HANNOVER MESSE, APRIL 7–11, 2014 - · PDF filelandscape in general new perspectives will...
Transcript of HANNOVER MESSE, APRIL 7–11, 2014 - · PDF filelandscape in general new perspectives will...
Hannover Messe Hannover Messe Hannover Messe
Hannover Messe Hannover Messe Hannover Messe
Hannover Messe Hannover Messe Hannover MesseHannover Messe Hannover Messe Hannover Messe
Hannover Messe Hannover Messe Hannover MesseHannover Messe Future Factory Hannover Messe HaHannover Messe Hannover Messe Hannover Messe
Hannover Messe Simulation Hannover MesseHannover Messe Hannover Messe Hannover Messe
Hannover Messe Greentec Hannover esseHannover Messe Hannover Messe Hannover MesseHannover Messe Production HannoverHannover Messe Hannover Messe Hannover Messe
Hannover Messe Hannover Messe Energy HannoverHannover Messe Hannover Messe Hannover Messe
Hannover Messe Hannover Messe Adaptronics HannoverHannover Messe Hannover Messe Hannover Messe
Hannover Messe Hannover Messe Hannover MesseTHE FUTURE OF PRODUCTION
H A N N O V E R M E S S E , A P R I L 7 – 1 1 , 2 0 1 4
Hannover Messe Hannover Messe Hannover Messe
T H E M E P A V I L I O N
E L E C T R O M O B I L I T Y
EVENTS P. 4
TOPICS, TECHNOLOGY INDEX P. 38
PRODUCTION OF THE FUTURE P. 2
SITE PLAN (FOLD-OUT)
CONTENTS
JOINT BOOTHS P. 6
Future Factory p. 6Adaptronics p. 14Green Technologies and Materials p. 18Simulation p. 22Energy p. 26Production p. 32Further Fraunhofer units p. 36
Visit our websitewww.fraunhofer.de/hm2014e and learn more about Fraunhofer exhibits and other highlights at the fair.
PREFACE
PRODUCTION OF THE FUTURE
The first steps toward an intelligent factory have been made:
Embraced by the catch phrase “industry 4.0”, they have been
discussed for quite a while, also by the wider public. Various soft-
ware solutions, for example for planning production processes,
or technologies all around energy efficiency have been developed
independent of each other. Now these individual solutions need
to be synchronized and integrated into existing production
processes of the industry. Only if standards are established that
are accepted worldwide and all necessary components are
successfully networked, production facilities with the highest pos-
sible flexibility may be set up that are at the same time efficient.
Because the future is no longer about generating maximum
revenue with minimum use of capital, it is about maximum added
value with minimum use of resources.
At HANNOVER MESSE, Fraunhofer showcases what the pro-
duction of tomorrow could look like. With an innovative energy
management enabling new approaches for distributing and
storing energy or through the use of intelligent materials as well
as production-related sensor systems, production processes may
be designed differently. Improved interfaces for human-machine
interaction allow for a better involvement and support of humans
in the production processes. But also for the future of the job
landscape in general new perspectives will open up through com-
bining software, classic machine engineering, and the Internet.
So come and visit our joint Fraunhofer booth in Hall 2. In
other halls, we furthermore present Fraunhofer developments
in the fields of adaptronics, energy, as well as simulation and
environmental technologies. This booklet will inform you about
our solutions for your company!
Sincerely,
Prof. Dr. Reimund Neugebauer
President Fraunhofer-Gesellschaft
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E V E N T S
Mon, April 7 Fraunhofer-Gesellschaft
Press conference
“Fraunhofer at HANNOVER MESSE”
2.00 – 3.00 p.m.
Forum tech transfer, Hall 2, Booth D04
Future Factory
Prof. Dr. Reimund Neugebauer,
President of the Fraunhofer-Gesellschaft
Fraunhofer scientists
Fraunhofer-Gesellschaft
Green Photonics Award
3.15 – 4.00 p.m.
Forum tech transfer, Hall 2, Booth D04
Prof. Dr. Reimund Neugebauer,
President of the Fraunhofer-Gesellschaft
Prof. Dr. Andreas Tünnermann,
Head of Fraunhofer IOF
Fraunhofer Green Photonics Innovation Cluster
Fraunhofer-Gesellschaft
Press conference
“Numeric Simulation”
10.00 – 11.00 a.m.
Hall 7, Booth B10
Numeric simulation
Andreas Burblies,
Speaker of the Fraunhofer
Simulation Alliance
Fraunhofer Simulation Alliance
Time
Location
Topic
Speakers
Host
Mon, April 7
Time
Location
Speakers
Host
Tue, April 8
Time
Location
Topic
Speaker
Host
H A N N O V E R M E S S E B L O G
W W W . F R A U N H O F E R . D E / H M B L O G
FRAUNHOFER BLOG:KNOW WHAT’S GOING ON!
As in previous years, you will again receive the latest information
from HANNOVER MESSE every day this year. Discover the joint
Fraunhofer booths together with us, read exciting interviews,
see films about our innovations, and get information about our
Fraunhofer exhibits.
Immerse yourself in the exciting world of Fraunhofer!
