Content

1- Candidate for SP1: Mario Conte (ENEA, IT)

1.1- Motivation Letter…………………………………………………………………2

1.2- CV………………………………………………………………………………………..3

2- Candidate for SP3: Antje Wörner (DLR, GE)

1.3- Motivation Letter…………………………………………………………………5

1.4- CV………………………………………………………………………………………..6

3- Candidate for SP4: Atle Harby (SINTEF, NO)

1.5- Motivation Letter…………………………………………………………………8

1.6- CV………………………………………………………………………………………..9

4- Candidate for SP6: Peter Hall (UKERC, UK)

1.7- Motivation Letter……………………………………………………………….13

1.8- CV………………………………………………………………………………………14

5- Candidate for JPC: Mathias Noe (KIT, GE)

1.9- Motivation Letter……………………………………………………………….37

1.10- CV……………………………………………………………………………………...38

Motivations for SP Leadership April 2016 1

Motivations to be Subprogramme SP1 Leader in the Joint Programme “Energy Storage”

The role of subprogramme leader in the EERA JP ES is strictly related to my work and my research

interest in my organization, of which the stronger motivations have been:

1. High Level contacts with top researchers in leading research organizations in Europe.

2. Exchange experiences with other energy storage groups

3. Opportunities to maintain an update overview of the overall status of projects, programmes,

infrastructure at European level.

4. Bottom up participation to the definition of the European energy storage programmes and

projects not only on electrochemical storage.

5. Important contributions to roadmaps analysis and preparation (EASE, SET Plan), EU Work

Programmes and contact with leading industries, by means of participating research

organizations.

6. Opportunities for preparing funding proposals to apply to EC WP Calls, by creating strong

consortia with high possibilities of granting success.

CV of Mario Conte as of April 2016 1

Short CV Dr Mario Conte

Dr. Mario Conte works at ENEA – Italian National Agency for New Technologies, Energy and Sustainable

Economic Development – since 1984 and is currently scientific coordinator and senior researcher of various

national and European projects in the field of advanced energy storage (including hydrogen storage) and

electrically-driven vehicles (EV, HEV, PHEV, FCHEV. Current position is head of the “Strategic and

Technical” Support Unit of the Energy Technology Department.

Since his graduation in nuclear physics in 1978 at the University of Naples, he has been working on

advanced energy storage technologies, obtaining, in mid-80’s, the responsibility at ENEA of R&D Projects

and Programs on new electrochemical batteries (advanced lead-acid, sodium-sulphur, lithium-ion and -metal)

and electric and hybrid vehicle technologies. He has been carrying out research and development activities at

national and international level on energy storage methods, materials and technologies: batteries, super

capacitors and bench- and field-testing of batteries and vehicles. He has also been working on dedicated

electronics, such as state-of-charge indicators, control devices, battery and vehicle modelling. On these

research fields, he has been appointed head of organizational project units and large national and European

Union (EU) projects in ENEA from 1986 up to now and established large test facilities and laboratories for

characterization of storage materials, components, subsystems and complete vehicles.

He has been and is involved in numerous EU projects, as coordinator or subproject or work package leader,

the most recent of which are ELEDRIVE, HarmonHy, LIBERAL, ASTOR, ILLIBATT and HYSYS. He has

been coordinator of the EU Project ILHYPOS on advanced asymmetric and hybrid supercapacitors for

mobile and stationary applications and participating in ongoing EC projects on electrochemical batteries and

their applications in electric and hybrid vehicles (Helios, Greenlion and HCV). In Italy, he is coordinating

and participating in some national projects on the research and applications of energy storage systems (e.g.

lithium batteries) in electrically-propelled vehicles and, in large scale, in electricity grids. Since 2010, he is

the coordinator of the ENEA Energy Storage Project as part of the National Research for electricity grid.

Since 1992 he is expert, evaluator and reviewer of many projects and programmes in national and EU

Framework Programmes, on topics related to energy storage, transport means (battery powered, electric

hybrid and fuel cell) and advanced materials for energy storage systems.

Since 2004, he has been invited as programme/projects reviewer by the US Department of Energy on

hydrogen storage and advanced electrochemical batteries and in 2007 by the French ANR (National

Research Agency) for being member of the Steering Committee of the French Energy Storage Program. He

is also expert member of national and EU Working groups on programmatic issues related to advanced

transportation road vehicles and technological platforms (Energy Storage and Hydrogen and Fuel Cell

Technologies).

He is member of international and national bodies (IEC-CEI= International Electrotechnical Commission,

CUNA in Italy and ISO = International Standard Organization, EU COST Action, IEA Implementing

Agreements, IPHE = International Partnership of Hydrogen Economy), Deputy Chairman of the IEA

Implementing Agreement on Electric and Hybrid Vehicles, secretary of the Italian EV Association (CEI-

CIVES) and Board Member of the European EV Association (AVERE). More recently, he is representing

Italy in the EVI (Electric Vehicle Initiative) of CEM (Clean Energy Ministerial). He has been and is lecturer

in post-graduate courses in various Universities (Turin and Pisa and LUISS in Rome) on the specific topics

of energy storage systems and electrically-driven vehicles.

He is author of more than 80 publications, also invited, presentations to conferences, reports, book chapters,

encyclopaedia chapter, and a patent. He is member of the International Steering Committee and Session

Chairman on energy storage in various EVS (Electric Vehicle Symposia) and also received the best paper

award at the International Symposium on Electric and Hybrid Vehicles (EVS-24), held in Stavanger

(Norway) in 2009 and received a diploma, as senior scientist coordinator of one of the best EC Project, at

European Tra2014 conference in Paris for the ILHYPOS Project in the Transport Road sector. He is acting

as peer reviewer (5-10 papers/y) of different international scientific journals (e.g. Journal of Power Sources,

Journal of Electrochemistry and Journal of Cleaner Production). He is author of international peer-reviewed

CV of Mario Conte as of April 2016 2

publications, also invited, presentations to conferences, reports, book chapters, encyclopaedia chapter, and a

patent.

Your reference

Your letter

Our reference

Your correspondent

Telephone

Telefax +49 711 6862-

E-mail

Institute of Engineering Thermodynamics / Thermal Process Technology

DLR e. V. Institute of Engineering Thermodynamics Pfaffenwaldring 38-40, 70569 Stuttgart, Germany

Pfaffenwaldring 38-40 70569 Stuttgart, Germany Telephone +49 711 6862-0 Internet DLR.de/tt

The German Aerospace Center is a member of the Helmholtz Association. DLR is represented by its Executive Board and persons authorised to act on its behalf. For information, please contact the Head of the Legal Department, Linder Hoehe, 51147 Cologne (DLR Headquarters).

Letter of motivation for continuing the duties as SP3 TES coordinator To the EERA JP ES Steering Committee: I would like to express interest in renewing the position as Sub-Programme Coordinator for Thermal Energy Storage in EERA’s Joint Programme Energy Storage. Within DLR, the department of Thermal Process Technology is involved in several national and international research networks and further activity as coordinator of the TES sub-programme offers a chance to improve the synergies between the various networks active in the field of thermal energy storage. Specifically, DLR’s coordination work of Annex 30 within the IEA’s implementing agreement on Energy Storage through Energy Conservation ECES has provided overlaps with the work of the TES sub-programme that will prove advantageous moving forward. In addition, DLR is heavily interested bringing forward thermal energy storage technologies. I consider shaping the updated version of the EERA/EASE (European Association for the Storage of Energy) roadmap to be released as one key aspect within the upcoming 4 year cycle. Within the context of DLR’s IEA work, efforts are being made in the identification and harmonization of key performance indicators (KPIs). The classification of KPIs is critical to the further development of the thermal energy storage field and further attention will be paid to their benchmarking and expansion on a European level in the future work of this sub-programme. Thank you for considering my renewal as sub-programme coordinator. I look forward to future work within the EERA framework. Sincerely Dr. Antje Wörner

EERA Secretariat Holger Ihssen rue du Trône 98 B-1050 Bruxelles BELGIUM

Dr. Wörner +49 711 6862 484 antje.woerner@dlr.de April 2016

Curriculum Vitae Dr. Antje Wörner German Aerospace Center – DLR Institute of Engineering Thermodynamics Head of Department Thermal Process Technology Pfaffenwaldring 38-40 70569 Stuttgart Telefon: +49 711 6862 484 Email: antje.woerner@dlr.de

Education

09/1985 – 10/1992 Chemical Engineering at University of Stuttgart

09/1988 – 07/1989 Chemical Engineering at Auburn University, AL / USA

1991 EU-grant for bachelor thesis at Imperial College / London / UK

05/2008 PhD at University of Stuttgart on solar reforming

Scientific Career

1992 – 2001 Research Scientist at Institute of Engineering Thermodynamics, DLR

2001 – 2004 3-years stay in Charleston, SC / USA

2004 – 2005 Research Scientist at Institute of Engineering Thermodynamics, DLR

2006 – 05/2011 Research area manager „Fuel Processing“ at Institute of Engineering Thermodynamics, DLR

since 06/2011 Head of department „Thermal Process Technology“ at Institute of Engineering Thermodynamics, DLR

Networking Activities

since 2013 Coordinator of ProcessNet Working group on „Thermal Energy Storage“

since 2013 Coordinator of des Subprogram „Thermal Energy Storage“ in EERA Joint Program „Energy Storage“

since 2015 Topic Spokes Person „Thermal Energy Storage“ in the Helmholtz program “Storage and cross-linked infrastructures”

since 2015 Operating Agent of Annex 30 „Thermal Energy Storage for CO2-Mitigation and Thermal Management” of IEA’s Implementing Agreement “Energy Conservation through Energy Storage”

Research Fields

• Thermal and thermochemical energy storage and thermal upgrade in industrial processes and power plants

• Process development and techno-economic evaluation of industrial processes for energy conversion and generation of alternative fuels

• Hydrogen storage and thermal management for mobile applications

Selected Publications

Pfleger N., Bauer T., Martin C., Eck M., Wörner A.: Thermal energy storage – overview and specific insight into nitrate salts for sensible and latent heat storage. Beilstein J. Nanotechnol., 6 (2015) 1487–1497

König D.H., Baucks N., Dietrich R.-U., Wörner A.: Simulation and evaluation of a process concept for the generation of synthetic fuel from CO2 and H2. Energy, 91(2015) 833-844

Martin S., Kraaij G., Ascher T., Baltzopoulou P., Karagiannakis G.,Wails D., Wörner A.: Direct steam reforming of diesel and diesel-biodiesel blends for distributed hydrogen generation. International Journal of Hydrogen Energy 40 (1) (2015) 75-84

Pearson K., Käfer K., Kraaij G., Wörner A.: Experimental study of the partial catalytic dehydrogenation of selected kerosene components with Pt-Sn/γ-Al2O3. International Journal of Hydrogen Energy, 1 (2015) 367-378

Schmidt M., Szczukowski C., Roßkopf C., Linder M., Wörner A.: Experimental results of a 10 kW high temperature thermochemical storage reactor based on calcium hydroxide. Applied Thermal Engineering 62 (2014) 553-559

Molenda, M., Stengler, J., Linder, M., Wörner, A.: Reversible hydration behavior of CaCl2

at high H2O partial pressures for thermochemical energy storage. Thermochimica Acta, 20 (2013) 76–81

Schaube F., Koch L., Wörner A., Müller-Steinhagen H.: A thermodynamic and kinetic study of the de- and rehydration of Ca(OH)2 at high H2O partial pressures for thermo-chemical heat storage. Thermochimica Acta, 538 (2012) 9-20.

