, as an agent of sanitizing and neutralization of sewage sludge and in others sorption processes. Therefore, we are looking for partners who would like to collaborate in research and production in order to further research in the areas of application mentioned above. PhD Eng. Krystyna Rajczyk Institute of Ceramics and Building Materials Building Materials Engineering Division in Opole 45-675 Opole, Poland Oświęcimska Street 21
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Biochar from clean and waste biomass
Municipal sewage sludge biochar Rye straw biochar
Chicken litter biochar RDF (alternative fuels) biochar The biochar samples has been manufactured in the test installation for pyrolysis of pure and waste biomass. The research stand was built in order to determine the technological parameters of pyrolysis of various types of biomass to receive biochar.
Feed materials are, for example, sewage sludge, municipal waste, agriculture, farming and forest waste, waste from the food industry. The test installation allows the process to be run for a given temperature and time of pyrolysis. It records the process temperature and pressure as well as material mass loss in the reactor (process thermogram) and outlet gas contamination.
The installation consists of reactor with a volume of max. 150 l equipped with a two-part electric heater with a power of 2x 1.5 kW (max temperature 550 0C) and pyrolysis gas condenser with a volume of 400 l with a coil connected to a circulating pump and a fan cooler.
The pictures show biochar samples obtained from municipal sewage sludge, rye straw, chicken litter and alternative fuels (RDF).
Dr Ing. Franciszek Sładeczek Institute of Ceramics and Building Materials Proces Engineering of Building Materials Division 45-675 Opole, Poland Oświęcimska Str. 21
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An organomineral product with fertilizing properties stimulating plant growth and improving soil quality
The product was created in the process of stabilization of municipal sewage sludge with fly ash from the combustion of biomass in fluidized bed boilers used in power industry. The technology of stabilizing municipal sewage sludge with the new generation fly ash from biomass combustion enables the management of two types of waste with the simultaneous use of the resulting product in order to fertilize poor soils with organic matter. The sewage sludge processed in a safe way enriches the soil with organic matter. New generation fly ash from biomass combustion in fluidized bed boilers used in power industry provides plants with mineral nutrients by enriching the soil.
The product contains no hazardous substances, including pathogenic microorganisms. In the stabilization of sewage sludge by fly ash from biomass combustion, a simultaneous sterilization of the material takes place. It has no negative effects on the germination and growth of monocotyledonous and dicotyledonous plants. It can be used in the rehabilitation of degraded areas as well as in urban green areas.
Dr Joanna Poluszyńska Institute of Ceramics and Building Materials Process Engineering of Building Materials Division 45-675 Opole, Poland Oświęcimska Str. 21
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Booth Info HMI 2018
Hall 2 / Booth B40
Research and Innovation Rheinland-Pfalz
1 Johannes Gutenberg-University Mainz AG Waldvogel Electrifying Organic Synthesis
2 Johannes Gutenberg-University Mainz HIKE HIKE
3 Technische Universität Kaiserslautern AG Göbel VPE
4 University of Applied Sciences Trier AK Diewald LaROS
5 allymatch GmbH I. Kemmler smart b2b matching app
6 University of Applied Sciences Kaiserslautern AD Schuster Ice-Tribometer
7 Technische Universität Kaiserslautern AK Grimm VICINITY 2020
8 Region Opole Dr. P. Lebzuch ICBM
9 University of Applied Sciences Bingen AG Mangold Separation of Enantiomers
10 University of Applied Sciences Bingen AG Altenburg PIRX AT
11 Technische Universität Kaiserslautern LS Verb. Werkstoffe Tribology of plastics
12 Technische Universität Kaiserslautern KaRaT Electronyte e17
13 Transferinitiative and Transfernetz Rheinland-Pfalz
14 IMG Innovations-Management GmbH mak Wissenschaft e. V. Science|Square
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itmes
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Tech
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le 2
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& su
pply
cha
in m
anag
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alle
n 19
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24, 2
6 FG
, Pav
illon
s 32–
35)
Indu
stria
l Sup
ply
Inte
rnat
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le L
eitm
esse
für i
nnov
ativ
e Zu
liefe
rlösu
ngen
und
Lei
chtb
au(H
alle
n 3–
5)
Ener
gy
Inte
rnat
iona
le Le
itmes
se fü
r int
egrie
rte
Ener
gies
yste
me
und
Mob
ilitä
t(H
alle
n 11
–13,
27,
FG)
Dig
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acto
ryIn
tern
atio
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Leitm
esse
für i
nteg
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e Pr
