We get to the heart of the matter
FH Zentralschweiz
Research and Development at the Lucerne School of Engineering and Architecture
www.hslu.ch/t-forschung
Engineering & Architecture
Research is our passion www.hslu.ch/t-forschung Research means more than working through a project plan, achieving milestones and covering our costs with acquired projects. Research interests and motivates us. We continue to evolve through close study of current research topics on the international stage, through our quest for new development solutions for the market, and through intensive exchange with our industry partners in the service sector and in research. This evolution benefits not just our research activities, but also the training we offer our students: they are exposed to the latest develop ments and promising innovations in the real world. Partners in commercial enterprise, the public sector and politics benefit from our experience gleaned from one thousand research projects, and from the networks we maintain with Switzerland’s Federal Institutes of Technology (ETH) and other universities with whom we conduct a lively dialog. Thematically, we cover a diverse range of disciplines, including architecture, civil engineering, building technology, interior architecture, electrical engineering, mechanical engineering, information technology and business engineering, and are well placed to work on a whole range of issues presented by our regional, national and international partners. The research we conduct would not be possible without the goodwill and support from funding institutions such as the Swiss Commission for Technology and Innovation (CTI), the Swiss National Science Foundation (SNF), the Swiss Federal Office of Energy and other partners not spe cifically listed here; they facilitate our application-oriented projects at the financial level. We maintain sixteen competence centers across our School’s disciplines, all focused on applied research and development and service projects. Furthermore, the researchers form interdisciplinary teams in order to tackle projects in our two metathematic research focuses, “Building as a System”, and “Intelligent Solutions for the Energy Turnaround”. Our long-standing research at levels of buildings and neighborhoods, plus our activities in energy research have earned us a high reputation as a research institution.
Editorial Research Brochure 2014
Prof Dr Andrea Weber Marin Head of Research Lucerne School of Engineering and Architecture
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5 Introduction BUILDING AS A SYSTEM
15 Introduction INTELLIGENT SOLUTIONS FOR THE ENERGY TURNAROUND
Competence centers
7 Envelopes and Solar Energy 8 Typology and Planning in Architecture
16 Thermal Energy Systems and Process Engineering 17 Innovation in Intelligent Multimedia Sensor Networks
9 Center of Excellence for Embedded Systems Applied Research
18 Distributed Secure Software Systems
10 Facade and Metal Engineering
19 Fluid Mechanics and Hydraulic Machines
11 Structural Engineering
20 Integrated, Intelligent, and Efficient Energy Systems
12 /13 Center for Integrated Building Technology
21 Electronics 22 Product Innovation | Management 23 Mechanical Systems
25 Aerospace Biomedical Science and Technology 26 Licht@hslu 27 Knowledge and Technology Transfer
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Research focus: “Building as a System” www.hslu.ch/t-forschung
“Building as a System” is one of two research focuses maintained by the Lucerne School of Engineering and Architecture. Our specialists in architecture, interior architecture, civil engineering and building technology conduct an interdisciplinary dialog with the user at various levels – from the material, component, building to the neighborhood level. “Building as a System” has been an object of intense scrutiny by our School for a number of years, and we are well placed in this area thanks to our interdisciplinary competencies. The fact that we are the only university of applied sciences and arts in Switzerland to conduct research in building technology contributes to our high profile. The four disci plines within the scope of the building work closely together in teaching and research, observing the built environment from a number of perspectives, focusing on holistic research, planning and development solutions. The building as the system boundary is no longer sufficient – our research now expands to the neighborhood level, and encompasses structural as well as energy-related and societal aspects. The latter include for example networking the energy supply of an area, or the social processes at stake when a neighborhood is developed for the future. We provide input to cantons, towns, investors and planning offices when they consider sustainable visions and plans for areas and districts. The following pages profile the competence centers involved in the “Building as a System” meta-research focus.