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Germany needs to be strengthened as a production location
to further develop its economic power. Therefore, the industry
needs new solutions for cost-efficient production processes that
also preserve resources. The “Integrated Industry” sector has,
thus, been in the focus of many research activities at Fraunhofer
for some time. Cyber-physical systems link the virtual world to
objects of the real world. This creates the “Internet of things”
where real products and production processes are linked to the
Internet. This accelerates processes and helps to better utilize
resources. However, what is decisive for the success of the
integrated industry, is the human factor. With new technologies
in human-machine interaction and with a comprehensive training
program, Fraunhofer essentially contributes to the further
development of Germany as a production location.
10 Fraunhofer establishments present exhibits to the visitor related
to resource and energy efficiency, human-machine interaction,
digital engineering, system and innovation research, city of the
future, as well as career and training.
THE FACTORY OF THE FUTURE – INTEGRATED INDUSTRY
J O I N T B O O T H
FUTURE FACTORY
MAIN FOCUS
RESOURCE AND ENERGY EFFICIENCY
Whether production, power generation, or mobility issues: The
question of resource and energy efficiency is always in the focus
when it comes to developing new technologies. Fraunhofer
showcases possible solutions such as for an emission-neutral fac-
tory, presents concepts for an innovative energy management, or
explains the use of intelligent materials.
HUMAN-MACHINE INTERACTION
Humans are and will be the most important factor in the factory of
the future. Only by matching production processes and employees
exactly may the innovative idea of an “integrated industry” be
put into practice. Whether ultra-flat cameras, sophisticated sensor
technology, or state-of-the-art testing methods – everything serves
the perfect interface between humans and machine.
F U T U R E FA C T O RYH A L L 2 , B O O T H D 1 8
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CITY OF THE FUTURE
What does the city of the future look like? In what kind of city do
the people want to live in the future? One thing is sure: The city
will keep on playing an important role in the life of many people
and by the year of 2050, probably two thirds of all people will
live in large metropolitan areas. Fraunhofer developed a scenario
for the city of the future that includes core issues such as urban
systems and urban mobility.
CAREER AND TRAINING
Fraunhofer offers numerous professional possibilities. Many
new positions will be available in 2014. And training is also a
priority at Fraunhofer. Fraunhofer know-how is available for
most different areas of expertise. Core issues are technology and
innovation, energy and sustainability, logistics and production, as
well as manufacturing and testing technology.
DIGITAL ENGINEERING
Production processes are highly complex in their planning. This is
why Fraunhofer develops digital methods to better support devel-
opment processes in the industry and to consequently control the
entire production cycle. By means of digital engineering, the digital
construction data of a product is used at all following stages of
its development and production process. This way, better and
safe products are developed, processes are accelerated, resources
are preserved, and costs are sustainably lowered.
SYSTEM AND INNOVATION RESEARCH
System and innovation research analyzes the occurrence and
effects of innovations. The focus is on short and longterm
developments of innovation processes and their consequences
for society. Studies and expert reports may therefore provide
recommendations for the industry, politics, and science. In
particular interdisciplinary competence is of decisive importance
in that context.
F U T U R E FA C T O RYH A L L 2 , B O O T H D 1 8
J O I N T B O O T H
FUTURE FACTORY
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Fraunhofer Institute for
Applied Optics and Precision Engineering IOF
3Dsensation • Human-machine interaction • 3D capturing of
dynamic processes • In-line quality assurance
www.iof.fraunhofer.de
Fraunhofer Institute for Applied Solid State Physics IAF
Gallium nitride • Power electronics • Gallium nitride converter •
Light-emitting diodes • Diamond • Environment sensing •
Magnetometry • High-energy laser optics
www.iaf.fraunhofer.de
Fraunhofer Institute for
Factory Operation and Automation IFF
Digital engineering • Industry 4.0 • Production processes and
systems • Virtual commissioning • Integrated product development
www.iff.fraunhofer.de
Fraunhofer Institute for Industrial Engineering IAO
Sustainable urban development • Urbanization • Micro smart
grid • Local energy systems • Electromobility • Smart networking •
Urban systems • The city as a future market
www.iao.fraunhofer.de
FRAUNHOFER EXHIBITION PARTNERS
Fraunhofer Institute for
Machine Tools and Forming Technology IWU
E3 Research Factory Resource-efficient Production • Intelligent
Factory • Flexible car body construction • Ultra-short process
chains • Energy Management 2.0
www.iwu.fraunhofer.de
Fraunhofer Institute for Nondestructive Testing IZFP
NDT for fiber reinforced composites • Robot-based ultrasonic
inspection • 3D reconstruction • Visual volume reconstruction •
Sampling-phased array technology
www.izfp.fraunhofer.de
Fraunhofer Institute for
Systems and Innovation Research ISI
Decision support • Industry benchmarking • Transformation
ability of companies • Energy-efficient ICT • Big data •
Efficiency consulting
www.isi.fraunhofer.de
Fraunhofer Group for Production
Humans in manufacturing • Ergonomics • Energy conservation •
Resource conservation • Emission-neutral factory • Manufactur-
ing without raw materials • Logistics and manufacturing
www.produktion.fraunhofer.de
F U T U R E FA C T O RYH A L L 2 , B O O T H D 1 8
J O I N T B O O T H
FUTURE FACTORY
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FRAUNHOFER EXHIBITION PARTNERS
Fraunhofer Academy
Advanced training • Technology and innovation • Energy and
sustainability • Logistics and production • Manufacturing and
testing technology • Information and communication • Mobile
learning
www.academy.fraunhofer.de
Fraunhofer-Gesellschaft, Recruiting
Recruiting • Jobs • Vacancies • Apprenticeship • Junior programs
www.fraunhofer.de/career
F U T U R E FA C T O RYH A L L 2 , B O O T H D 1 8
Franziska Kowalewski
Phone +49 89 1205-1363
Fraunhofer-Gesellschaft
Hansastrasse 27 c
80686 München, Germany
www.fraunhofer.de
Press
Marion Horn
Phone +49 89 1205-1308
CONTACT
■ Hall 2, Booth D18
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J O I N T B O O T H
FUTURE FACTORY
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Adaptronics is based on the combination of conventional
structures with active material systems extending a load-bearing
structure through sensory and actuatory functions. Such systems
may be used for various tasks such as for active vibration reduc-
tion, noise abatement, and structure monitoring.