Utz I., Schmidt N., Wörner A., Ju J., Zabara O., Fichtner M.: Experimental Results of an air-cooled lab-scale H2 storage tank based on sodium alanate. Int. Journal of Hydrogen Energy, 36 (2010) 3556-3565

Motivation Letter – Atle Harby I hereby declare my interest to continue as sub-program leader for SP4 Mechanical Storage within EERA Joint Program for Energy Storage. I have been working in research related to hydropower for 20 years, and have a strong knowledge within hydropower including the use of reservoir and pumped storage hydropower for energy storage. The last years I have also gained interest and knowledge in other technologies for energy storage and various topics related to storage such as energy systems modeling, grids, energy markets, environmental and social impacts related to storage and energy systems as well as regulatory and political issues. Through the work in CEDREN, EERA, COST Action and national funded research, I strongly believe in collaboration across disciplines and national borders is the best way to solve challenges in research that also plays an important role in the society. I find the willingness to conduct such collaboration within EERA JP Energy Storage is very strong, and I would very much like to contribute to this idea by continuing my work in the Management Board and as Sub-program leader in EERA JP Energy Storage.

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CURRICULUM VITAE NAME: Atle HARBY BIRTH DATE: 1965, December 10th NATIONALITY: Norwegian POSITION: Senior Research Scientist CIVIL STATUS: Living with Cathrine Ringstad, two children EDUCATION: 1988: M.Sc. in Civil Engineering, Norwegian Inst. of Technology, Trondheim. 1992: Certificat pratique in French language, Univ. de Pau, France. LANGUAGES : Fluency in English and French, moderate to fair skills in German. CURRENT AND RECENT PROJECTS - Director of Centre for Environmental Design of Renewable Energy (CEDREN), one of eight

centres for Environment-friendly Energy Research established by the Norwegian Research Council to conduct concentrated, focused and long-term research of high international calibre in order to solve specific challenges in the field of energy and the environment.

- Project Manager for measuring and calculating net greenhouse gas emissions from Norwegian, Lao, Malaysian and Albanian hydropower reservoirs.

- Project Manager for “Environmental friendly water resources management in a changing climate and energy market (VAKLE)”, a five-year multi-disciplinary research project in collaboration with NINA, NIVA and NTNU. The project is describing and quantifying possible abiotic and biotic changes in rivers and lakes caused by climate change and changes in hydropower operations.

- Project Manager for “HydBio-Upscale, upscaling biological data, processes and models in relation to hydrological processes and models to catchment scale”, funded in the “Miljø2015” program of The Norwegian Research Council.

- Project Manager for “Models for simulations of environmental impacts of hydropower”, funded by “The environmental flow” program at NVE.

- Project Manager for “Improved flow regime in the regulated river Surna” to analyse alternative environmental flows, improved temperature control by multiple water intakes and how to reduce fish stranding risk.

- Project Manager for The River System Simulator applied in Vefsna River to study possible impacts on migration, spawning, growth and habitat for Atlantic salmon in a proposed hydropower development project.

- Project Manager for “Environmental Impacts of Hydropeaking”, a 5-year multi-disciplinary research project in collaboration with LFI, NINA, NIVA, NTNU, UiO and several international partners. The projects includes field and laboratory experiments, computer model analysis, computer model development and investigation methods development

MAIN INTEREST Varied professional practice in environmental engineering with emphasis on environmental impacts of river regulations, water resources problems, climate change impacts and energy storage technologies. Main interest in aquatic ecosystem modelling. Experience with stream habitat modelling and hydrological analyses, including river modelling systems. Knowledge and strong interest in greenhouse gas status of freshwater reservoirs. Experienced in research collaboration and management of multi-disciplinary projects. Good practice in field studies, including working in Norway, Spitsbergen, Canada, France, Albania, Georgia, China, Laos, Malaysia, Chile, India and Colombia. PROFESSIONAL SOCIETIES AND OTHER ASSIGNMENTS − Member of the Scientific Committee for 9 issues of the International Ecohydraulics Symposium:

Trondheim 1994, Quebec City 1996, Salt Lake City 1998, Cape Town 2001, Madrid 2004, Christchurch 2006, Conception 2008, Seoul 2010, Wien 2012 and chair of the organising committee of the 2014 10th International Ecohydraulics Symposium in Trondheim.

− Member of the Management Board of European Energy Research Alliance Joint Program on Energy Storage, and coordinator of the Mechanical Storage sub-program

− Member of IHA/UNESCO Working Group on greenhouse gas status of freshwater reservoirs

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− Member of “Innsatsgruppe fornybar kraft” in “Energi21” − Member of the Board of Directors of International Society for River Science − Delegate to IPCC scoping meeting for SRREN − Leader of COST Action 626, European Aquatic Modelling Network. This COST Action is an inter-

governmental European research collaboration currently involving 15 countries − Member of the Section Committee of International Association for Hydro-Environmental Research

(IAHR) Section of Ecohydraulics. JOURNAL PEER REVIEWING − Boreal Environment Research − Ecological Engineering − Ecological Modelling − Environmental Biology of Fishes − Environmental Modelling and Software − Fisheries Management and Ecology − Global Change Biology − Hydrobiologia − Hydrological Sciences Journal − Journal of Applied Water Engineering and Research − Limnologica − River Research and Applications − Science of the Total Environment OTHER REVIEWING − Guest editor for Special Issue from Ecohydraulics 2014 conference of:

− Journal of Applied Water Engineering and Research − Limnologica − River Research and Applications

− Reviewer for IPCC Special Report Renewable Energy Sources (SRREN) − NVE “program for miljøbasert vannføring – fase 1” − Austrian Science Fund − ArcticNet (A Network of Centres of Excellence of Canada) REVIEWED PAPERS Zhao, Y., Sherman, B., Ford,P., Demarty, M., DelSontro, T, Harby, A., Tremblay, A., Øverjordet, I.B.,

Zhao, X., Hansen, B.H., Wu, B. 2015. A comparison of methods for the measurement of CO2 and CH4 emissions from surface water reservoirs: results from an international workshop held at Three Gorges Dam, June 2012. Limnol. Oceanogr.: Methods 13: 15–29

Schmutz, S., Bakken, T.H., Friedrich, T., Greimel, F., Harby, A., Jungwirth, M., Melcher, A., Unfer, G. and Zeiringer, B. 2014. Response of fish communities to hydrological and morphological alterations in hydropeaking rivers of Austria. River Res. Applic. DOI: 10.1002/rra.2795.

Harby, A. and Noack, M. 2013. Rapid flow fluctuations and impacts on fish and the aquatic ecosystem. In Maddock et al (eds.) 2013. Pp 323-336.

Maddock, I., Harby, A., Kemp, P. and Wood, P. 2013. Ecohydraulics: An Introduction. In Maddock et al (eds.) 2013. Pp 1-6.

Maddock, I., Harby, A., Kemp, P. and Wood, P. 2013. Research Needs, Challenges and the Future of Ecohydraulics Research. In Maddock et al (eds.) 2013. Pp 431-436.

Bakken, T.H., Killingtveit, Å, Engeland, K, Alfredsen; K and Harby, A. 2013. Water consumption from hydropower plants – review of published estimates and an assessment of the concept. Hydrol. Earth Syst. Sci. 17:3983-4000.

Harby, A., Sauterleute, J., Korpås, M., Killingtveit, Å., Solvang, E. and Nielsen, T. 2013. Pumped storage hydropower. In Stolten, D. and Sherer, V. (eds) 2013: Transition to Renewable Energy Systems. Wiley-VCH. Pp 597-618.

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Bakken, T.H., Skarbøvik, E., Gosain, A.K.., Palanisami, K., Sauterleute, J., Egeland, H., Kakumanu, K.

R, Nagothu, S., Harby, A., Tirupataiah, K., Stålnacke, P. 2013. Water Allocation with use of the Building Block Methodology (BBM) in the Godavari Basin, India. Journal of Sustainable Development. 6 (8): 93-107.

Bakken, T. H., Killingtveit, Å., Engeland, K., Alfredsen, K., and Harby, A.2013. Water consumption from hydropower production: Review of published estimates. In (Schumann, A., editor): Considering Hydrological Change in Reservoir Planning and Management. IAHS-AISH publication 362:155-160.

Bakken, T.H., Sundt, H., Ruud, A. and Harby, A. 2012. Development of small versus large hydropower in Norway– comparison of environmental impacts. Energy Procedia 20:185-199.

Dunbar, M.J., Alfredsen, K. and Harby, A. 2011. Hydraulic-habitat modelling for setting environmental river flow needs for salmonids. Fisheries Management and Ecology, doi: 10.1111/j.1365-2400.2011.00825.x

Chanudet, V., Descloux, S, Harby, A., Sundt, H., Hansen, B.H., Brakstad, O.G., Guerin, F. 2011. Annual gross CO2 and CH4 emissions and carbon budget of the Nam Ngum and Nam Leuk sub-tropical Reservoirs in Lao PDR. Science of the Total Environment, doi: 10.1016/j.scitotenv.2011.09.018

Alfredsen, K., Harby, A., Linnansaari, T. and Ugedal, O.2011. Development of an inflow-controlled environmental flow regime for a Norwegian river. River Research and Applications, doi: 10.1002/rra.1550.

Linnansaari, T., Alfredsen, K., Stickler, M., Arnekleiv, J.V., Harby, A. and Cunjak, R.A. 2009. Does ice matter? Site fidelity and movements by Atlantic salmon (salmo salar l.) parr during winter in a substrate enhanced river reach.. Journal of River Research and Applications 25: 773–787.