Research focus “Building as a System” Prof Dr Andrea Weber Marin T +41 41 349 34 77, andrea.webermarin@hslu.ch
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Copyright Nigel Young / Foster + Partners
Competence Center Envelopes and Solar Energy www.hslu.ch/ccease Good architecture should be sustainable and contribute to the change in the way energy is generated and used. This is a technical and design challenge. We are involved in developing technologies and concepts with this in mind: out of a sense of responsibility for mankind, the environment and the economy. Our interdisciplinary team is focused on the building envelope. Arranged as two research groups – “Material, Structure and Energy” and “Photovoltaic & Light”– we explore innovative technologies and materials and develop systems, concepts and methods to integrate these into architectural design. We have gained inter national recognition for our applied research in the areas of photo voltaic, daylight control, the use of textiles in architecture and the interplay between climate and comfort. We publish our findings in peer-reviewed journals and The glass dome of the Reichstag building in Berlin provides the debating chamber with natural daylight and file patent applications. We nurture serves as a means of ventilation. the next generation of research talent through a doctoral program in partnership with the two Federal Institutes of Technology (ETH) in Zurich and Lausanne. Daylight control systems facilitate the optimal use of daylight in buildings by directing it to the back of rooms where it is most needed. We develop models capable of visualizing complex surface properties in climate-based daylight simulations. As a result it is possible to generate reliable comparative data for use in planning, verifying and optimizing the suitability of systems of this nature for a variety of buildings, orientations and climatic zones.
Project example: New planning models for daylight control systems
Lucerne School of Engineering and Architecture Research, Building as a System
Head of the Competence Center Envelopes and Solar Energy: Prof Dr Stephen Wittkopf T +41 41 349 39 67, stephen.wittkopf@hslu.ch
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Competence Center Typology and Planning in Architecture (CCTP) www.hslu.ch/cctp
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We make a significant contribution to the theme of transformation and cooperation in architecture.
Our buildings and cities are under constant pressure to adapt. Responding appropriately to this situation is a responsibility of great social relevance. The main focus of our scientific research is the transformation and use of buildings and urban districts. Within the context of these chang ing requirements, we analyze the system behavior, impact and performance of various types of interior spaces, buildings and urban districts. Through this we understand architectural space as our habitat. The solutions we develop are guided by their conse quences for the users – by the interaction between man and the built environment. We approach these complex tasks through three interacting focus areas in archi tecture and interior architecture in addition to our basic research.
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GUEST ROOM HOBBY ROOM
MINE
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Dynamic neighborhoods reduce individual consumption. In exchange the community offers social interaction and cooperation.
As resources become increasingly scarce, sufficiency – using the least raw materials and energy possible – must be imperative. However, this change in behavior should offer some form of advantage, otherwise very few people will voluntarily convert. Based on the example of cooperatively planned neighborhoods, we research sufficiency in terms of the benefits it generates. Dynamic neighborhoods reduce individual consumption. In exchange, the community offers social interaction and cooperation. We analyze the impact of cooperative systems on architecture and our way of life.
Project example: Less is more
Lucerne School of Engineering and Architecture Research, Building as a System
Head of the Competence Center Typology and Planning in Architecture (CCTP): Prof Dr Peter Schwehr T +41 41 349 33 48, peter.schwehr@hslu.ch
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The intelligent iKnowWatt socket helps save energy.
Center of Excellence for Embedded Systems Applied Research www.hslu.ch/ceesar www.iHomeLab.ch At the iHomeLab research center, we consider innovative solutions for enhanced energy efficiency, safety, security and comfort by incorpo足 rating intelligence in our buildings and homes.
Lucerne School of Engineering and Architecture Research, Building as a System
Our interdisciplinary research team works on intelligent energy efficiency solutions aimed at facilitating the energy turnaround. Our research on ambient assisted living is looking at the provision of technical support that would enable elderly people to remain in their homes longer. What these two research fields have in common are smart technologies that enable buildings to interact intelligently. The iKnowWatt socket that we developed in partnership with the Swiss Federal Office of Energy, Landis + Gyr, BKW, ewz, Feller and Swisscom, recognizes the devices and appliances plugged into it, measures their energy consumption and issues advice on how to save energy. This makes it possible to compare electrical equipment and replace the items that waste energy. As a result, the user has a greater awareness of, and more control over, their personal energy consumption. Tests have shown that Swiss households using it can save up to 15 percent electrical energy.