The Adaptronics joint booth introduces the latest developments
in the fields of these intelligent material systems. Together with its
partners from research and industry, the Fraunhofer Adaptronics
Alliance will also present trends and future issues in addition to
present products.
At the fair, the Fraunhofer Adaptronics Alliance will showcase,
among others, examples of use of production technology (adaptive
spindle fixture) and function-integrated bearing (multi-axial active
isolation platform).
SMART MATERIALS AGAINST NOISE AND VIBRATIONS
A D A P T R O N I C SH A L L 2 , B O O T H D 1 3
MAJOR AREAS OF RESEARCHAND DEVELOPMENT
With a reasearch assignment of the Fraunhofer-Gesellschaft fo-
cusing on application, nine institutes engaged in complementary
research areas continuously develop the adaptronics technology
within the Fraunhofer Adaptronics Alliance.
These institutes cooperate with their R&D partners in scientific as
well as in industrial research projects. This enables interdisciplinary
solutions from one single source.
The partners’ competences cover the following areas
– Materials and components
– Numerical and experimental simulation
– Electronics and control engineering
– Production and processing
J O I N T B O O T H
ADAPTRONICS
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Fraunhofer Adaptronics Alliance
www.adaptronik.fraunhofer.de
Fraunhofer Institute for
Ceramic Technologies and Systems IKTS
www.ikts.fraunhofer.de
Fraunhofer Institute for
Machine Tools and Forming Technology IWU
www.iwu.fraunhofer.de
Fraunhofer Institute for
Structural Durability and System Reliability LBF
www.lbf.fraunhofer.de
Fraunhofer Institute for Surface Engineering and Thin Films IST
www.ist.fraunhofer.de
EXHIBITION PARTNERS
AdaptaMat Ltd. • German Aerospace Center (DLR) • Ingpuls gmbh •
LOEWE AdRia • Lord Germany GmbH • Rhein-Main Adaptronik
FRAUNHOFER EXHIBITION PARTNERS
A D A P T R O N I C SH A L L 2 , B O O T H D 1 3
Heiko Atzrodt
Phone +49 6151 705-236
Fraunhofer Adaptronics Alliance
P.O. Box 10 05 61
64205 Darmstadt, Germany
www.adaptronik.fraunhofer.de
Press
Anika Seifert
Phone +49 6151 705-236
CONTACT
■ Hall 2, Booth D13
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J O I N T B O O T H
ADAPTRONICS
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Demographic change, energy transition, globalization, and
resource shortage – these are the determining factors for how
society and economy will develop over the next years. An intelli-
gent and sustainable use of raw materials and energy is important
for private households as it is important for enterprises. Efficiency,
thus, is one of the significant key words in terms of energy as well
as in terms of resources. At the booth, the Fraunhofer Building
Innovation Alliance together with its member institutes will
showcase innovative efficiency technologies related to “materials”,
“surfaces”, “water”, and “green chemistry”.
Fraunhofer develops intelligent and cost-efficient processes for
recovering and sustainably reusing valuable raw materials used in
many products. Examples of such processes include electrodynamic
fragmentation or magnetic separation. Green technologies such as
photocatalytic coatings or catalytic processes for a sustainable raw
material and energy supply based on renewable resources serve
both, the desire for efficiency as well as for sustainability.
The Fraunhofer Building Innovation Alliance bundles the resources
and competences of 17 Fraunhofer research establishments related
to the building industry. The Fraunhofer-Gesellschaft therefore
GREEN TECHNOLOGIES AND MATERIALS
offers one central partner to the market for integral system
solutions in planning and construction. The portfolio offered
addresses small and large medium-sized companies alike and,
thus, also covers a wide range.
The Fraunhofer Building Innovation Alliance sees itself also as
an initiator of new and innovative topics all around building
research. As an interdisciplinary organization, it acts as an
interface between economy, research, and politics. The aim is
to develop application-oriented system solutions together with
the industry to meet current and future challenges faced by the
building industry with new procedures and products. Contacts
and partnerships around the globe enable the support of
international companies abroad.