Acreman, Aldrick, Binnie, Black, Cowx, Dawson, Dunbar, Extence, Hannaford, Harby, Holmes, Jarritt, Old, Peirson, Webb and Wood. 2009. Environmental flows from dams: the water framework directive. Engineering Sustainability 162: 13-22.

Scruton, D.A., Pennell, C.J., Ollerhead, L.M.N., Alfredsen, K., Stickler, M., Harby, A, Robertson, M.J., Clarke, K.D. and LeDrew, L.J. 2008. A synopsis of ‘hydropeaking’ studies on the response of juvenile Atlantic salmon to experimental flow alteration. Hydrobiologia 609:263–275.

Harby, A. 2007. European Aquatic Modelling Network. Journal of River Research and Application 23: 467-468.

Harby, A., Mérigoux, S., Olivier, J.M. and Malet, E. 2007. A mesohabitat method used to assess minimum flow changes and impacts on the invertebrate and fish fauna in the Rhône River, France. Journal of River Research and Application 23: 525–543.

Stickler, M., Alfredsen, K., Scruton, D.A., Pennell, C., Harby, A. and Økland, F. 2007. Mid-winter activity and movement of Atlantic salmon parr during ice formation events in a Norwegian regulated river. Hydrobiologia 582:81-89.

Scruton, D.A., Pennell, C.J., Robertson, M.J., Ollerhead, L.M.N., Clarke, K.D., Alfredsen, K., Harby, A. and McKinley, R.S. 2005. Seasonal response of juvenile Atalantic salmon to experimental hydropeaking power generation in Newfoundland, Canada. North American Journal of Fisheries Management 25: 964-974.

Borsányi, P., Alfredsen, K., Harby, A., Ugedal, O. and Kraxner, C. 2004. A meso-scale habitat classification method for production modelling of Atlantic salmon in Norway. Hydroécoogie. Appliqué, Tome 14, Vol 1: 119-138.

Alfredsen, K., Borsanyi, P., Harby, A., Fjeldstad, H.P. and Wersland, S.E. 2004. Application of habitat modeling in river rehabilitation and artificial habitat design. Hydroécoogie. Appliqué, Tome 14, Vol 1: 105-118.

Halleraker J. H., Saltveit S. J., Harby, A., Arnekleiv J. V., Fjellstad H. P. and B. Kohler. 2003. Factors influencing stranding of wild juvenile brown trout (Salmo trutta) during rapid and frequent flow decreases in an artificial stream. Journal of River Research and Application 19: 589-603.

Scruton, D.A., Ollerhead, L.M.N., Clarke, K.D., Pennel, C., Alfredsen, K., Harby, A. and Perry, D. 2003. The behavioural response of juvenile Atlantic salmon (salmo salar) and brook trout (salvelinus fontinalis) to experimental hydropeaking on a Newfoundland (Canada) river. Journal of River Research and Application 19: 577-587.

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Scruton, D.A., Clarke, K.D., Ollerhead, L.M.N., Perry, D., McKinley, R.S., Alfredsen, K. and Harby,

A. 2002. Use of telemetry in the development and application of biological criteria for habitat hydraulic modeling. Hydrobiologia 483: 71-82.

Harby, A. and Halleraker, J.H. 2001. Ecological impacts of hydro peaking in rivers. Journal of Hydropower and Dams, issue four, 2001.

Saltveit, S.J., Halleraker, J.H., Arnekleiv, J.V and Harby, A. 2001. Field experiments on stranding in juvenile Atlantic salmon (Salmo salar) and brown trout (Salmo trutta) during rapid flow decreases caused by hydropeaking. Journal of Regulated Rivers 17:609-622.

Scruton, D., Heggenes, J., Valentin, S., Harby, A and Bakken, T.H. 1998. Field sampling design and spatial scale in habitat-hydraulic modelling: Comparison of three models. Fisheries Management and Ecology 5: 225-250.

Chang, A.T.C., Foster, J.L., Hall, D.K., Goodison, B.E., Walker, A., Metcalfe, J.R. and Harby, A. 1997. Snow parameters derived from microwave measurements during the BOREAS Winter Field Campaign. Journal of Geophysical Research, 102: 663-671.

Greenberg, L., Harby, A. and Svendsen, P. 1996. Availability of microhabitats and their use by brown trout (Salmo trutta) and grayling (Thymallus thymallus) in the river Vojmån, Sweden. Journal of Regulated Rivers, 12: 287-304.

CONFERENCE PAPERS More than 80 conference papers in international and national seminars and conferences. OTHER PUBLICATIONS Forseth, T and Harby, A. 2014. Handbook for environmental design in regulated salmon rivers. NINA

Special Report 53, Trondheim, Norway. Maddock , I., Harby, A., Kemp, P. and Wood, P. (editors) 2013.Ecohydraulics: An Integrated

Approach. Wiley-Blackwell. Harby, A., Guerin, F., Bastien, J. and Demarty, M. 2012. Greenhouse gas status of hydro reservoirs.

CEDREN Report, Trondheim, Norway. Tucci, C. Antenucci, J., Brum, P.P., Cimbleris, A., Guerin. F., Harby, A., Kemenes, A., McGinnis, D.,

Melack, J., Roland, F., dos Santos, M.A., Schmid, M., Sugai, M.B., Taylor, R. and Tremblay, A. 2008. UNESCO Working Group on Greenhouse Gas Status of Freshwater Reservoirs. 2008. Scoping paper: Assessment of the GHG Status of Freshwater Reservoirs. IHP/GHG-WG/3.

Harby, A., Baptist, M., Dunbar, M. and Schmutz, S. (editors) 2005. State-of-the-art in data sampling, modelling analysis and applications of river habitat modelling. COST Action 626 report.

STUDENT SUPERVISING Associate supervisor for 4 Ph D students . Supervisor and associate supervisor for more than 30 M Sc students. .

Motivation Letter – Prof Peter Hall It can be argued that energy storage has been through its most difficult stage – that of gaining political, industry and societal acceptance as a key technology to deliver a low-carbon economy for Europe. It has gone from the situation of not being mentioned in the original SET plan to being viewed as central to the deployment of renewable energy. This is due to the enthusiasm and determination of a relatively small group of activists. EERA JP-ESS should be proud of its contribution This is a time for huge optimism. Storage costs are falling, technology diversity increasing and active interest in storage at its greatest extent ever. Carbon Capture and Storage has been abandoned and EDF will need to borrow twice its capital value to pay for a single nuclear reactor at Hinkley point in UK. Renewables with energy storage has emerged as the most cost-effective and socially acceptable low carbon technology. Energy storage is rapidly transforming from demonstration to a business reality. For example, the 6MW/10 MWh Li-ion battery in Leighton Buzzard (UK) was built for sound economic and business reasons – to displace the cost and inconvenience of overhead power lines to meet peak power demands The Techno Economics SP must adapt to accommodate these new circumstances. I propose a change from “Techno-Economics” to a “Techno-Business” approach. In this we will examine different power markets throughout Europe and identify the most promising to promote energy storage. One example. In UK there is a transformation from a market called Firm Frequency Response (FFR) to that of Enhanced Frequency response (EFR). Although we need to perform detailed research, we estimate that this simple transformation will increase the income from energy storage by an order of magnitude. However, this has unexpected engineering and materials affects. EFR needs batteries to switch from maximum output to the grid to maximum input in a period of ~ms. We need to assess the effects of such switching on battery lifetime, or to identify the most suitable technologies available I propose that the next phase of WP6 undertakes the task of identifying, promoting or creating the optimal power/energy markets for energy storage. The means of delivery will be bringing technologists, business specialists and policy experts together in a series of structured invited-expert meetings to create influential reports. In my experience these are not communities who normally interact creatively There is an obvious overlap with EASE and the University of Sheffield 2MW/1MWh test facility is available to us all.

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Curriculum Vitae

Name: Peter Joseph Hall

Address: Department of Chemical Engineering, University of Sheffield,

Sheffield, S1 3JD

Tel: + 44 114 222 8251, e-mail: peter.hall@sheffield.ac.uk

Born: 6th February 1958

Sex: Male

Marital Status: Married

Nationality: British

Education

PhD, Physical Chemistry, Department of Chemistry, University of Newcastle-upon-Tyne

(U.K.) 1987. Supervisor Professor Harry Marsh

Title of thesis 'The Macromolecular Chemistry of Coal'.

MLitt, Philosophy, University of Newcastle-upon-Tyne (U.K.) 1984. Supervisor Mr M.

Hughes.

Title of thesis 'The Philosophy of Quantum Mechanics'.

BSc. (Hons), Physics, University of Durham (U.K.) 1979.

Employment

Jan 2012-Present Professor of Chemical Engineering, University of Sheffield

2000-2011 Professor of Chemical Engineering, University of Strathclyde

1998-1999 Reader in Applied Chemistry, University of Strathclyde

1994-1997 Senior Lecturer in Applied Chemistry, University of Strathclyde.

1991-1994 Lecturer in Applied Chemistry, University of Strathclyde.

1988-1991 Fuels Scientist with Exxon Corporate Research, USA working on coal

liquefaction.

1987-1988 Post-doctoral research associate in Division of Engineering, Brown

University, working on carbon gasification mechanisms.

1979-1982 Atmospheric scientist for the British Antarctic Survey in Halley Bay,

Antarctica, performed first pre-spring O3 ground based measurements.

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Research and Research Plans

I currently manage a group of postdoctoral researchers and PhD students working in the

area of electrochemical energy storage and conversion. In addition I am director of the

UK’s centre for doctoral training in energy storage (http://www.energystorage-cdt.ac.uk/)

and management and steering committee member for the European Energy Research

Alliance (http://www.eera-set.eu/), which was created by the European Commission to

deliver their Strategic Energy technologies plan.

Li batteries and supercapacitors are starting to play an important role in the electrification

of transport but research is still needed into increasing driving ranges and to reduce costs

to be competitive with internal combustion engines. This may be met by the

development of secondary Li air batteries. We have published several important papers

in this area, although the loss of capacity on cycling still needs to be solved. We are

developing new materials for supercapacitors, in particular new ionic liquid/carbon

combinations. These devices have demonstrated superiority over current commercial

devices and are ready for commercial exploitation. Again, we have published several

important papers in this area, including a very highly cited review paper.

