Email: ipmoller@youmail.dk
Technical expert with more than 30 years experience in project management and advanced technology research in area of communication device components and systems.
Special focus on energy distribution, providing energy (batteries and charging) and consumption reduction.
Additional many years experience in electric vehicle technology with focus on energy systems and battery technology.
Specialties: Energy management specialist - consumption reduction
Battery technology specialist (Lead - NiCd - NiMH - LiIon - LiPolymer)
Alternative energy and Electric Vehicle specialist.
Søren Juhl Andreasen received his M.Sc. degree in Mechanical Engineering from Aalborg University, Denmark in 2005, with a specialization in Electro-Mechanical System Design.
In 2009 he received the Ph.D. degree from the Doctoral School of Engineering and Science at Aalborg University. He worked at the Department of Energy Technology for the following three years as a Postdoc researcher with focus on fuel cells, fuel cell stacks and fuel cell systems; in particular polybenzimidazole based MEAs and high temperature PEM fuel cells.
The research involved development of electrochemical characterization systems for fuel cells, methanol reforming and characterization of chemical steam reformers and system control. Since 2012 he has been employed as Associate Professor at the Department of Energy Technology, and he is head of the Fuel Cell and Battery Laboratory. His research includes single cell, stack, component, fuel cell systems, and control of fuel cell systems.
Furthermore he has dealt increasingly with different aspects of the design of hybrid electric system, including small electrical, and utility vehicles, automotive battery applications, passive hybrid systems combining fuel cells and batteries, battery testing procedures, high power battery pack testing and battery management systems.
Recently he has been part of launching research in the area of electrical energy storage at the Department of Energy Technology.
Graduated from Aarhus University (MSc, physics and chemistry, 1969); nuclear reaction spectroscopy (NBI, Risø, 1966-1970). 1970-73, University of Brasilia, Brasil (Mössbauer, NMR, and NQR of iron group compounds).
1973-today, Odense University, now SDU; lektor (associate professor) in Physics (surface physics), 1977. PhD 1978, DSc 1991. Visiting professor at Stanford (1980-81), TU München, 1984-86, scientific director, EuroPACE, Paris, 1988-1991.
Visiting professor, IISc, Bangalore from 2005 (frequent visits). Regular visitor/user at ASTRID, Aarhus (synchrotron radiation facility) since 1992.
Current activities: Nanomaterials for energy- and environmental purposes.
Mogens B. Mogensen, born April 18th, 1948. Research Professor, Department of Energy Conversion and Storage, Technical University of Denmark, DTU. MSc Chemical Engineering, 1973, and PhD in Corrosion,1976, from Department of Metallurgy, DTU.
Energy research has been his main career; electrochemistry and chemistry for energy conversion – reversible electrolyser cells / fuel cells since 1988; early work in the areas of batteries, nuclear energy and corrosion. 40 years in electrochemistry.
During these years: project manager of many large scientific projects, mostly in close cooperation with industry. Supervisor of 40+ PhD students. Member of Danish science foundation boards and of a numerous scientific committees for international conferences since mid 1990’ies. 210 papers registered by Web of Science, cited more than 6450 times, average citations per item of 31.8; 350 scientific publications in peer reviewed journals, books and conference proceedings, 21 patents/applications (18 published + 3 filed), editor or co-editor of 9 books; 20 special reports, 16 popular articles; h-index 41(Web of Science).
Honours include The Christian Friedrich Schönbein Medal of Honour at the 8th European Fuel Cell Forum, 2008. The Science of Hydrogen & Energy Award 2012, 6th Hydrogen & Energy Symposium, Stoos, Switzerland.
Maciej Swierczynski received his B.Tech. degree from AGH University of Science and Technology, Poland in 2005 and M. Tech degree from AGH University of Science and Technology, Poland, Cracow in 2007 in Computer Engineering for Industrial Applications and from Aalborg University, Denmark in 2009 in Power Electronics and Drives.
In 2012, he received the Ph.D. degree from Aalborg University, Denmark (PhD thesis: Lithium ion battery energy storage system for augmented wind power plants). He is a co-author and co-presenter of “Industrial/PhD course Storage Systems Based on Li-Ion Batteries for Stationary Applications”. His area of research is in energy storage technologies for wind applications, battery testing, modelling and lifetime analyses.
Yanbin Shen has received her bachelor degree on Electrochemistry from Harbin Institute of Technology in China at 2006. Then she worked at BAK, a lithium ion battery company in Shenzhen, China as a R&D engineer for four years.
In 2010, she came to Aarhus University and is currently working at Prof. Bo B. Iversen's group as a PhD student. She has established the AU battery lab and focus on design and application of nanosized materials for lithium ion battery.
Frederik Flemming is Technology Supervisor at Haldor Topsøe in the battery materials group. He received his B.Sc. Chem. Eng. from DTU, Lyngby in 1980 and has been working for several battery companies in Denmark and in the USA.
The work has been centered on battery research, development, design and applications engineering. Since the late 80’ies it has mainly been rechargeable lithium and lithium ion battery technology that Frederik has been dealing with. He is experienced with battery sizes ranging from the smallest cell for hearing aids to battery systems for use in electric vehicles and stationary use.
Battery companies Frederik has worked for include Hellesens A/S, Energy Research Laboratory A/S, Innovision A/S / Innocell Aps, Valence Technology Inc., Delphi Automotive, Danionics A/S, EnerDel Inc.
In 2010 I finished as Master of Science in Engineering in Chemistry at the Technical University of Denmark. Afterwards I worked as Scientific Assistant at the department of Energy Conversion and Storage at DTU, to help building up battery research facilities.
In March 2011 I started my Ph.D. study with the title “Development of new electrode materials for lithium ion batteries”. Doing this period I have gained knowledge about synthesizing and testing new cathode materials as well as fabrication of thin-film inorganic solid electrolytes.
Jonathan Højberg received his Cand. Polyt. in Physics and Nanotechnology from the Technical University of Denmark (DTU) in 2011 with a specialization within atomic scale physics related to sustainable energy solutions.
He is currently pursuing a PhD within the field of Lithium-air batteries in a collaboration between DTU Energy Conversion and Haldor Topsøe A/S. He has been heavily engaged in building up state-of-the-art test facilities for Lithium-air batteries at both places and deciding which experiments to conduct.
Jonathan is highly motivated by the interplay between universities and industry, and how the synergies can accelerate the development of new and sustainable energy technologies. In 2009 he founded a company to leverage a newly developed technology to harvest ocean wave energy. The proof-of-concept was developed by making bachelor projects and courses for 15 students at DTU with different competences and coordinating this work. The work resulted in a top-3 in the national start-up competition Venture Cup in the cleantech category and the ideas were adapted in a national collaboration granted 48 MDKK by the Advanced Technology Foundation in 2011 to further develop the technology.
Besides ocean wave power and batteries, Jonathan has worked extensively with the development of cathode materials for Solid Oxide Fuel Cells at the Fuel Cells and Solid State Chemistry Division at Risø, DTU (now part of DTU Energy Conversion). The work focussed on building electrochemical models to describe the cathode, and identify and optimize the most important parameters.