G R E E N T E C H N O L O G I E S A N D M AT E R I A L SH A L L 6 , B O O T H J 1 8
J O I N T B O O T H
GREEN TECHNOLOGIES AND MATERIALS
1918
Janis Eitner
Phone +49 8024 643-203
Fraunhofer Institute for Building Physics IBP
Fraunhoferstrasse 10
83626 Valley, Germany
www.bau.fraunhofer.de
Fraunhofer Center for
Chemical-Biotechnological Processes CBP
www.cbp.fraunhofer.de
FRAUNHOFER EXHIBITION PARTNERS
Fraunhofer Building Innovation Alliance
www.bau.fraunhofer.de
Fraunhofer Photocatalysis Alliance
www.photokatalyse.fraunhofer.de
Fraunhofer Institute for Building Physics IBP
www.ibp.fraunhofer.de
Fraunhofer Institute for
Interfacial Engineering and Biotechnology IGB
www.igb.fraunhofer.de
Fraunhofer Institute for
Manufacturing Technology and Advanced Materials IFAM
www.ifam.fraunhofer.de
Fraunhofer Institute for Silicate Research ISC
www.isc.fraunhofer.de
Fraunhofer Institute for Silicate Research ISC – Project
Group Materials Recycling and Resource Strategies
www.iwks.fraunhofer.de
CONTACT
G R E E N T E C H N O L O G I E S A N D M AT E R I A L SH A L L 6 , B O O T H J 1 8
■ Hall 6, Booth J18
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GREEN TECHNOLOGIES AND MATERIALSJ O I N T B O O T H
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Industrial development is characterized by high dynamics asking
for shorter development times from the idea to the final product
as well as for prompt optimization of existing products. The
implementation of computer-aided simulation processes is key in
this regard. Within its 67 institutes and research establishments,
the Fraunhofer-Gesellschaft disposes of a wide range of application-
oriented simulation solutions for production and logistics, pro-
duction engineering, component behavior, and fluid mechanics.
The Fraunhofer Simulation Alliance presents numeric simulation
technology competences and services at their booth. The focus
is on new developments in the fields of software and material
developments, production engineering, product design and
component analysis, as well as production and logistics.
SIMULATION IN PRODUCT AND PROCESS DEVELOPMENT
S I M U L AT I O NH A L L 7 , B O O T H B 1 0
Services
Computer-aided engineering • Consulting and information •
Development of simulation solutions • Training
Software development
Stochastic simulation • Web-based visualization • Tools for
system simulation
Material modeling
Biomimetic materials • Integrated Computational Materials
Engineering (ICME)
Product engineering
Casting • Generative procedures • Painting procedures
Product design and parts analysis
Lightweight construction and robust design • Flexible structures •
Tire simulation • Virtual field campaigns • Lining simulation •
Cyber-physical systems
Production and logistics
Mounting simulation • Condition monitoring • Big data in
production • Structure health monitoring • Facility availability
MAJOR AREAS OF RESEARCHAND DEVELOPMENT
J O I N T B O O T H
SIMULATION
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Andreas Burblies
Phone +49 421 2246-183
Fraunhofer Simulation Alliance
Wiener Strasse 12
28359 Bremen, Germany
www.simulation.fraunhofer.de
FRAUNHOFER EXHIBITION PARTNERS
Fraunhofer Simulation Alliance
www.simulation.fraunhofer.de
Fraunhofer Institute for Computer Graphics Research IGD
www.igd.fraunhofer.de
Fraunhofer Institute for Industrial Mathematics ITWM
www.itwm.fraunhofer.de
Fraunhofer Institute for Manufacturing Technology and
Advanced Materials IFAM
www.ifam.fraunhofer.de
Fraunhofer Institute for Optronics, System Technologies
and Image Exploitation IOSB
www.iosb.fraunhofer.de
fleXstructures GmbH
www.flexstructures.com
S I M U L AT I O NH A L L 7 , B O O T H B 1 0
CONTACT
EXHIBITION PARTNER
■ Hall 7, Booth B10
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J O I N T B O O T H
SIMULATION
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With the energy transition, the new German government prioritized
an important but also sensitive issue. Decisions made today impact
its development far beyond the current legislative period. With
this decision process, it becomes clear that the issues related to
the development of renewable energies and to environmental and
climate protection attract more and more attention. They are on the
political and industrial agenda and move into the focus of public
interest. All the more important it is to provide sound and neutral
information and research results. The Fraunhofer-Gesellschaft bun-
dles its experiences and competences in energy in the Fraunhofer
Energy Alliance. It offers its customers products, research services,
and consulting from one single source and is a reliable partner for
medium-sized businesses, the energy industry, political decision
makers, and social institutions.
The Fraunhofer Energy Alliance does research on renewable
energies, energy-efficient technologies, intelligent energy
networks, energy storage, and mobility. From material research
to technology development to system studies and field tests,
the 18 member institutes offer a unique range of solutions.