Although Li batteries are the best choice for transport systems, they are prone to heating

and occasionally combustion, which makes them unsuitable for static deployment. In this

area we are developing advanced aqueous electrolyte based NiFe batteries, characterised

by very low cost and long asset lifetimes (~40 years).

In the area of energy policy and economics we have developed models for assessing the

economic impact of energy storage and are working on policy measures that will promote

their deployment.

I have recently started research on the electrochemical properties of blood for the

application of early-stage cancer detection.

Summary of Scientific and Engineering Achievements

PIH is an internationally renowned fuels specialist working on the interface of science

and engineering. His overall motivation is to provide clean economic energy to society

through understanding and manipulating materials at the nano-scale. His approach is

experimental, only working with materials that are genuinely sustainable and scalable to

meet the needs of a global energy industry.

Since completing his PhD, PJH has been actively involved in energy research mainly in

academia but also in industry with Exxon Corporate Research in USA. He has attracted a

balanced portfolio of research funding including research council, industry and EU. He

is a company director of Reactortech, an SME which is marketing fast reactor technology

to developing countries for bio-gas and activated carbon production. His work is briefly

summarised below:

3

Continuous electrospun carbon nanofibres used

for the Formic Acid fuel cell electrodes

1. Carbon materials and Energy Storage. A dominant theme has been research to

understand and control porosity in carbon materials to produce functional materials for a

wide variety of applications. This originated during his time at Brown University (USA)

where PJH on understanding the role of surface oxygen complexes in determining carbon

reactivity. This work was subsequently developed using contrast matching neutron

scattering to monitor the role and function of closed porosity in pore development and

was published in a series of papers in Faraday Transactions, The Journal of Colloid and

Interface Science and Carbon. PJH was the first person to perform simultaneous Thermo

gravimetric Analysis and Small Angle X-Ray Scattering on the ALS synchrotron in the

Argonne Laboratories. This work was sponsored by EPSRC and the results published in

a variety of Journals, including a review in Carbon. The outcome is the ability to produce

controlled nanoporous carbons and to be able to control the mean pore size and pore

volume.

The applications of this long, complex and painstaking work are now becoming evident

in recent work that has commenced two years ago in the Supergen Energy Storage

Consortium. PJH is developing and engineering new carbon materials for

supercapacitors and Li-ion batteries. Control of porosity is critical for both applications.

Supercapacitors based on ionic liquids are being developed because of their enhanced

operating voltage characteristics and therefore, increased energy density. This is crucial

for developing compact supercapacitors for automotive and electrical grid applications.

The application for Li-ion batteries

probably represents the greatest

materials challenge for porous

carbons.

2. Fossil fuel research. Early,

fundamental work centred on the

macromolecular structure of coals,

particularly phase changes induced

thermally and by solvents. He was

the first to identify low temperature

phase transitions in induced by basic

solvents and thermal transitions at

~120°C. This work was published in

a series of papers in Energy and Fuels

and Fuel. The consequences of this work were developed through his involvement with

the Exxon donor solvent coal liquefaction programme and in work on the spontaneous

combustion of coals, which was sponsored by Mitsubishi Heavy Engineering (Japan).

Within the past year there has been renewed interest in this work regarding the disposal

of CO2 into unminable coal seams with enhanced methane recovery. This work is also

directly industrially sponsored, in this case by Composite Energy, BG Group and the

Royal Bank of Scotland.

3. Materials for hydrogen storage. PJH has worked for over 10 years in the area of

solid-state hydrogen storage. The work commenced with funding from DERA in 1998

4

and continued with a further grant from QinetiQ in 2002. Subsequent funding came from

the EU as part of the Marie Curie sponsored Hytrain network. Early work was conducted

on nanocrystalline FeTi in which PJH used positron annihilation and SANS to

demonstrate the presence of high-pressure hydrogen bubbles within the structure. Much

subsequent work has been performed on Mg derivatives including catalyst loaded, ball-

milled and foamed. This work has been published in a variety of journals.

None of this work has approached the challenging targets set by US DoE or IEA and

some recent EPSRC sponsored work has concentrated on the chemical storage of

hydrogen, in the form of methanoic (formic) acid. PJH identified the key role played by

mass transfer in these devices and produced electrodes based on continuous electrospun

carbon nanofibres loaded with Pd.

4. Research and Industry. Throughout his career PJH has worked closely with industry,

which is inevitable given the applied nature of his research. Several examples have been

cited above and as will be noted from his funding history, considerable sums of directly

industrially funded research have been obtained. In 2009 his supercapacitor research has

been recognised as being ready for wide scale industrial deployment and he is currently

working closely with a number of companies on Technology Strategy Board applications

in the area of highly efficient transport systems.

Research Grants (figures refer to award to PJH, not the full grant awarded)

Science and Engineering Fund, University of Strathclyde (1992)

£18,000 for the acquisition of Differential Scanning Calorimetry equipment.

SERC Standard Research Grant (1992-1995)

£71,144 for working on coal macromolecular structure.

British Coal Utilization Research Association (1992-1995)

£44,086 working on coal liquefaction pre-treatments.

British Coal (1993-1996)

£6,800 for project on SAXS and SANS on carbon

British Coal Utilization Research Association (1994-1997)

£25,900 for project working on NOx reduction by carbon.

Defence Evaluation Research Association (1996-1997)

£97,000 for project working on hydrogen storage in metals.

ECSC/BCURA (1995-1998)

£87,900 for project on coal gasification.

Nordsk Hydro (1996-1997)

£8,000 for student support for investigating stored paleostress in coal.

5

EPSRC (1998-2001)

£115,000 for carbon deposition in HDS catalysts

Mitsubishi Heavy Industries Japan (1998-2000)

£125,000 for spontaneous combustion in coals

Defence Evaluation Research Association (1998-2000)

£80,000 for hydrogen storage in metals

EPSRC (2000-2001)

£92,743 for in situ pore development in carbon by SAXS

BCURA (2001-2004)

£65,000 for investigating CO2 sequestration in coal

Qinetiq (2002-2003)

£85,000 for investigating hydrogen storage on carbon

EPSRC (Jan 2003-Dec 2003)

Nominal. Overseas Travel And RA Support In Connection With The

Establishment Of A Strong UK Contribution To A FW6 Network Of Excellence

In Hydrogen Storage

EU Marie Curie (Jan 2005-2009)

£85,000 Hytrain for hydrogen storage on nanoporous materials

EPSRC (2005-2006)

£75,700 developing fuel cells to run on formic acid

EPSRC (start Feb 2006)

£512,000 Supergen electrochemical energy storage research (management hub)

EPSRC (start July 2007)

£480,000 for research into Li-ion battery electrodes

Composite Energy/British Gas/Royal Bank of Scotland (start Jan 2008)

£130,000 for CO2 sequestration into coal

EPSRC (start April 2008)

£180,000 for CO2 separation on mesoporous materials

EPSRC/MOD (start December 2009)

£180,000 for the development of Li batteries for military applications

EPSRC (start October 2010)

6

£720,000 for the continuation of the Supergen Energy Storage Consortium

EPSRC (start April 2011)

£280,000 from the Grand Challenge Transport for battery research

Scottish Enterprise (start July 2011)

£10,000 for the development of high grade activated carbons from Marabú wood

for the Cuban market

EPSRC (start August 2011)

£30,000 for a scoping study into large format NiFe batteries

EPSRC/SPECIFIC (February 2012 to April 2012)

£45,000 for development of large format ionic liquid based supercapacitors

EPSRC (October 2012)

£305,000 for Grand Challenges in storage for electrical networks

EPSRC/SPECIFIC (start August 2012)

£102,000 for research into large format NiFe batteries

Department of Business, Innovation and Skills, administered by EPSRC (November

2013)

£1.8M for the purchase of battery characterisation equipment

EPSRC (Start April 2014)

£4.1M for the establishment of a centre for doctoral training in energy storage

Professional Activities and Achievements (outside of technical conferences etc)

The severe energy problems faced by the UK need no rehearsal and an increasing amount

of my time is spend influencing energy policy through interactions with a number of

government ministries and agencies by committee work, report writing and supplying

evidence as appropriate.

Energy policy activities:

Invited to deliver seminar on CO2 Sequestration in Coal to the All-Party

Parliamentary Coalfield Community Group of MPs meeting on “Coal and Energy

Policy – New Opportunities” (November 2005). (My research on CO2 sequestration

in coal has far reaching implications for atmospheric CO2 management and methane

provision for the UK. It also has important social and employment implications for

chronically impoverished areas of former coal mining and therefore has important

political implications)

Evidence for House of Commons Science and Technology Committee “The Role of

Carbon Capture and Storage (with Composite Energy, 2005)

7

Invited to provide State of Science Review document for Office of Science and

Innovation Foresight and Horizon Scanning Centre on subject of Energy Storage

(Batteries, Supercapacitors, High Temperature Superconductors and Flywheels, May

2006). This is one of 12 specially commissioned reports (peer refereed) to examine

the current state of various aspects of energy research both in the current context and

predictions for the year 2050

Invited presenter to EPSRC sponsored meeting in Houses of Parliament meeting

“Powering our Future” (June 2006)

Committee member for Department of Innovation, Universities and Skills initiative

“Sustainable Energy and the Built Environment” (2007-Present)

Invited to produce “Think Piece” on Energy Storage and Transmission in 2050 for

Department of Innovation, Universities and Skills (peer reviewed) (2008)

Committee member for BERR sponsored MAT-UK energy materials group,

transmission and distribution (2006-2007)

Member of transport advisory group to inter-ministerial Office for Climate Change

(Committee for Climate Change) (2008-present)

Other responsibilities (since 2000):

Manager of EPSRC Supergen Energy Storage Consortium (EP/D031672/1 total value

£2,561,535, February 2006-January 2010). The Energy Storage Supergen consortium

is dedicated to developing Li-ion batteries and electrochemical supercapacitors for

long and short term energy storage: http://www.energystorage.org.uk

Management committee member of Hytrain – the Marie Curie Research Training

Network for Hydrogen Technologies (a consortium of 22 leading EU universities in

the area of hydrogen energy, total value €2.8 million, January 2005-December 2008).