Project example: Saving energy intelligently with iKnowWatt
Head of the Center of Excellence for Embedded Systems Applied Research: Prof Alexander Klapproth T +41 41 349 35 99, alexander.klapproth@hslu.ch
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The testing facility on Horw campus where the forces exerted on green walls are studied (summer 2013).
Competence Center Facade and Metal Engineering www.hslu.ch/ccfm We research, develop, test and advise within the specializations building envelope, metal engi neering and constructional glass and lightweight structures.
By deploying new materials, joining and anchoring technology and optimizing wind load models with the help of numerical simulations, we develop energy efficient, sustainable facade systems. We also consider aspects such as the structural safety, serviceability and building physics of building envelopes. Our interdisciplinary team offers our industry partners development and research-oriented services tailored to their requirements. They benefit from excellent laboratories, testing facilities and simulation tools. Our certified testing laboratory (accreditation no. STS 209) is a “notified body” under EU legislation for windows and doors in buildings as well as curtain wallings in accordance with product standards EN 14351 and EN 13830. Green walls based on wire ropes and mesh, create a natural atmosphere, cast welcome shade and are increasingly used as climatic buffers in building envelopes. However, plants are a huge target for wind and snow load. This exerts very large forces on the metalwork and the anchoring. We have a dedicated test bed on which we can study these forces and develop load models for the safe and economical dimensioning of facade-based green walls. Project example: Plant-covered facades – safety first!
Lucerne School of Engineering and Architecture Research, Building as a System
Head of the Competence Center Facade and Metal Engineering: Prof Dr Andreas Luible T +41 41 349 34 79, andreas.luible@hslu.ch
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Competence Center Structural Engineering www.hslu.ch/ccki Our research and development projects adopt a responsible approach to the resources used in construction. We develop concepts with the aim of driving the evolution of building components and methods to make them more efficient and longerlasting.
The growing demands for per formance, efficiency and sustain ability influence the construction of new buildings and the structural upgrading of existing building stock. We develop, test and optimize solutions for complex scenarios in the realm of solid and composite construction and geotechnics. For this we rely on our full exper tise in analyzing, simulating, calculating and testing the building components. Our materials testing laboratory (accreditation no. STS 209) is unique in Switzer land and possesses a range of computer-controlled calculation and simulation tools. In the test laboratory of the CC Structural Engineering: a blinds element is bonded to the glass and subjected to load. Project example: Clever bonding technology enhances
It takes a lot of energy to cool old buildings equipped with glass facades. The simplest way to prevent overheating in the summer is to shade the facade. The solutions we have developed involve fitting the latter with shade blinds using bonding technology, an approach that is virtually non-invasive and thus produces no heat bridges. In partnership with Schenker Storen AG of Schönenwerd, we developed solutions that address the immense challenges presented by effects on the building’s envelope (temperature fluctuations, weathering and structural integrity) and the fabrication (installation and servicing).
comfort and saves energy
Lucerne School of Engineering and Architecture Research, Building as a System
Head of the Competence Center Structural Engineering: Prof Dr Klaus Kreher T +41 41 349 34 75, klaus.kreher@hslu.ch
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Copyright «Suurstoffi» – Risch/Rotkreuz An innovative energy supply solution for an entire district: the “Suurstoffi” in Risch/Rotkreuz.
Center for Integrated Building Technology (ZIG) www.hslu.ch/zig Our activities concentrate on the energy efficiency of buildings. We consider the building as a system in a holistic context, such as a district. Two of our focal themes are “Transformation Building Park” and “Energy Concepts for Districts and Areas”. Other focal themes include “Building – Human – Energy” and “Air and Water Purity”.
Lucerne School of Engineering and Architecture Research, Building as a System
We consider the building as a system consisting of building envelope, building technology, and energy production systems, and we optimize their interaction. The building is not only a system in isolation: it is also part of a broader context. The integration of various buildings within a thermally and/or electrically networked surrounding is a further step toward greater energy efficiency – one of our focus themes. Another topic is the use of simulation methods. We are also a certification body for “Minergie”. The “Suurstoffi” district of Risch/Rotkreuz is to be heated without using one drop of oil: we were involved in working on an innovative energy concept and developing a low temperature district heating- and cooling network. All the buildings in “Suurstoffi” are interconnected via a network of pipes through which water circulates. As a result, the buildings can be efficiently cooled or heated as required by exchanging thermal energy between them. Surplus heat in the sum mer is stored in the ground using geothermal probes and is retrieved in the winter to heat the buildings. The system will be monitored for at least five years to check whether it manages to achieve the ambitious targets.