RESEARCH FOR THE ENERGY TRANSITION
Renewable energy
Biomass, organic residues, sludge • Biogenic gases •
Photovoltaics • Delivery and integration of renewable
energy • Wind power plants
Efficient energy
Organic Rankine Cycle – power from waste heat • Sorptive
thermal storage • Combined heat, Power and cold production
Compact energy
Lithium-ion batteries • Redox-flow batteries • Batteries
(LiS, LiO, NiMH, NiCd, Pb, NaS) • Battery material development •
Performance and safety investigations • Battery management
and monitoring
Intelligent energy
Smart grids, Smart cities, Smart markets • Simulation,
prognosis, optimization • Monitoring and control systems
MAJOR AREAS OF RESEARCHAND DEVELOPMENT
E N E R G YH A L L 1 3 , B O O T H C 1 0
J O I N T B O O T H
ENERGY
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Fraunhofer Energy Alliance
www.energie.fraunhofer.de
Fraunhofer Institute for Building Physics IBP
www.ibp.fraunhofer.de
Fraunhofer Institute for
Ceramic Technologies and Systems IKTS
www.ikts.fraunhofer.de
Fraunhofer Institute for Chemical Technology ICT
www.ict.fraunhofer.de
Fraunhofer Institute for
Environmental, Safety and Energy Technology UMSICHT
www.umsicht.fraunhofer.de
Fraunhofer Institute for Factory Operation and Automation IFF
www.iff.fraunhofer.de
Fraunhofer Institute for
Interfacial Engineering and Biotechnology IGB
www.igb.fraunhofer.de
Fraunhofer Institute for Integrated Circuits IIS
www.iis.fraunhofer.de
Fraunhofer Institute for
Integrated Systems and Device Technology IISB
www.iisb.fraunhofer.de
Fraunhofer Institute for
Manufacturing Engineering and Automation IPA
www.ipa.fraunhofer.de
Fraunhofer Institute for Mechanics of Materials IWM
www.en.iwm.fraunhofer.de
Fraunhofer Institute for
Optronics, System Technologies and Image Exploitation
IOSB – Application Center System Technology
www.iosb-ast.fraunhofer.de
Fraunhofer Institute for Physical Measurement Techniques IPM
www.ipm.fraunhofer.de
Fraunhofer Institute for Silicate Research ISC
www.isc.fraunhofer.de
FRAUNHOFER ENERGY ALLIANCE
E N E R G YH A L L 1 3 , B O O T H C 1 0
J O I N T B O O T H
ENERGY
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Dr. Thomas Schlegl
Phone +49 761 4588-5473
Fraunhofer Energy Alliance
Heidenhofstrasse 2
79110 Freiburg, Germany
www.energie.fraunhofer.de
Press
Simone Ringelstein
Phone +49 761 4588-5077
CONTACT
Fraunhofer Institute for Silicon Technology ISIT
www.isit.fraunhofer.de
Fraunhofer Institute for Solar Energy Systems ISE
www.ise.fraunhofer.de
Fraunhofer Institute for Systems and Innovation Research ISI
www.isi.fraunhofer.de
Fraunhofer Institute for
Wind Energy and Energy System Technology IWES
www.iwes.fraunhofer.de
Fraunhofer Center for Sustainable Energy Systems CSE
www.cse.fraunhofer.org
FRAUNHOFER EXHIBITION PARTNER
Fraunhofer Institute for
Embedded Systems and Communication Technologies ESK
www.esk.fraunhofer.de
FRAUNHOFER ENERGY ALLIANCE
E N E R G YH A L L 1 3 , B O O T H C 1 0
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J O I N T B O O T H
ENERGY
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Environmental and climate protection, resource shortage, and
demographic change have a growing impact in the form of an in-
crease in stipulations, costs, and structural changes. The industry,
thus, has to face the basic question today how and with which
resources it will be able to continue production in the future.
The answer will cause many companies to rethink – away from
seeking mere financial profit toward creating sustainable values.
In that context, E3 production will play a central role, the triad of
energy and resource-efficient production, an emission-neutral facto-
ry, and better integration of humans into the production process.
For an energy and resource-efficient production, many manu-
facturing processes will need to be optimized or even replaced.
Because shorter, networked process chains do not only preserve
resources, they also leverage by-products such as waste heat. Just
considering the costs, energy consumption needs to become a
much stronger indicator for production control than it is today.
Fraunhofer demonstrates new methods and technologies for
reducing the consumption of resources and energy in production.
The emissionneutral factory counts on renewable energy sources
E³ PRODUCTION: EFFICIENT, EMISSION-NEUTRAL AND ERGONOMIC
P R O D U C T I O NH A L L 1 7 , B O O T H F 1 4
for producing electricity and heat. However, it is as important
to adapt the architecture and supply systems to the production
processes and to set up energy and recovered substance cycles.
Zero-emission factories in the cities shorten the employees’
commute – this as well contributes to reducing the consumption
of resources in production.
To better integrate humans into the production process, knowl-
edge, training, and work need to be linked to the individual
needs of each employee. Not least do aging staff and new
working methods require increased ergonomics and new types
of cooperation between humans and machines.