In the development of hydrogen fuels not only is high quality research required but

also an awareness of research needs and the provision of trained researchers is

important: http://www.imr.salford.ac.uk/hytrain/index.html

Delegate on FCO sponsored Hydrogen Energy visit to Japan (May 2006)

EPSRC peer review college (2000-present)

Delegate on China-UK Hydrogen Energy Symposium (2005)

Invitation from JETI, Japan for lecture tour on coal science (2000)

Including an invited presentation to the Joint Japan/UK Hydrogen conference, chair

of post conference press conference in Embassy and part of the UK trade delegation

at the Japanese Motor Manufacturers Exhibition (Yokohama) promoting our

hydrogen technology

Delegate on Royal Society sponsored hydrogen energy visit of Chinese hydrogen and

fuel cell research institutes (June 2006)

Invited participant in EPSRC sponsored “Energy Summit” (November 2005)

Member of Royal Society of Chemistry working group on energy storage (2007-

persent)

Chairman of Joint Supergen Energy Storage Consortium/ACS Fuel Symposium at

ACS meeting Boston (2008)

External examiner at Abertay University Chemistry department (1998-2004)

8

Delegate on FCO hydrogen visit to Korea (2007)

Member of IEA Experts Panel for hydrogen storage (Task 22) (2000-Present):

http://www.hydrogenstorage.org/

Member of executive committee for EU sponsored Cost Action 542, High

Performance Energy Storage devices: http://www.wttc.de/cost/ 2006-2010

Member of UK Government International Experts Transport Committee (2008-

Present)

Member of Faculty research committee

Former departmental research director (2000-2008)

Member of Departmental management committee

Frequent external PhD examiner at a number of Universities (including): Bath,

Birmingham, Cambridge, Dundee, Imperial College, Queen Mary London, Queens

Belfast, Newcastle, University College London, Salford.

External examiner for Materials for Energy and Environment MSc degree, University

College London 2010-Present

Core/Management Committee Member for COST MP1004, an EU sponsored

consortium working on Hybrid Energy Storage Systems 2011-Present

Member of Steering Group for European Energy Research Alliance for Energy

Storage 2011-Present

Research Outputs

1. Rennie, A. J. R., Martins, V. L., Smith, R. M., & Hall, P. J. (2016). Influence of

Particle Size Distribution on the Performance of Ionic Liquid-based

Electrochemical Double Layer Capacitors. Scientific Reports, 6, 22062.

doi:10.1038/srep22062

2. Posada, J. O. G., & Hall, P. J. (2016). Towards the development of safe and

commercially viable nickel iron batteries: improvements to Coulombic efficiency

at high iron sulphide electrode formulations. Journal of Applied Electrochemistry,

46(4), 451-458. doi:10.1007/s10800-015-0911-3

3. Rennie, A. J. R., Martins, V. L., Torresi, R. M., & Hall, P. J. (2015). Ionic liquids

containing sulfonium cations as electrolytes for electrochemical double layer

capacitors. Journal of Physical Chemistry C, 119(42), 23865-23874.

doi:10.1021/acs.jpcc.5b08241

4. Posada, J. O. G., & Hall, P. J. (2015). The Effect of Electrolyte Additives on the

Performance of Iron Based Anodes for NiFe Cells. Journal of The

Electrochemical Society, 162(10), A2036-A2043. doi:10.1149/2.0451510jes

5. Goldin, M. M., Khubutia, M. S., Evseev, A. K., Goldin, M. M., Pinchuk, A. V.,

Pervakova, E. I., Hall, P. J. (2015). Noninvasive Diagnosis of Dysfunctions in

Patients After Organ Transplantation by Monitoring the Redox Potential of Blood

Serum. Transplantation. doi:10.1097/TP.0000000000000519

9

6. Gil Posada, J. O., & Hall, P. J. (2014). Post-hoc comparisons among iron

electrode formulations based on bismuth, bismuth sulphide, iron sulphide, and

potassium sulphide under strong alkaline conditions. Journal of Power Sources,

268, 810-815. doi:10.1016/j.jpowsour.2014.06.126

7. Gil Posada, J. O., & Hall, P. J. (2014). Multivariate investigation of parameters in

the development and improvement of NiFe cells. Journal of Power Sources, 262,

263-269. doi:10.1016/j.jpowsour.2014.03.145

8. Hall, P. (2014). Energy storage: Materials and processes Yang, Jun, Jim Yang

Lee, Peter Hall, and Yulong Ding. "Energy storage: Materials and processes."

Particuology 15 (2014): 1..

9. Posada, J. O. G., & Hall, P. J. (2015). Surface response investigation of

parameters in the development of FeS based iron electrodes. Sustainable Energy

Technologies and Assessments, 11, 194-197. doi:10.1016/j.seta.2014.10.005

10. Gil Posada, J. O., & Hall, P. J. (2014). SANS characterization of porous

magnesium for hydrogen storage. International Journal of Hydrogen Energy,

39(16), 8321-8330. doi:10.1016/j.ijhydene.2014.03.159

11. Noofeli, A., Hall, P. J., & Rennie, A. J. R. (2014). Ionic liquid based EDLCs:

influence of carbon porosity on electrochemical performance. Faraday Discuss..

doi:10.1039/C4FD00057A

12. Wilson, I. A. G., Rennie, A. J. R., & Hall, P. J. (2014). Great Britain's Energy

Vectors and Transmission Level Energy Storage. Energy Procedia, 62, 619-628.

doi:10.1016/j.egypro.2014.12.425

13. Barbour, E., Wilson, G., Hall, P., & Radcliffe, J. (2014). Can negative electricity

prices encourage inefficient electrical energy storage devices? International

Journal of Environmental Studies, 1-15. doi:10.1080/00207233.2014.966968

14. Rennie, A. J. R., & Hall, P. J. (2013). Nitrogen-enriched carbon electrodes in

electrochemical capacitors: Investigating accessible porosity using CM-SANS.

Physical Chemistry Chemical Physics, 15(39), 16774-16778.

doi:10.1039/c3cp52233d

15. Rennie, A. J. R., Sanchez-Ramirez, N., Torresi, R. M., & Hall, P. J. (2013). Ether-

bond-containing ionic liquids as supercapacitor electrolytes. Journal of Physical

Chemistry Letters, 4(17), 2970-2974. doi:10.1021/jz4016553

16. Mirzaeian, M., Hall, P. J., Sillars, F. B., Fletcher, I., Goldin, M. M., Shitta-Bey,

G. O., & Jirandehi, H. F. (2013). The effect of operation conditions on the

performance of lithium/oxygen batteries. Journal of the Electrochemical Society,

160(1), A25-A30. doi:10.1149/2.036301jes

17. Wilson, I. A. G., Rennie, A. J. R., Hall, P. J., Ding, Y., Eames, P. C., & Kelly, N.

J. (2013). Historical daily gas and electrical energy flows through Great Britain's

transmission networks and the decarbonisation of domestic heat. Energy Policy.

doi:10.1016/j.enpol.2013.05.110

10

18. Wilson, I. A. G., Rennie, A. J. R., Ding, Y., Eames, P. C., Hall, P. J., & Kelly, N.

J. (2013). Historical daily gas and electrical energy flows through Great Britain's

transmission networks and the decarbonisation of domestic heat. Energy Policy,

61, 301-305. doi:10.1016/j.enpol.2013.05.110

19. Sillars, F. B., Fletcher, S. I., Mirzaeian, M., & Hall, P. J. (2012). Variation of

electrochemical capacitor performance with room temperature ionic liquid

electrolyte viscosity and ion size. Physical Chemistry Chemical Physics, 14(17),

6094-6100. doi:10.1039/c2cp40089h

20. Barbour, E., Wilson, I. A. G., Bryden, I. G., McGregor, P. G., Mulheran, P. A., &

Hall, P. J. (2012). Towards an objective method to compare energy storage

technologies: Development and validation of a model to determine the upper

boundary of revenue available from electrical price arbitrage. Energy and

Environmental Science, 5(1), 5425-5436. doi:10.1039/c2ee02419e

21. Shitta-Bey, G. O., Mirzaeian, M., & Hall, P. J. (2012). The electrochemical

performance of phenol-formaldehyde based activated carbon electrodes for

lithium/oxygen batteries. Journal of the Electrochemical Society, 159(3), A315-

A320. doi:10.1149/2.089203jes

22. Carter, R., Cruden, A., & Hall, P. J. (2012). Optimizing for efficiency or battery

life in a battery/supercapacitor electric vehicle. IEEE Transactions on Vehicular

Technology, 61(4), 1526-1533. doi:10.1109/TVT.2012.2188551

23. Carter, R., Cruden, A., Hall, P. J., & Zaher, A. S. (2012). An improved lead-acid

battery pack model for use in power simulations of electric vehicles. IEEE

Transactions on Energy Conversion, 27(1), 21-28.

doi:10.1109/TEC.2011.2170574

24. Douglas, T. G., Cruden, A. J., Infield, D., Roy, A., & Hall, P. (2011).

Investigation of molybdenum-(resorcinol-formaldehyde) (Mo-RF) electrode for

alkaline electrolyser operation. International Journal of Hydrogen Energy,

36(13), 7791-7798. doi:10.1016/j.ijhydene.2011.01.107

25. Wilson, I. A. G., McGregor, P. G., Infield, D. G., & Hall, P. J. (2011). Grid-

connected renewables, storage and the UK electricity market. Renewable Energy,

36(8), 2166-2170. doi:10.1016/j.renene.2011.01.007

26. Shitta-Bey, G. O., Mirzaeian, M., & Hall, P. J. (2011). Effect of composition,

solvent exchange liquid and drying method on the porous structure of phenol-

formaldehyde gels. Journal of Sol-Gel Science and Technology, 57(2), 178-184.

doi:10.1007/s10971-010-2339-x

27. Sillars, F. B., Fletcher, S. I., Mirzaeian, M., & Hall, P. J. (2011). Effect of

activated carbon xerogel pore size on the capacitance performance of ionic liquid

electrolytes. Energy and Environmental Science, 4(3), 695-706.

doi:10.1039/c0ee00337a

11

28. Fletcher, S. I., Sillars, F. B., Carter, R. C., Cruden, A. J., Mirzaeian, M., Hudson,

N. E., . . . Hall, P. J. (2010). The effects of temperature on the performance of

electrochemical double layer capacitors. Journal of Power Sources, 195(21),

7484-7488. doi:10.1016/j.jpowsour.2010.05.043

29. Mirzaeian, M., Hall, P. J., & Jirandehi, H. F. (2010). Study of structural change in

Wyodak coal in high-pressure CO2 by small angle neutron scattering. Journal of

Materials Science, 45(19), 5271-5281. doi:10.1007/s10853-010-4570-9

30. Khubutiya, M. S., Goldin, M. M., Romasenko, M. V., Volkov, A. G., Hall, P. J.,

Evseev, A. K., . . . Krylov, V. V. (2010). Redox potentials of blood serum in

patients with acute cerebral pathology. ECS Transactions, 25(19), 63-71.

doi:10.1149/1.3298950

31. Fletcher, S. I., Sillars, F. B., Hudson, N. E., & Hall, P. J. (2010). Physical

properties of selected ionic liquids for use as electrolytes and other industrial

applications. Journal of Chemical and Engineering Data, 55(2), 778-782.

doi:10.1021/je900405j

32. Wilson, I. A. G., McGregor, P. G., & Hall, P. J. (2010). Energy storage in the UK

electrical network: Estimation of the scale and review of technology options.