Project example: Intelligent network
Head of the Center for Integrated Building Technology: Prof Urs-Peter Menti T +41 41 349 33 17, urs-peter.menti@hslu.ch
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Copyright D. Burkhardt An expert examines a ventilation system for its hygiene.
Center for Integrated Building Technology (ZIG) Competence Center Testing Laboratory for Building Technology, accredited to ISO /IEC 17025 www.hslu.ch/zig Our research activities concentrate particularly on “Building – Human – Energy” and “Air and Water Purity”. We focus on ventilation appliances and systems to develop them further and to optimize their effect iveness, especially in the realms of cleanroom technology.
Lucerne School of Engineering and Architecture Research, Building as a System
We specialize in performance and fluidic measurements, acoustic measurements on building components, noise transmission in buildings, ventilation efficacy using tracer gas, assessments of thermal comfort and air quality, as well as concepts, measurement and testing procedures for air and water purity in buildings. We provide training and issue expert reports in all these areas. Moreover, we strive to develop our measuring methods further, especially with regard to flow noise and continuously evolving tracer gas methods. As an accredited testing center, we carry out measurements on heat exchangers and ventilation units for national and international certification bodies and organizations. In a project examining the “Level of Hygiene of Ventilation Systems in Switzerland” coordinated by the ZIG, experts examined 100 ventilation systems in the country and investi gated their hygienic conditions. Among other things, the study showed that the cleanliness of a ventilation system does not depend on its age, but on how well it was planned, installed and maintained. Project example: Clean air for indoor rooms
Head of the Competence Center Testing Laboratory for Building Technology at ZIG: Dr Tjeerd de Neef T +41 41 349 32 71, tjeerd.deneef@hslu.ch
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Market
Eco Wood Storage H²O
Biogas plant Power station
Heat sources Turnaround Wind Wind farms Solar cells Construction
Building as a System Regenerative light
Water Energy turnaround Network
Energy supply Water turbines Moon
Biomass Pumped storage Adaptation Brand
Bio Tidal power station Nature Energy efficiency Photovoltaic arrays
Intelligent solutions for the Energy Turnaround Users Co
Nature conservation Silicon Biogas Electricity Oil Earth² Climate protection Hydropower Potential Law Waste
Combustion Transport Ecology Opportunities Source Heat pump Eco electricity Solarmobil Heating costs Solar thermal Sun Offshore Power stations
Research Bio electricity Economy Greenhouse effect Business Incentive programs Renewable energies alternative
Sustainability Geothermal pellets Efficiency
Environment Eco heat Climate politics Ground source
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Intelligent Solutions for the Energy Turnaround www.hslu.ch/t-forschung
We work on intelligent, fit-for-market solutions delivering enhanced energy efficiency in buildings, neighborhoods and industry; sustainable utilization of “new” renewable energies; and resource optimization through intelligent networks. Our research and services support com mercial enterprises to prepare for the energy turnaround by making their systems, processes and products ecologically efficient throughout the life cycle. Nine of our sixteen competence centers devote their wideranging know-how to energy research. The researchers are specialists in energy efficiency in neighborhoods, buildings and industry with a focus on building technology, thermal energy systems, storage and mobility and on renewable biomass and hydropower energies. We are currently developing the “Smart Grids” topic, which we approach from an engineering and business-administrative angle. Complexity is a feature of the issues in the area of energy – and a welcome challenge for us: thanks to close coop eration with business partners and other universities, we are able to view and tackle the energy turnaround from a variety of perspectives and develop pragmatic, viable solutions. We are committed to a coordinated approach to energy research in Switzerland. We are a member of the inter-university Swiss Competence Centers in Energy Research (SCCER), which enables us to work alongside the ETH and other universities. Our task is to drive those innovations that facilitate a sustainable realization of the energy strategy. Along with our applied research, this includes the transfer of research results into teaching activities and the market. Commitment to a sustainable future
The following pages contain an outline of our competence centers, whose work is devoted to the research focus “Intelligent Solutions for the Energy Turnaround”.