FRAUNHOFER EXHIBITION PARTNERS
Fraunhofer Institute for Applied Information Technology FIT
www.fit.fraunhofer.de/en.html
Fraunhofer Institute for
Environmental, Safety and Energy Technology UMSICHT
www.umsicht.fraunhofer.de/en.html
Fraunhofer Institute for Factory Operation and Automation IFF
www.iff.fraunhofer.de/en.html
J O I N T B O O T H
PRODUCTION
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P R O D U C T I O NH A L L 1 7 , B O O T H F 1 4
FRAUNHOFER EXHIBITION PARTNERS
Fraunhofer Institute for Laser Technology ILT
www.ilt.fraunhofer.de
Fraunhofer Institute for
Machine Tools and Forming Technology IWU
www.iwu.fraunhofer.de
Fraunhofer Institute for
Manufacturing Engineering and Automation IPA
www.ipa.fraunhofer.de
Fraunhofer Institute for Material Flow and Logistics IML
www.iml.fraunhofer.de
Fraunhofer Institute for
Production Systems and Design Technology IPK
www.ipk.fraunhofer.de
Fraunhofer Institute for Production Technology IPT
www.ipt.fraunhofer.de
Fabian Behrendt
Phone +49 391 4090-411
Fraunhofer Institute for Factory Operation and Automation IFF
Sandtorstrasse 22
39106 Magdeburg, Germany
www.produktion.fraunhofer.de
Fraunhofer Group for Production
www.produktion.fraunhofer.de
CONTACT
■ Hall 17, Booth F14
13 12 11
18
1
2 3
4
5
6
7
8
9
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22 23
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J O I N T B O O T H
PRODUCTION
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FURTHER FRAUNHOFERUNITS
Fraunhofer Institute for Applied and Integrated Security AISECHall 8, Booth D06
www.aisec.fraunhofer.de
Fraunhofer Institute for Ceramic Technologies and Systems IKTSHall 4, Booth F34 / Hall 6, Booth B25 /
Hall 27, Booth B66 (B50 and C55)
www.ikts.fraunhofer.de
Fraunhofer Institute for Chemical Technology ICTHall 27, Booth B66 (B72)
www.ict.fraunhofer.de
Fraunhofer Institute for Computer Graphics Research IGDHall 5, Booth D14
www.igd.fraunhofer.de
Fraunhofer Institute for Electronic Nano Systems ENASHall 17, Booth C50 (5)
www.enas.fraunhofer.de
Fraunhofer Institute for Environmental, Safety and Energy Technology UMSICHTHall 2, Booth A01
www.umsicht.fraunhofer.de
Fraunhofer Institute for Integrated Circuits IISHall 8, Booth D30 (1)
www.iis.fraunhofer.de
Fraunhofer Institute for Laser Technology ILTHall 17, Booth C50
www.ilt.fraunhofer.de
Fraunhofer Institute for Manufacturing Technology and Advanced Materials IFAMHall 27, Booth B66 (C54)
www.ifam.fraunhofer.de
Fraunhofer Institute for Material and Beam Technology IWSHall 2, Booth A32 and A38 / Hall 6, Booth A30 /
Hall 27, Booth B66 (B50)
www.iws.fraunhofer.de
Fraunhofer Institute for Silicate Research ISCHall 2, Booth A54
www.isc.fraunhofer.de
Fraunhofer Institute for Solar Energy Systems ISEHall 27, Booth B66 (C58)
www.ise.fraunhofer.de
Fraunhofer Institute for Structural Durability and System Reliability LBFHall 27, Booth B66 (B65)
www.lbf.fraunhofer.de
36 37
O T H E R F R A U N H O F E R E X H I B I T O R S
T O P I C S , T E C H N O L O G Y I N D E X
3D capturing of dynamic processes 103D reconstruction 113Dsensation 10AActive bearings 14Active systems 14Active vibration absorption systems 14Adaptive absorbers 14Adaptive dampers and couplings 14Adaptronics 14Add-on research, socio-economic 26Adsorbents 32Advanced materials 18Advanced training 12Assistant device 32Automated metering management 26Automation and process control systems 32B Batteries (lithium-ion, LiS, LiO, NiMH, NiCd, Pb, NaS) 26Batteries, electric accumulators, material development 26Battery management and monitoring 26Battery pack 26Battery systems 26Behavioral science 26Big data 11Big data in production 22Bio transformation 18Biogas 26Biogas feeding 26Biomass, energetic use 26Biomimetic materials 22 Body construction 32Body construction, flexible 11Building technology 26
CCarbon capture and storage 26Casting 22Ceramic high-temperature fibers 26Ceramic micro fuel cells 26Charge amplifier 14Chemical energy storage 18Chemo/biocatalysts 18City as a future market 10Climate politics 26Coatings 18Cold accumulator 26Component design 14Component recognition 14Composite materials 18Compressed air storage, flexible 26Computer-aided engineering 22Condition monitoring 22Condition monitoring 22Consulting and information 22Continuous product development 10Cooling and air conditioning, solar 26Cyber-physical systems 22, 32Cycle of materials 18D Decentralized energy production 26Decentralized grid-connected energy systems 26Decision support 11Demand response management 26Demand side management 26Development of simulation solutions 22Diamond 10Digital engineering 10Distributed real-time systems 26
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O T H E R F R A U N H O F E R E X H I B I T O R S
Page Page
T O P I C S , T E C H N O L O G Y I N D E X
Dust firing 26E E3 Research Factory Resource-efficient Production 11Efficiency consulting 11Efficient energy consumption 26Efficient energy production 26Electric drives 26Electro mobility 10, 26Electrocatalysis 26Electrolyzers 26Emission-neutral Factory 11Energetic restoration 26Energy 26Energy and sustainability 12Energy data management 26Energy efficiency 26, 32Energy efficiency networks 26Energy-efficient city 26Energy-efficient historic buildings 26Energy-efficient ICT 11Energy-efficient production 26Energy harvesting 14Energy management 32Energy Management 2.0 11Energy management for electronic devices 26Energy management for utilities and companies 26Energy management, intelligent 32Energy networks, intelligent 26Energy-optimized production planning and control 32Energy plus house 18Energy politics 26Energy production, decentralized 26Energy productivity 26Energy roadmap 32