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se u
nd IT
-Lös
unge
n(H
alle
n 6–
8)
Inte
grat
ed A
utom
atio
n,
Mot
ion
& D
rives
In
tern
atio
nale
Leitm
esse
für i
nteg
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tom
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n, In
dust
rial I
T, A
ntrie
bs- u
nd
Flui
dtec
hnik
(Hal
len
8, 9
, 11,
12, 1
4–17
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23)
Youn
g Te
ch
Ente
rpris
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strie
4.0
m
eets
the
In
dust
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Glo
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usin
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& M
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ts
Elec
tric
Tran
spor
tatio
n Sy
stem
s
Logi
stic
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Hub
Logi
stic
s Sol
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ns F
orum
Besu
chen
Sie
uns
:H
alle
2, S
tand
B40
Visit
us a
t H
all 2
, Boo
th B
40
23
Transfer Offices
Research and TechnologytransferUniversity of Applied Science BingenDipl.-Ing. (FH) Ludger Nuphaus Fachbereich 1 Gebäude 5, Raum 13555411 Bingen am Rhein Phone: +49 (0) 6721 409 491 E-Mail: [email protected]: www.th-bingen.de
Research and TechnologytransferJohannes Gutenberg-Universität MainzDr. Wolfgang StilleForum universitatis 2 D 55128 Mainz Phone: +49 (0) 6131 39-20739 Telefax: +49 (0) 6131 39-24741 E-Mail: [email protected]: www.uni-mainz.de
Department of Technology and InnovationTechnische Universität KaiserslauternDipl.-Ing Klaus DoschPostfach 304967653 KaiserslauternPhone: +49 (0)631 205 2209Fax: +49 (0)631 205 2925E-Mail: [email protected]: www.rti.uni-kl.de/technologie/
24
Transfer Offices
Department of Research and Project CoordinationUniversity of Applied Sciences KaiserslauternDr. Susanne Schohl Schoenstr. 3 67659 Kaiserslautern Phone: + 49 (0) 631-37242159 Fax: + 49 (0) 631-37242105 E-Mail: [email protected]: www.hs-kl.de
Knowledge and technology transferUniversity of Applied Sciences TrierProf. Dr. Gisela SparmannVice-President - Research / Technology TransferSchneidershof J/10454293 TrierPhone: +49 (0) 651/8103-445Fax: +49 (0) 6782 17-1282E-Mail: [email protected]: www.umwelt-campus.de
25
Exhibitors from Rheinland-Pfalz
Amber Wireless Trier Hall 008 / Booth D35
allymatch Mainz Hall 2 / Booth B40
BASF Ludwigshafen Hall 17 / Booth A73
Bluhm Systeme Rheinbreitbach Hall 17 / Booth C40
CirComp Kaiserslautern Hall 5 / Booth E48
Creative Chips Bingen Hall 9 / Booth D68
DUREL Neitersen Hall 5 / Booth E48
e-bility Remagen Hall 5 / Booth B16
EHRT Maschinenbau Rheinbreitbach Hall 12 / Booth D01
Elatec Power Distribution Konz Hall 13 / Booth E99
Endter SinterTechnics Densborn Hall 3 / Booth G20
fleXstructures Kaiserslautern Hall 6 / Booth A30
Forschung und Innovation Rheinland-Pfalz Mainz Hall 2 / Booth B40
26
Exhibitors from Rheinland-Pfalz
Forschungsinstitut für Anorg. Werkstoffe Höhr-Grenzhausen Hall 5 / Booth A16
Fraunhofer IMM Mainz Hall 27 / Booth B74
Fraunhofer-Institut IESE Kaiserslautern Hall 2 / Booth C22
Fraunhofer-Institut ITWM Kaiserslautern Hall 6 / Booth A30
GDI Gesellschaft für Datentechnik Landau Hall 7 / Booth D12
Gebr. Kunz Maxdorf Hall 12 / Booth B03
Gross Funk Schopp Hall 8 / Booth E28
HS Kaiserslautern - FB ALP Pirmasens Hall 2 / Booth B40
HS Trier Trier Hall 2 / Booth B40
HS Trier / Umwelt-Campus Birkenfeld Hoppstädten-Weiersbach Hall 27 / Booth B67
IBM Deutschland Mainz Hall 8 / Booth D18
iC-Haus Bodenheim Hall 9 / Booth H22
IDS-Technology Bitburg Hall 11 / Booth E24
27
Exhibitors from Rheinland-Pfalz
IMG Innovations-Management Kaiserslautern Hall 5 / Booth E48 Hall 2 / Booth B40
INNOMAG Mainz Hall 9 / Booth H22
iTAC Software Montabaur Hall 7 / Booth D26
IT-Überblick Üxheim Hall 6 / Booth H06
KAUTZ Starkstrom-Anlagen Trier Hall 13 / Booth D61
Lohmann Neuwied Hall 5 / Booth E48
LOOMIS-PRODUCTS Kahlefeld Kaiserslautern Hall 5 / Booth A16
Math2Market Kaiserslautern Hall 6 / Booth A30
MiniTec Schönenberg-Kübelberg Hall 8 / Booth D18
NATUS Trier Hall 12 / Booth D71
proALPHA Business Solutions Weilerbach Hall 8 / Booth D18
Schott Mainz Hall 5 / Booth A16
28
Exhibitors from Rheinland-Pfalz
Technologie-Initiative SmartFactory KL Kaiserslautern Hall 8 / Booth D18
Tesla Grohmann Automation Prüm Hall 16 / Booth E28
TH Bingen Bingen Hall 2 / Booth B40
TU Kaiserslautern Kaiserslautern Hall 2 / Booth B40
TU Kaiserslautern / Gründungsbüro Kaiserslautern Hall 17 / Booth B68 / (B57)
Uni Mainz Mainz Hall 2 / Booth B40
Vereinigte Fachverlage Mainz Hall 8 / Booth C10
Vertretung der Woiwodschaft Oppeln Mainz Hall 2 / Booth B40
W.I.N Women in Network® Kastellaun Booth G19
29
Appendix
Concept:Grafik & Design Susanne Daugill Schumannstr. 1267655 KaiserslauternMobile: +49 (0) 176 40 35 80 21E-Mail: [email protected]
Production Folder:label D Satz+Daten GmbHSophie-Charlottenburg-Straße 31/32 (2. OG)14059 BerlinPhone: +49 (0) 30 35 18 03 2Fax: +49 (0) 30 35 18 03 2E-Mail: [email protected]
Photo credits:Photo Prof. Dr. WolfPhotographer: Doreen Tomkowitz
Forschung & InnovationRheinland-Pfalz