Research focus “Intelligent Solutions for the Energy Turnaround”: Prof Dr Andrea Weber Marin T +41 41 349 34 77, andrea.webermarin@hslu.ch
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Donald Olsen and Beat Wellig in the laboratory demonstrating the “PinCH� software, which helps to improve energy efficiency in industrial processes.
Competence Center Thermal Energy Systems and Process Engineering www.hslu.ch/tevt www.pinch-analyse.ch We support private companies and the public sector in developing environmentally friendly processes that are more energy efficient and less polluting.
The competence center specializes in applied research and development and provides advanced services in the areas of energy, process and environmental engineering. The focal points include heat pumps, refrig eration systems and thermal energy storage as well as pinch analysis and sorption processes and procedures for the use of bioenergy for heat and power generation. Our experts develop and optimize the concepts, technologies and unit operations necessary for efficient energy and material conversion processes that ultimately require less resources. We employ up-to-date methods in the fields of measurement technology, analysis and simulation. Pinch analysis is the key to increased energy efficiency and profitability in industry. Energy consumption of industrial processes can be reduced by up to 40 percent using this method. The user-friendly software PinCH, developed by the competence center and supported by the Swiss Federal Office of Energy (SFOE) and the Swiss Private Sector Energy Agency (EnAW), enables the cost effective and practical application of pinch analysis. We provide comprehensive support in the application of pinch analysis in practice as well as through courses with a strong applied focus.
Project Example: Reduce CO2 Emissions and Increase Profits with PinCH Analysis
Lucerne School of Engineering and Architecture Research, Intelligent Solutions for the Energy Turnaround
Head of the Competence Center Thermal Energy Systems and Process Engineering: Prof Dr Beat Wellig T +41 41 349 32 57, beat.wellig@hslu.ch
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Finalist of the Swiss Technology Award 2012: the autonomous navigation system for visually impaired persons.
Competence Center Innovation in Intelligent Multimedia Networks www.hslu.ch/iimsn We specialize in product innoÂvations based on real-time reliable data and sensor networks.
Our research and development is dedicated to new technologies for distributed embedded systems – from vision sensors to power line and wireless communication networks, for which we design intelligent architectures, network protocols and digital signal and data processing algorithms. Our goal is to increase performance in terms of speed, real-time availability and reliability through the optimized use of the available resources. Applications are focused on avionics and power distribution for the future All-Electric Aircraft, in which electro-mechanical actuation increasingly replaces hydraulic actuation, Smart Grid data networks, cost effective person counting systems and autonomous indoor navigation systems. We have designed a fully autono mous navigation system for visually impaired persons, together with our industrial partner AIONAV Systems AG and organizations for the blind. A person using that system can navigate through complex buildings without the support of technologies like GPS. The system has been awarded several technology and innovation prizes, and we are now developing a prototype.
Project Example: Guiding visually impaired persons
Lucerne School of Engineering and Architecture Research, Intelligent Solutions for the Energy Turnaround
Head of the Competence Center Innovation in Intelligent Multimedia Networks: Prof Dr Ulrich Dersch T +41 41 349 35 25, ulrich.dersch@hslu.ch
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BPM Light has been designed to facilitate the automation of dynamic business processes.
Competence Center for Distributed Secure Software Systems www.hslu.ch/d3s Our research focuses on interactions and integration across independent computer systems. Such systems aim to support users and their tasks in a common and coordinated way.