Energy saving 11Energy storage dimensioning 26Energy supply, self-sufficient 26Energy systems, decentralized grid-connected 26Energy systems, integrated 26Energy systems, intelligent 26Energy systems, network-remote 26Energy systems, optimization of 32Energy technology 26Environment sensing 10Environmental engineering 26, 32Enzyme screening 18Ergonomics 11Exergy 26F Facade and shading systems 26Facility availability 22Factory planning and optimization 32Failure analysis 14Feel-good glass 18Filter technology 32Flexible body construction 11Flexible compressed air storage 26Flexible structures 22Flue gas purification plant 26Fluidized bed combustion 26Fragmentation 18Fuel cell systems 26Fuel cells (PEM, SOFC, DMFC, DEFC) 26Fuel gas clarification 26Functional and damage behavior 14Functional layers and surfaces 14Functional layers and surfaces 18Functional materials 18
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O T H E R F R A U N H O F E R E X H I B I T O R S
Page Page
T O P I C S , T E C H N O L O G Y I N D E X
Functional surfaces 14, 32Future factory 10G Gallium nitride 10Gallium nitride converter 10Gasification facility 26Generative procedures 22Geographic information systems 26Green materials 18Greentec 18H Heat accumulator 26Heat pump 26Heating, ventilation, air conditioning 26High-energy laser optics 10High-performance electronics 10, 26High-temperature fibers, ceramic 26High-temperature fuel cell 26Human-machine interaction 10Human-machine interface 32Humans in production 11Hybrid cold and heat carriers 26Hydrogen technology 26I Indoor climate management 18Industry 4.0 10, 32Industry benchmarking 11Information and communication 12Information and communication technology 26In-line quality assurance 10Integrated computational materials engineering (ICME) 22Integrated energy systems 26Intelligent energy networks 26Intelligent energy systems 26
Intelligent factory 11Intelligent materials 14Intelligent network 10Intelligent sensor systems 14Inverter, photovoltaic 26J Jobs 12Joining procedures 18Junior program 12L Laser surface cladding and thin film technology 32Layers and surfaces, functional 18Learning, mobile 12Life cycle tests 14Light control systems 26Light emitting diodes 10Lightweight construction and robust design 22Lining simulation 22Load disaggregation 26Local energy systems 10Logistics 32Logistics and production 11, 12Logistics concepts and networks 32Long-distance heat, power plant technology 26Lotus effect 18Low-emission factory 32Lowest-energy houses 26LowEx 26M Magnetometry 10Management of electric transmission and distribution networks 26Manufacturing strategies 32Mass flow management 32Material efficiency 18
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O T H E R F R A U N H O F E R E X H I B I T O R S
Material modeling 22Material recycling 18Material substitution 18Material substitution 18Materials 18Materials and biomaterials 26Materials, intelligent 14Materials, safe 18Micro algae 26Micro and nano structuring 32Micro combustion facility 26Micro energy harvesting 26Micro energy technology 26Micro fuel cell 26Micro fuel cells, ceramic 26Micro joining 32Micro smart grid 10Micro structuring 32Mobile learning 12Molding line 32Mounting simulation 22Multifunctional layers 14N NDT of fiber-reinforced materials/robot-based ultrasonic inspection 11Network integration of electric vehicles 26Network simulations 26Network, intelligent 10Network-remote energy systems 26O Optimization algorithms 26Optimization of energy systems 32PPainting procedures 22Phase change materials 26
Photobioreactor 26Photovoltaic inverter 26Photovoltaic 26Piezo actor 14Piezo ceramics 14Piezo sensor 14Plasma technology 18Power plant technology, long-distance heat 26Power plants, solar-thermal 26Power protection 26Pre-cut optimization 26Prefabricated material for restoration 26Process and machine monitoring 32Process chain shortening 32Process chains, ultra-short 11Process combinations 32Process intensification in separation technology 32Process technology 26Product and test engineering 12Product design and parts analysis 22Product engineering 22Production 32Production and logistics 22Production network 32Production planning and control, energy-optimized 32Production processes and systems 10Production without raw materials 11R Raw materials recovery 18Recruiting 12Recycling 18Redox-flow batteries 26Reliability 14Renewable energies 26
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T O P I C S , T E C H N O L O G Y I N D E X
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O T H E R F R A U N H O F E R E X H I B I T O R S