Energy Policy, 38(8), 4099-4106. doi:10.1016/j.enpol.2010.03.036

33. Hall, P. J., Mirzaeian, M., Fletcher, S. I., Sillars, F. B., Rennie, A. J. R., Shitta-

Bey, G. O., . . . Carter, R. (2010). Energy storage in electrochemical capacitors:

Designing functional materials to improve performance. Energy and

Environmental Science, 3(9), 1238-1251. doi:10.1039/c0ee00004c

34. Khubutiya, M. S., Goldin, M. M., Stepanov, A. A., Hall, P. J., Kolesnikov, V. A.,

& Volkov, A. G. (2010). Electrochemical properties and biological activity of

carbon materials modified by polypyrrole. ECS Transactions, 25(19), 33-42.

doi:10.1149/1.3298947

35. Mirzaeian, M., & Hall, P. J. (2010). Characterizing capacity loss of lithium

oxygen batteries by impedance spectroscopy. Journal of Power Sources, 195(19),

6817-6824. doi:10.1016/j.jpowsour.2010.04.064

36. Molendowska, A., Hall, P. J., & Donet, S. (2009). The hydrogen storage

behaviour of pt and pd loaded transition metal oxides. Ceramic Transactions, 202,

51-60.

37. Mirzaeian, M., & Hall, P. J. (2009). The control of porosity at nano scale in

resorcinol formaldehyde carbon aerogels. Journal of Materials Science, 44(10),

2705-2713. doi:10.1007/s10853-009-3355-5

38. Mirzaeian, M., & Hall, P. J. (2009). Preparation of controlled porosity carbon

aerogels for energy storage in rechargeable lithium oxygen batteries.

Electrochimica Acta, 54(28), 7444-7451. doi:10.1016/j.electacta.2009.07.079

12

39. Mirzaeian, M., & Hall, P. J. (2009). Nano structure carbons for energy storage in

lithium oxygen batteries. 1st International Conference on Sustainable Power

Generation and Supply, SUPERGEN '09.

doi:10.1109/SUPERGEN.2009.5348075

40. Mirzaelan, M., & Hall, P. J. (2009). Nano structure carbon electrodes for energy

storage in lithium oxygen batteries. 8th World Congress of Chemical

Engineering: Incorporating the 59th Canadian Chemical Engineering Conference

and the 24th Interamerican Congress of Chemical Engineering, 518a.

41. Mirzaeian, M., & Hall, P. J. (2008). Thermodynamical studies of irreversible

sorption of CO2 by Wyodak coal. Iranian Journal of Chemistry and Chemical

Engineering, 27(2), 59-68.

42. Mirzaeian, M., & Hall, P. J. (2008). Polymer based carbons as potential materials

for energy storage in Lithium /Oxygen batteries. AIChE 100 - 2008 AIChE

Annual Meeting, Conference Proceedings.

43. Mirzaeian, M., & Hall, P. J. (2008). Polymer based carbons as potential materials

for energy storage in Lithium /Oxygen batteries. AIChE 100 - 2008 AIChE

Annual Meeting, Conference Proceedings.

44. Hall, P. J. (2008). Energy storage: The route to liberation from the fossil fuel

economy?. Energy Policy, 36(12), 4363-4367. doi:10.1016/j.enpol.2008.09.041

45. Hall, P., & Tennison, S. (2008). Battery powered. Materials World, 16(9), 30-31.

46. Sillars, F. B., Mirzaeian, M., & Hall, P. J. (2007). FUEL 231-Resorcinol -

formaldehyde gels as electrodes for electrochemical double layer capacitors.

ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 234.

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pp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000207593903579&

DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=0bfafa3ff35

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47. Mirzaeian, M., & Hall, P. J. (2007). FUEL 229-Carbon based electrode materials

for lithium/oxygen batteries. ABSTRACTS OF PAPERS OF THE AMERICAN

CHEMICAL SOCIETY, 234. Retrieved from

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pp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000207593903474&

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7b450f062b62b10c587b7

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48. Mirzaeian, M., & Hall, P. J. (2007). Thermodynamical studies of

adsorption/desorption of CO2 on Wyodak coal at different pressures.

ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 233.

Retrieved from

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7b450f062b62b10c587b7

49. Sillars, F. B., Mirzaeian, M., & Hall, P. J. (2007). Resorcinol - Formaldehyde gels

as electrodes for electrochemical double layer capacitors. ACS National Meeting

Book of Abstracts.

50. Elsayed, M. A., Hall, P. J., & Heslop, M. J. (2007). Preparation and structure

characterization of carbons prepared from resorcinol-formaldehyde resin by CO2

activation. Adsorption, 13(3-4), 299-306. doi:10.1007/s10450-007-9065-x

51. Baraka, A., Hall, P. J., & Heslop, M. J. (2007). Preparation and characterization

of melamine-formaldehyde-DTPA chelating resin and its use as an adsorbent for

heavy metals removal from wastewater. Reactive and Functional Polymers, 67(7),

585-600. doi:10.1016/j.reactfunctpolym.2007.01.015

52. Baraka, A., Hall, P. J., & Heslop, M. J. (2007). Melamine-formaldehyde-NTA

chelating gel resin: Synthesis, characterization and application for copper(II) ion

removal from synthetic wastewater. Journal of Hazardous Materials, 140(1-2),

86-94. doi:10.1016/j.jhazmat.2006.06.051

53. Mirzaeian, M., & Hall, P. J. (2007). Carbon based electrode materials for

lithium/oxygen batteries. ACS National Meeting Book of Abstracts.

54. Mirzaeian, M., & Hall, P. J. (2006). The interactions of coal with CO2 and its

effects on coal structure. Energy and Fuels, 20(5), 2022-2027.

doi:10.1021/ef060040+

55. Hall, P. J., Heslop, M. J., & Baraka, A. (2006). Selective adsorption of Cu(II)

from synthetic wastewater using melamine-formaldehyde NTA resin. WIT

Transactions on Ecology and the Environment, 95, 519-530.

doi:10.2495/WP060511

56. Mirzaeian, M., & Hall, P. J. (2006). Carbon dioxide sequestration in coal:

Implications for CO2 disposal and CH4 displacement from coal seams. WIT

Transactions on Ecology and the Environment, 89, 151-160.

doi:10.2495/GEO060161

57. Berlouis, L. E. A., Honnor, P., Hall, P. J., Morris, S., & Dodd, S. B. (2006). An

investigation of the effect of Ti, Pd and Zr on the dehydriding kinetics of MgH2.

Journal of Materials Science, 41(19), 6403-6408. doi:10.1007/s10853-006-0732-

1

14

58. Mirzaeian, M., & Hall, P. J. (2005). The high-pressure interactions of coal with

CO 2: Implications for CO 2 disposal and CH 4 displacement from coal seams.

7th World Congress of Chemical Engineering, GLASGOW2005, incorporating

the 5th European Congress of Chemical Engineering, 206.

59. Gil-Posada, J. O., & Hall, P. J. (2005). Magnesium derived foams for hydrogen

storage. 7th World Congress of Chemical Engineering, GLASGOW2005,

incorporating the 5th European Congress of Chemical Engineering, 146.

60. Bain, E. J., Hall, P. J., Sherrington, D. C., Heenan, R. K., & Wozniak, D. (2005).

Hypercrosslinked resins as precursors to carbon electrodes in electrochemical

capacitors: Pore structure characterization of resins and pyrolytic carbons. ACS

National Meeting Book of Abstracts, 229(1), FUEL-15.

61. Calo, J. M., & Hall, P. J. (2004). The application of small angle scattering

techniques to porosity characterization in carbons. Carbon, 42(7), 1293-1298.

doi:10.1016/j.carbon.2004.01.030

62. Hall, P. J., Hitchman, M. J., Brown, S. D., & Calo, J. M. (2003). Effect of

temperature and pressure treatment on the porosity of expanded

polytetrafluoroethylene films. Journal of Applied Polymer Science, 89(6), 1579-

1582. doi:10.1002/app.12320

63. Berlouis, L. E. A., Perez Aguado, R., Hall, P. J., Morris, S., Chandrasekaran, L.,

& Dodd, S. B. (2003). Dehydriding kinetics of a Mg-9.5 wt% V sample studied

by high pressure differential scanning calorimetry. Journal of Alloys and

Compounds, 356-357, 584-587. doi:10.1016/S0925-8388(02)01281-1

64. Castro Diaz, M., Hall, P. J., Snape, C. E., Brown, S. D., & Hughes, R. (2002).

Contrast-matching small-angle neutron scattering to monitor the accessibility of

solvents to the porosity of coked FCC catalysts. Industrial and Engineering

Chemistry Research, 41(25), 6566-6571.

65. Calo, J. M., Hall, P. J., Houtmann, S., Lozano Castello, D., Winans, R. E., &

Seifert, S. (2002). "Real time" determination of porosity development in carbons:

A combined SAXS/TGA approach. Studies in Surface Science and Catalysis, 144,

59-66.

66. Calo, J. M., Hall, P. J., & Antxustegi, M. M. (2001). Porosity characterization of

Wyodak coal char via small angle neutron scattering (SANS). ABSTRACTS OF

PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 222, U474. Retrieved

from

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67. Calo, J. M., Hall, P. J., Houtmann, S., Winans, R. E., & Seifert, S. (2001). In situ

determination of porosity during gasification via SAXS/TGA.. ABSTRACTS OF

PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 222, U477. Retrieved

from

http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcA

pp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000170690002448&

DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=0bfafa3ff35

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68. Berlouis, L. E. A., Cabrera, E., Hall-Barientos, E., Hall, P. J., Dodd, S. B., Morris,

S., & Imam, M. A. (2001). Thermal analysis investigation of hydriding properties

of nanocrystalline Mg-Ni- and Mg-Fe-based alloys prepared by high-energy ball

milling. Journal of Materials Research, 16(1), 45-57.