The increasing penetration of work and leisure by distributed networked computer systems and sensors opens the door to novel applications, but also raises issues regarding, for instance, security. We investigate the technical principles that support the systems of this nature and work with business partners on developing the fundamentals for new and innovative services. The “eProcess” research group examines secure distributed software systems designed to support business processes. The “Mobile Systems” research group looks at innovative solutions in the realm of mobile information and communication technologies. Business process automation has been around for a while. However, it can be expensive and is only viable for repetitive tasks and well-structured processes. The processes of many commercial enterprises are, by contrast, dynamic, continually changing and sporadic. In the “BPM Light” project funded by the Swiss Commission for Technology and Innovation (CTI), we have developed together with bbv ICT Solutions an agile business process management product capable of accommodating dynamic processes. Distributed computers have secure access to it via the web. Project Example: Increased efficiency and flexibility through BPM Light
Lucerne School of Engineering and Architecture Research, Intelligent Solutions for the Energy Turnaround
Head of the Competence Center Distributed Secure Software Systems: Prof Jörg Hofstetter T +41 41 349 33 14, joerg.hofstetter@hslu.ch
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Competence Center Fluid Mechanics and Hydraulic Machines www.hslu.ch/fmhm We analyze and optimize the flow in a wide range of products. Our aim is a consistent increase in the efficiency of fluid dynamic comp onents and systems.
Our expertise covers experimental and numerical fluid mechanics. We conduct measurements and experiments in our hydraulic laboratory or in the field, e.g. at hydroelectric power stations. We investigate flow in a wide variety of components and systems, including for example pumps, tur bines and desalination plants. Our simulation-based applicationoriented research activities range from microchip flows for analytical devices, multiphase flows with non-Newtonian fluids relevant to process engineering and heat transfer in gas turbines, all the way to hydroelectric power stations at a scale of 1:1. Project Example: When water is harder than steel The optical 3D scanning system monitors hydroabrasive erosion on a Pelton turbine.
We investigate the correlation between the transport of suspended sediment in power plant water, the wear on the turbines, and their loss in efficiency; using many years of data collected from our suspended sediment monitoring program. Thanks to our research, power stations run more efficiently, because the erosion of Pelton turbines and other steel components by solid matter in the water is an unwelcome expense that affects operational costs and profits.
Lucerne School of Engineering and Architecture Research, Intelligent Solutions for the Energy Turnaround
Head of the Competence Center Fluid Mechanics and Hydraulic Machines: Prof Dr Ernesto Casartelli T +41 41 349 32 36, ernesto.casartelli@hslu.ch
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Copyright Renggli AG On the left: The storage package that controls the output of the PV plant for supplying the household’s energy needs and charging electric vehicles.
Competence Center for Integrated, Intelligent, and Efficient Energy Systems www.hslu.ch/iiee In accordance with our claim “Grid-Living and Mobility”, we develop solutions for innovative drives and motors in the realms for industry and mobility, storage and microgrids, thus contributing to a sustainable energy supply.
Lucerne School of Engineering and Architecture Research, Intelligent Solutions for the Energy Turnaround
We research sustainable and intelligent approaches to energy storage and drive systems, such as new drive trains in electric bicycles and efficient lighting. Our work also focuses on distributing and supplying energy and designing intelligent electricity grids in combination with mobility. Our excellent infrastructure allows us to manufacture prototypes in the shortest possible time. Project Example: Intelligent grid management of energy storage systems and mobility for the energy future.
By 2050, Switzerland should be deriving one third of its energy from renewable sources. One step along the way is the storage package we have developed in partnership with Kamoo AG and CKW for the modular “Vision: R4” home designed by Renggli AG. This package provides an intelligent approach to controlling the output of a photovoltaic array for supplying the household’s energy needs and charging electric vehicles. The storage system is optimized to achieve maximum cost-effectiveness as well as excellent autonomy. The network that exports the surplus electricity and imports the required electricity is regulated by an intelligent management system. The storage system will be commercialized as part of a subsequent phase.
Head of the Competence Center for Integrated, Intelligent, and Efficient Energy Systems: Prof Vinzenz V. Härri T +41 41 349 33 13, vinzenz.haerri@hslu.ch
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The newly developed data motorway in the traction cable of an aerial cableway conveys digital signals to the cabin.
Competence Center for Electronics www.hslu.ch/electronics We are an expert partner for high-end analog and digital electronic solutions.