Replacement fuels 26Resource efficiency 32Resource efficiency in industrial production 32Resource efficiency in industrial use 32Resource-efficient value-added chain 32 Resource preservation 18Resource saving 11Resource strategy 18Restoration, prefabricated material 26Reveicer 26 S Safety technology 26Sampling-phased array technology 11Self-sensing actor 14Self-sufficient energy supply 26Sensor integration 14Sensor networks, wireless 14Sensor signal processing 14Sensor systems and sensors 14Sensor systems, intelligent 14Sensors 14Separating process 32Separation 18Separation technology, process intensification 32Shape memory alloy 14Shark skin 18Simulation 22, 32Simulation of casting processes 26Simulation solutions, development 22Simulation, stochastic 22Smart cities 26Smart grids 26Smart homes 26Smart materials 14
Smart metering 26Socio-economic add-on research 26Software development 22Solar cooling and air conditioning 26Solar energy 26Solar-thermal power plants 26Sputter technology 26Stochastic simulation 22Structural health controlling 14Structural health monitoring 14Structure monitoring 14SuperCaps 26Supply concepts, supply networks 26Surface structuring 14Surfaces, functional 14, 32Sustainable urban development 10T Technology and innovation 12Technology diffusion 26Thermal absorber 26Thermochemical storage 32Thermoelectric 26Thin film sensor systems 14Thin film technology and laser surface cladding 32Tire simulation 22Tools for system simulation 22, 26Training 12Training 22Training, advanced 12Transformation ability of companies 11UUltra-short process chains 11Upstream/downstream processing 18Urban development, sustainable 10
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T O P I C S , T E C H N O L O G Y I N D E X
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O T H E R F R A U N H O F E R E X H I B I T O R S
Urban systems 10V Vacancies 12Ventilation systems 18Ventilation, energy efficient 18Vibration absorption 14Vibration absorption systems, active 14Virtual commissioning 10Virtual field campaigns 22Visual volume reconstruction 11W Waste combustion slag 18Waste concrete 18Water treatment 18, 32Web-based visualization 22Wind energy 26Wind prognoses 26Wireless sensor networks 14
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T O P I C S , T E C H N O L O G Y I N D E X
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THE HALLSAT A GLANCE
Hall 2, Booth A01Fraunhofer UMSICHT
Hall 2, Booth A32 and A38Fraunhofer IWS
Hall 2, Booth A54Fraunhofer ISC
Hall 2, Booth D13Adaptronics joint booth
Hall 2, Booth D18Future Factoryjoint booth
Hall 4, Booth F34Fraunhofer IKTS
Hall 5, Booth D14Fraunhofer IGD
Hall 6, Booth A30Fraunhofer IWS
Hall 6, Booth B25Fraunhofer IKTS
Hall 6, Booth J18Green Technologies and Materialsjoint booth
Hall 7, Booth B10Simulationjoint booth
Hall 8, Booth D06Fraunhofer AISEC
Hall 8, Booth D30 (1)Fraunhofer IIS
Hall 13, Booth C10Energyjoint booth
Hall 17, Booth C50Fraunhofer ENASFraunhofer ILT
Hall 17, Booth F14Productionjoint booth
Hall 27, Booth B66Fraunhofer ICTFraunhofer IFAMFraunhofer IKTSFraunhofer ISEFraunhofer LBFFraunhofer IWS
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4
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■ Adaptronics joint booth p. 14■Energy joint booth p. 26■Future Factory
joint booth p. 6■Green Technologies and
Materials joint booth p. 18■Production joint booth p. 32■Simulation joint booth p. 22■Fraunhofer Academy p. 12■Fraunhofer Adaptronics
Alliance p. 16■Fraunhofer AISEC p. 36■Fraunhofer Building
Innovation Alliance p. 20■Fraunhofer CBP p. 20 ■Fraunhofer CSE p. 30■Fraunhofer ENAS p. 36■Fraunhofer Energy
Alliance p. 28■Fraunhofer ESK p. 30■ Fraunhofer FIT p. 33■Fraunhofer-Gesellschaft,
Recruiting p. 12■Fraunhofer Group
for Production p. 11, 34■Fraunhofer IAF p. 10■Fraunhofer IAO p. 10■Fraunhofer IBP p. 20, 28■Fraunhofer ICT p. 28, 36■Fraunhofer IFAM p. 20, 24, 37■ Fraunhofer IFF p. 10, 28, 33■Fraunhofer IGB p. 20, 28■Fraunhofer IGD p. 24, 36■Fraunhofer IIS p. 29, 37■Fraunhofer IISB p. 29
■Fraunhofer IKTS p. 16, 28, 36■Fraunhofer ILT p. 34, 37■Fraunhofer IML p. 34■Fraunhofer IOF p. 10■Fraunhofer IOSB p. 24, 29■Fraunhofer IPA p. 29, 34■Fraunhofer IPK p. 34■Fraunhofer IPM p. 29■Fraunhofer IPT p. 34■Fraunhofer ISC p. 20, 29, 37■Fraunhofer ISC
Project Group p. 20■Fraunhofer ISE p. 30, 37 ■Fraunhofer ISI p. 11, 37■Fraunhofer ISIT p. 30■Fraunhofer IST p. 16■Fraunhofer ITWM p. 24■Fraunhofer IWES p. 30■Fraunhofer IWM p. 29■Fraunhofer IWS p. 37■Fraunhofer IWU p. 11, 16, 34■Fraunhofer IZFP p. 11■Fraunhofer LBF p. 16, 37■Fraunhofer
Photocatalysis Alliance p. 20■Fraunhofer Simulation
Alliance p. 24■Fraunhofer UMSICHT p. 28,
33, 36
FRAUNHOFER UNITS
NORTH 3NORTH 2
NORTH 1WEST 3
WEST 2
WEST 1
SOUTH 2SOUTH 1
HN
CC
IC
FG
EAST 2
EAST 3
12 1113
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P35P34
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Hall 2, Booth D18■ Future Factory
Hall 2, Booth D13■ Adaptronics
Hall 6, Booth J18■Green Technologiesand Materials
Hall 7, Booth B10■ Simulation
Hall 13, Booth C10■ Energy
Hall 17, Booth F14■Production
JOINT BOOTHS
Hall 2 Future Factory
SITE PLAN
FRAUNHOFER UNITS
Photo acknowledgments
Page 27: MEV
Page 29: Guido Erbring
Page 31: Rainer Sturm, Pixelio
Page 33: Olga Serdyuk,
panthermedia
Page 35: Dmitry Kalinovsky,
panthermedia
All other photos:
© Fraunhofer-Gesellschaft
Editorial notes
Editorial team
Fraunhofer-Gesellschaft
Hansastrasse 27 c
80686 München, Germany
Franziska Kowalewski
Jörg Röthlingshöfer
© Fraunhofer-Gesellschaft,
München 2014
W W W. F R A U N H O F E R . D E
W W W. F R A U N H O F E R . D E / H M B L O G