69. Lozano-CastellÛ, D., Cazorla-AmorÛs, D., Linares-Solano, A., Hall, P. J.,

Gascon, D., & Galan, C. (2001). In situ small angle neutron scattering study of

CD4 adsorption under pressure in activated carbons. Carbon, 39(9), 1343-1354.

doi:10.1016/S0008-6223(00)00254-2

70. Calo, J. M., Hall, P. J., & Antxustegi, M. (2001). Carbon porosity characterization

via small angle neutron scattering. Colloids and Surfaces A: Physicochemical and

Engineering Aspects, 187-188, 219-232. doi:10.1016/S0927-7757(01)00635-5

71. Snape, C. E., Tyagi, Y. R., Diaz, M. C., Martin, S. C., Hall, P. J., Hughes, R., &

Koon, C. L. (2001). An experimental protocol to evaluate FCC stripper

performance in terms of coke yield and composition. Studies in Surface Science

and Catalysis, 134, 239-250.

72. Koon, C. L., Akbar, F., Hughes, R., Tyagi, Y. R., Diaz, M. C., Martin, S. C., . . .

Snape, C. E. (2000). Development of an experimental protocol to evaluate FCC

stripper performance in terms of coke yield and composition. CHEMICAL

ENGINEERING RESEARCH & DESIGN, 78(A5), 738-744.

doi:10.1205/026387600527923

73. Snape, C. E., Tyagi, Y. R., Diaz, M. C., Martin, S. C., Hall, P. J., Koon, A. C. L.,

& Hughes, R. (2000). Experimental protocol to investigate stripper performance

in FCC.. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY,

219, U256. Retrieved from

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pp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000087246201418&

DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=0bfafa3ff35

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74. Hall, P. J., Brown, S. D., & Calo, J. M. (2000). Pore structure of the Argonne

coals as interpreted from contrast matching small angle neutron scattering. Fuel,

79(11), 1327-1332. doi:10.1016/S0016-2361(99)00270-7

75. Hall, P. J., Brown, S., Fernandez, J., & Calo, J. M. (2000). The effects of the

electronic structure of micropores on the small angle scattering of X-rays and

neutrons. Carbon, 38(8), 1257-1259.

16

76. Galan, C., Berlouis, L. E. A., & Hall, P. J. (2000). Effects of electrochemical

hydrogenation on coal structure: chemical and macromolecular changes. Fuel,

79(12), 1431-1438. doi:10.1016/S0016-2361(00)00005-3

77. Ruiz, W., Gascon, D., & Hall, P. J. (2000). Factors governing the formation of

porosity in metal loaded cellulose during pyrolysis and the effects of pore

structure on reactivity in O2 and NO. Fuel, 79(13), 1565-1571.

doi:10.1016/S0016-2361(00)00029-6

78. Lozano-CastellÛ, D., Cazorla-AmorÛs, D., Linares-Solano, A., Hall, P. J., &

Fern·ndez, J. J. (2000). Characterization of activated carbon fibers by Positron

Annihilation Lifetime Spectroscopy (PALS). Studies in Surface Science and

Catalysis, 128, 523-532.

79. Snape, C. E., Tyagi, Y. R., Castro Dia, M., Marti, S. C., Hall, P. J., Koon, C. L.,

& Hughes, R. (2000). An experimental protocol to evaluate stripper performance

in FCC. American Chemical Society, Division of Petroleum Chemistry, Preprints,

45(2), 286-289.

80. Berlouis, L. E. A., Cabrera, E., Hall-Barientos, E., Hall, P. J., Dodd, S., Morris,

S., & Imam, M. A. (2000). Thermal analysis investigation of the hydriding

properties of nanocrystalline Mg-Ni based alloys prepared by high energy ball

milling. Journal of Alloys and Compounds, 305(1-2), 82-89. doi:10.1016/S0925-

8388(00)00711-8

81. Tyagi, Y. R., Diaz, M. C., Martin, S. C., Wallace, C. L., Hall, P. J., Koon, C. L.,

& Hughes, R. (1999). Yield and composition of fcc stripper coke from mat and

fluidized-bed reactors.. ABSTRACTS OF PAPERS OF THE AMERICAN

CHEMICAL SOCIETY, 218, U243. Retrieved from

http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcA

pp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000082034000721&

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82. Snape, C., Tyagi, Y., Diez, M. C., Hall, P. J., & Martin, S. C. (1999).

Characterization of coke on HDS catalysts and a novel approach to catalyst

regeneration.. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL

SOCIETY, 218, U634. Retrieved from

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pp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000082033901918&

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83. Koon, C. L., Hughes, R., Tyagi, Y. R., Castro Diaz, M., Martin, S. C., Hall, P. J.,

& Snape, C. E. (1999). Yield and composition of FCC stripper coke from a MAT

reactor. American Chemical Society, Division of Petroleum Chemistry, Preprints,

44(4), 478-480.

17

84. Garcia, P., Hall, P. J., & Mondragon, F. (1999). The use of differential scanning

calorimetry to identify coals susceptible to spontaneous combustion.

Thermochimica Acta, 336(1-2), 41-46.

85. Mondragon, F., Jaramillo, A., Saldarriaga, F., Quintero, G., Fernandez, J., Ruiz,

W., & Hall, P. J. (1999). Effects of morphological changes and mineral matter on

H2S evolution during coal pyrolysis. Fuel, 78(15), 1841-1846.

doi:10.1016/S0016-2361(99)00096-4

86. Morris, S., Dodd, S. B., Hall, P. J., MacKinnon, A. J., & Berlouis, L. E. A.

(1999). Effect of novel processing on hydrogen uptake in FeTi- and magnesium-

based alloys. Journal of Alloys and Compounds, 293, 458-462.

doi:10.1016/S0925-8388(99)00338-2

87. Snape, C. E., Tyagi, Y. R., Diaz, M. C., Hall, P. J., Murray, I. P., & Martin, S. C.

(1999). Characterisation of coke on deactivated hydrodesulfurisation catalysts and

a novel approach to catalyst regeneration. ACS Division of Fuel Chemistry,

Preprints, 44(4), 832-835.

88. Antxustegi, M. M., Hall, P. J., & Calo, J. M. (1998). The use of contrast-matching

small-angle neutron-scattering techniques to monitor closed porosity in carbons.

Journal of Colloid and Interface Science, 202(2), 490-498.

doi:10.1006/jcis.1998.5474

89. Mondragon, F., Quintero, G., Jaramillo, A., Fernandez, J., & Hall, P. J. (1998).

The catalytic liquefaction of coal in the presence of Ethanol. Fuel Processing

Technology, 53(3), 171-181.

90. Ruiz Machado, W. A., & Hall, P. J. (1998). Effects of porosity on carbon

reactivity in NO and O2. Energy and Fuels, 12(5), 958-962.

91. Mirari Antxustegi, M., Hall, P. J., & Calo, J. M. (1998). Development of porosity

in pittsburgh no. 8 coal char as investigated by contrast-matching small-angle

neutron scattering and gas adsorption techniques. Energy and Fuels, 12(3), 542-

546.

92. Hall, P. J., Antxustegi, M., & Ruiz, W. (1998). Contrast-matching small-angle

neutron scattering evidence for the absence of a connected pore system in

Pittsburgh No. 8 coal. Fuel, 77(14), 1663-1665.

93. Hall, P. J., Gascon Galan, D., Ruiz Machado, W., Mondragon, F., Barrientos

Barria, E., Sherrington, D. C., & Calo, J. M. (1997). Use of contrast-enhanced

small-angle neutron scattering to monitor the effects of solvent swelling on the

pore structure of styrene-divinylbenzene resins. Journal of the Chemical Society -

Faraday Transactions, 93(3), 463-466.

94. Mondragon, F., Quintero, G., Jaramillo, A., Fernandez, J., Calo, J. M., Ruiz, W.,

& Hall, P. J. (1997). The production of high surface carbons from coal using pre-

swelling in solvents to disperse coking catalysts. Journal of Materials Science,

32(6), 1455-1459.

18

95. Berlouis, L. E. A., Hall, P. J., MacKinnon, A. J., Wark, A. W., Manuelli, D.,

Gervais, V., & Robertson, J. E. (1997). The decomposition of electrochemically

loaded palladium hydride: A thermal analysis study. Journal of Alloys and

Compounds, 253-254, 207-209.

96. Larsen, J. W., Flowers, R. A., Hall, P. J., & Carlson, G. (1997). Structural

rearrangement of strained coals. Energy and Fuels, 11(5), 998-1002.

97. Hall, P. J. (1997). Einstein specific heat modeling of the effects of chlorobenzene

refluxing on the macromolecular structure of Pittsburgh No. 8 coal. Energy and

Fuels, 11(5), 1003-1005.

98. Hall, P. J., Berlouis, L. E. A., Mackinnon, A. J., Wilson, J., Browning, D., Dodd,

S., . . . Calo, J. M. (1997). Analysis of FeTi hydride alloys by thermal analysis,

small angle neutron scattering and positron annihilation. Journal of Alloys and

Compounds, 253-254, 195-200.

99. Hall, P. J., Machado, W. R., Galan, D. G., Barria, E. B., & Sherrington, D. C.

(1996). Use of contrast matching small-angle neutron scattering to monitor the

presence of closed porosity in controlled porosity styrene-divinylbenzene resins.

Journal of the Chemical Society - Faraday Transactions, 92(14), 2607-2610.

100. Ismail, K., Sirkecioglu, O., Andresen, J. M., Brown, S. D., Hall, P. J.,

Snape, C. E., & Steedman, W. (1996). Sulfur- and nitrogen-containing phenol-

formaldehyde co-resites for probing the thermal behaviour of heteroatomic forms

in solid fuels. Polymer, 37(18), 4041-4048. doi:10.1016/0032-3861(96)00243-1

101. Mackinnon, A. J., & Hall, P. J. (1996). Properties of second order

transitions in Argonne Premium coals. Fuel, 75(1), 85-88. doi:10.1016/0016-

2361(95)00200-6

102. HALL, P., ANTXUSTEGI, M., CALOT, J., & THIYAGARAJAN, P.

(1995). THE DEVELOPMENT OF POROSITY IN PITTSBURGH =8 CHAR

AS STUDIED USING CONTRAST MATCHING SMALL-ANGLE NEUTRON-

SCATTERING. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL

SOCIETY, 210, 2-FUEL. Retrieved from

http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcA

pp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1995RP25601701

&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=0bfafa3ff

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103. McGhee, B., Norton, F., Snape, C. E., & Hall, P. J. (1995). The

copyrolysis of poly(vinylchloride) with cellulose derived materials as a model for

municipal waste derived chars. Fuel, 74(1), 28-31. doi:10.1016/0016-

2361(94)P4326-W

104. Mackinnon, A. J., & Hall, P. J. (1995). Observation of first- and second-

order transitions during the heating of Argonne premium coals. Energy and Fuels,

9(1), 25-32.