As a team of lecturers, research associates, assistants and master’s students covering an array of disciplines, we are well positioned to tackle cross-disciplinary problems in the realms of electronics and physics, and to pursue practical approaches for product development. Our knowhow in communication engineering, embedded system design, lowpower electronics, sensors and automation and control technology is used in sensor networks, visible light communication, and wired and wireless communication systems. In partnership with Frey AG from Stans and with funding from the Swiss Commission for Technology and Inno vation (CTI), we have developed a wired communication system that is commercially viable. The solution consists of not only using the cable of an aerial cableway to transport the cabin, but also to transport several hundred kilobits per second of multimedia data between the drive station and the cabin. This entailed applying new principles of digital signal processing to the specific channel characteristics of the traction cable. As an example, this technique is capable of displaying information – such as weather forecasts, local restaurant menus, etc. – on a screen in the cabin. Project Example: Data transport at altitude
Lucerne School of Engineering and Architecture Research, Intelligent Solutions for the Energy Turnaround
Head of the Competence Center for Electronics: Prof Zeno Stössel T +41 41 349 33 90, zeno.stoessel@hslu.ch
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Attendees of a strategy workshop tackle market scenarios, future customer needs and success factors in the context of energy companies.
Competence Center for Product Innovation | Management www.hslu.ch/ccpim We are the ideal point of contact for commercial enterprises looking to change their business models and to innovate their technological products and services to be ready for the changes in the energy production and energy consuming sectors.
Lucerne School of Engineering and Architecture Research, Intelligent Solutions for the Energy Turnaround
We work closely with our clients in helping them develop strategies designed to boost their innovation processes, generating ideas, introduc足 ing them to the market and monitoring success during implementation. We also understand the implications of changes to markets, both in terms of regulation and competition and can integrate these into the innovation strategy. The main market segments we are active in are: energy production, energy supply and energy efficiency in buildings and in the industry. Together with Swisspower, the industrial association of Swiss municipal utilities, we have agreed on a strategic collaborative venture aimed at creating an innovation platform for all of their members. Combining traditional management approaches with design thinking and adaptive business process model足 ing, we look at possible scenarios, future customer outcomes and identify the key success factors. Armed with these findings, we develop new business models and technical solutions that will allow the companies to successfully face the challenges associated with market liberalization. Project Example: Strategy workshops help prepare for the future
Head of the Competence Center for Product Innovation | Management: Markus Raschke T +41 41 349 37 40, markus.raschke@hslu.ch
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Competence Center for Mechanical Systems www.hslu.ch/ccms We consider mechanical systems in their entirety, rather than just focusing on specific components or properties. This holistic approach includes a systems concept, design, manufacture and application. We cross the traditional boundaries of pure mechanics by pursuing efficient and effective interdisciplinary design solutions.
The focus of our competence center lies on the product develop ment process. The scope of our research ranges from in-depth questions, like the underlying mechanics in steel and transmission line cables to the development of autonomous systems, like a cleaning robot for photovoltaic panels. Our expertise lies in design, simulation, mechanics of materials, hydraulics, automation, production and measurement engineering. Because the systems approach is increasingly impor tant, our technical and methodo logical skills in these areas are our greatest strength.
“Sophie”, the articulated robot in the mechanical engineering laboratory at the Horw Campus.
Water turbine blades have to be as finely ground as possible to ensure optimal efficiency. In a joint project with Andritz Hydro AG we succeeded in automating this laborious manual task in a cost effective approach, using a seven-axis articulated robot capable of delivering highly flexible three-dimensional milling and grinding. The project is funded by the Swiss Commission for Technology and Innovation (CTI).
Project Example: Optimized grinding of high-performance turbines
Lucerne School of Engineering and Architecture Research, Intelligent Solutions for the Energy Turnaround
Head of the Competence Center for Mechanical Systems: Prof Ralf Baumann T +41 41 349 32 55, ralf.baumann@hslu.ch
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Marcel Egli and staff members experiencing weightlessness during a flight to study the effects on muscle cells.
Competence Center Aerospace Biomedical Science and Technology www.hslu.ch/spacebio The Competence Center Aeros pace Biomedical Science and Technology specializes in conducting biomedical and biotechnological experiments in space. Our studies shed light on the perception and effects of forces working on biological systems.
Lucerne School of Engineering and Architecture Research
Our competence center is a leading research facility in the field of aero space biology. We conduct experiments on cell cultures subjected either to microgravity or to other gravitational environments. We also develop instruments for use in biomedical research in space. Our findings are of value to astronauts as well as to sports, rehabilitation and geriatric medicine. In addition, we run the Biotechnology Space Support Center called BIOTESC, which supports researchers conducting experiments in the European space laboratory “Columbus” on board the International Space Station. Astronauts lose muscle mass due to expo sure to microgravity. The symptoms are similar to those experienced by elderly people. To study the cellular mechanisms that lead to muscle wasting, we have worked alongside the industry to develop an apparatus with which cells can be cultivated and studied under microgravity. This is the first time equipment of this kind is being used in space.
Project Example: Muscle atrophy in space
Head of the Competence Center Aerospace Bio medical Science and Technology: PD Dr Marcel Egli T +41 41 349 36 18, marcel.egli@hslu.ch
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Licht@hslu www.hslu.ch/licht We adopt a cross-disciplinary approach to our research on light by focusing on its effects, energy and function. With access to a range of disciplines, we stretch the boundary between room design and engineering. Although light has become an ever-present and expected commodity, the current energy debate illustrates that new approaches are needed and that we must meet the challenge of contributing to a more appropriate and efficient use of light. The disciplines of architecture, electrical engineering, building technology and interior architecture all contribute to “Licht@hslu”, an interdisciplinary specialization of the Lucerne School of Engineering and Architecture. Depending on the task at hand, we can broaden our scope to include experts in design and business as well. Our five research areas are:
The rotatable “light-measuring container” on Horw Campus.
We develop concepts for high quality illumination of rooms that fully address their unique requirements. Deploying quantitative and qualitative methods, we examine the effects of the physical environment and the extent to which it affects the perceptions of those who use it.
1: Light quality in the context interior space
We support commercial enterprises with our networks and knowledge of current and future light technologies, with the goal to improve their competitiveness and profitability. The new tech nologies offer a vast potential for unique and innovative light products. 2: Innovative light technologies
We research and develop products and applications capable of using the particular properties of innovative light technologies to their best effect. These products and applications are more efficient and complex than today’s conventional lighting systems. 3: Light management
Light used in medical technology and healthcare facilities is directly related to our research topics 1 and 2. Various aspects of these two topics can be applied to meet the specific requirements of healthcare facilities.
4: Light in medical technology and healthcare facilities
We focus on the simultaneous and beneficial use of daylight effects and their underlying parameters relating to lighting and energy technology. Computer-aided simulations assume a central role in our work. 5: Daylight/visualization
Head of Licht@hslu: Björn Schrader T +41 41 349 32 69, bjoern.schrader@hslu.ch
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Ensuring that your ideas and questions get through: the transfer office passes on the appropriate contact details.
Our know-how – your success www.hslu.ch/wtt We put the expertise of our lecturers, research associates and students at the service of comm ercial enterprises and institutions.
An exciting idea for a project? A new method or a promising technology that needs to be put to the test? Or is an expert’s second opinion required? Our transfer office directs the inquiries to the appropriate contact person. Our lecturers, research associates and students undertake research and development projects and perform complex services. We offer a wide variety of working relationships, from CTIfunded projects to proposing topics for bachelor’s or master’s degree theses. Funding can be provided in part by the Confederation or the European Union, or in full by a commercial partner.
Competence centers: research and services
Students in their fifth semester carry out projects on behalf of commercial enterprises on the basis of 180 hours per mandate. As part of their final-year theses, students in their sixth semester tackle real-world problems on the basis of 360 hours of work. We also gladly accept proposals for master’s theses. These are real-world research man dates on which master’s students spend more than 900 hours through out a semester.
Student mandates
Head of Knowledge and Technology Transfer: Prof Zeno Stössel T +41 41 349 33 90, zeno.stoessel@hslu.ch
27
04-2014, 1000 Ex.
Lucerne School of Engineering and Architecture. Research
Technikumstrasse 21, 6048 Horw/Lucerne www.hslu.ch/t-forschung