19

105. Norton, F. J., Love, G. D., Mackinnon, A. J., & Hall, P. J. (1995).

Mechanisms of char production from oxidized cellulose. Journal of Materials

Science, 30(3), 596-600. doi:10.1007/BF00356316

106. Mackinnon, A. J., Hall, P. J., Snape, C. E., & Burchill, P. (1995). Enthalpy

relaxation and glass transitions in Point of Ayr coal. Fuel, 74(1), 136.

doi:10.1016/0016-2361(94)P4345-3

107. Cepni, I., Sirkecioglu, O., McArthur, C. A., Hall, P. J., & Snape, C. E.

(1995). Effects of chlorobenzene treatment on coal structure and liquefaction

behaviour. Coal Science and Technology, 24(C), 1383-1386. doi:10.1016/S0167-

9449(06)80062-5

108. NORTON, F., HALL, P., & LOVE, G. (1994). CELLULOSE DERIVED

CARBONS FOR USE AS ADSORBENTS IN METHANE STORAGE.

ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 207, 77-

FUEL. Retrieved from

http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcA

pp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1994MY95402312

&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=0bfafa3ff

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109. Mackinnon, A. J., Hayward, D., Hall, P. J., & Pethrick, R. A. (1994).

Temperature dependent low frequency dielectric and conductivity measurements

of Argonne Premium coals. Fuel, 73(5), 731-737. doi:10.1016/0016-

2361(94)90016-7

110. Hall, P. J., Antxustegi, M. M., Mackinnon, A. J., Burchill, P., Winans, R.

E., & Thiyagarajan, P. (1994). Small-angle neutron scattering evidence for the

formation of microporosity in Pittsburgh no. 8 coal following liquefaction

pretreatment by solvents. Energy and Fuels, 8(6), 1526-1527.

111. Hall, P. J., Mackinnon, A. J., & Mondragon, F. (1994). Role of glass

transitions in determining enthalpies of air oxidation in North Dakota lignite.

Energy and Fuels, 8(4), 1002-1003.

112. Mackinnon, A. J., Antxustegi, M. M., & Hall, P. J. (1994). Glass

transitions and enthalpy relaxation in coals. Fuel, 73(1), 113-115.

doi:10.1016/0016-2361(94)90196-1

113. MCARTHUR, C., HALL, P., MACKINNON, A., & SNAPE, C. (1993).

EFFECT OF CHLOROBENZENE PRETREATMENT ON

MACROMOLECULAR STRUCTURE OF PITTSBURGH NO-8 COAL.

ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 206,

105-FUEL. Retrieved from

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pp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1993LP32101617

&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=0bfafa3ff

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114. MCARTHUR, C., HALL, P., & SNAPE, C. (1993). EFFECT OF

CHLOROBENZENE TREATMENT OF THE LOW-SEVERITY

LIQUEFICATION OF COALS. ABSTRACTS OF PAPERS OF THE AMERICAN

CHEMICAL SOCIETY, 205, 94-FUEL. Retrieved from

http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcA

pp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1993KQ98101948

&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=0bfafa3ff

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115. HALL, P., & LARSEN, J. (1993). USE OF EINSTEIN SPECIFIC-HEAT

MODELS TO ELUCIDATE COAL STRUCTURE AND CHANGES IN COAL

STRUCTURE FOLLOWING SOLVENT-EXTRACTION. ENERGY & FUELS,

7(1), 42-46. doi:10.1021/ef00037a008

116. Mackinnon, A. J., Hall, P. J., Hayward, D., & Pethrick, R. A. (1993).

Low-frequency dielectric measurements on Argonne Premium coals. Fuel, 72(7),

1077-1078. doi:10.1016/0016-2361(93)90311-O

117. Fisher, J. M., Berlouis, L. E. A., Rospendowski, B. N., Hall, P. J., &

Astles, M. G. (1993). In situ ellipsometry studies of electrodeposited cadmium

telluride films on cadmium mercury telluride. Semiconductor Science and

Technology, 8(7), 1459-1464. doi:10.1088/0268-1242/8/7/042

118. HALL, P., & LARSEN, J. (1993). EVIDENCE FOR THE FORMATION

OF STABLE COAL-N-METHYLPYRROLIDINONE AND COAL-PYRIDINE

GELS. ENERGY & FUELS, 7(1), 47-51. doi:10.1021/ef00037a009

119. Antxustegi, M. M., Mackinnon, A. J., & Hall, P. J. (1993). Effects of glass

formation by solvents in differential scanning calorimetry investigations of

solvent swollen coals. Energy & Fuels, 7(6), 1026-1029.

120. HALL, P., THOMAS, K., & MARSH, H. (1992). THE RELATION

BETWEEN COAL MACROMOLECULAR STRUCTURE AND SOLVENT

DIFFUSION MECHANISMS. FUEL, 71(11), 1271-1275. doi:10.1016/0016-

2361(92)90053-Q

121. MCARTHUR, C., MACKINNON, A., SNAPE, C., & HALL, P. (1992).

THE EFFECTS OF PRETREATMENT BY NONPOLAR-SOLVENTS ON

COAL-LIQUEFACTION BEHAVIOR AND STRUCTURE. ABSTRACTS OF

PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 203, 78-FUEL. Retrieved

from

http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcA

pp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1992HK16102420

&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=0bfafa3ff

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122. MACKINNON, A., PETHRICK, R., & HALL, P. (1992).

MECHANISMS OF POSITRON-ANNIHILATION IN COALS AND SOLVENT

EXTRACTED COALS. ABSTRACTS OF PAPERS OF THE AMERICAN

CHEMICAL SOCIETY, 203, 94-FUEL. Retrieved from

http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcA

pp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1992HK16102436

&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=0bfafa3ff

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123. Hall, P. J. (1992). The use of two-component Einstein specific heat

models to investigate the structure of dioxane lignin. Polymer, 33(10), 2222-2223.

doi:10.1016/0032-3861(92)90893-2

124. Mackinnon, A. J., & Hall, P. J. (1992). Glass transitions in coal. Fuel,

71(8), 974-975. doi:10.1016/0016-2361(92)90251-I

125. Hall, P. J. (1991). Interpretation of high temperature second order phase

transitions for coal/solvent systems. Fuel, 70(7), 899-900. doi:10.1016/0016-

2361(91)90203-M

126. HALL, P., & LARSEN, J. (1991). EVIDENCE FOR LOW-

TEMPERATURE 2ND-ORDER PHASE-TRANSITIONS IN COAL SOLVENT

SYSTEMS USING DIFFERENTIAL SCANNING CALORIMETRY. ENERGY

& FUELS, 5(1), 228-229. doi:10.1021/ef00025a038

127. HALL, P., MARSH, H., & THOMAS, K. (1990). THE

RELATIONSHIPS BETWEEN COAL MACROMOLECULAR STRUCTURE

AND SOLVENT DIFFUSION MECHANISMS. ABSTRACTS OF PAPERS OF

THE AMERICAN CHEMICAL SOCIETY, 199, 38-FUEL. Retrieved from

http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcA

pp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:A1990CZ78301756

&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=0bfafa3ff

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128. Schwartz, D., Hall, P. J., & Marsh, H. (1989). Macromolecular and

chemical changes induced by air-oxidation of a medium volatile bituminous coal.

Fuel, 68(7), 868-871. doi:10.1016/0016-2361(89)90122-1

129. Hall, P. J., Marsh, H., & Thomas, K. M. (1988). Solvent induced swelling

of coals to study macromolecular structure. Fuel, 67(6), 863-866.

doi:10.1016/0016-2361(88)90164-0

130. Hall, P. J. (1986). The Pauli exclusion principle and the foundations of

chemistry. Synthese, 69(3), 267-272. doi:10.1007/BF00413974

131. Hall, P. J. (1986). An estimation of the critical temperatures for atoms

adsorbed on fractal surfaces using the van der waals equation in non-integral

dimensional space. Chemical Physics Letters, 129(4), 411-413. doi:10.1016/0009-

2614(86)80369-4

22

132. Hall, P. J. (1986). The fractal properties of microporous solids as

determined by X-Ray diffraction and adsorption techniques. Chemical Physics

Letters, 124(5), 467-469. doi:10.1016/0009-2614(86)85056-4

133. Hall, P. J. (1985). The origin and use of the static Debye-Waller

parameter. Journal of Materials Science Letters, 4(8), 1002-1004.

doi:10.1007/BF00721104

134. Hall, P. J., & Blodwell, J. F. (1985). Mixed states in the EPR experiment.

Physics Letters A, 108(7), 325-328. doi:10.1016/0375-9601(85)90106-9

Selected Contributions to general knowledge distribution, reports, press cuttings,

publicly available presentations etc:

Copy of New Statesman article on batteries for energy storage:

http://www.newstatesman.com/environment/2007/07/energy-storage-renewable

News snippet from BBC on the importance of supercapacitors for transport:

http://news.bbc.co.uk/1/hi/sci/tech/4396754.stm

Open version of work commissioned by Foresight on energy storage technologies

(subsequently published in Energy Policy):

http://www.foresight.gov.uk/Drumbeat/Energy/Energy_storage_technologies_and_electri

city_generation.pdf

New snippet on hydrogen storage targets:

http://www.rsc.org/chemistryworld/Issues/2007/October/HydrogenStorageTargetsOutOf

Reach.asp

New snippet on our methanoic acid fuels project:

http://www.rsc.org/chemistryworld/News/2005/December/05120501.asp

Copy of Royal Society of Chemistry report on CO2 to chemicals (contributor):

http://www.rsc.org/imgesa/Converting CO2 to chemicals report_FINAL_tcm18-

65202.pdf

Presentation on critical materials developments for supercapacitors UKERC meeting

2007:

http://www.publications.parliament.uk/pa/cm200708/cmselect/cmdius/216/21602.htm

Status report presentation on materials for energy storage MAT-UK June 2009:

http://www.matuk.co.uk/energy.htm#challenge

Battery presentation made at UK Embassy, Madrid March 2010:

23

http://ukinspain.fco.gov.uk/en/about-us/working-with-spain/science-technology1/040-

energy-storage

Invited presentation in University of Sevilla energy meeting June 2010:

http://catedrasempresa.esi.us.es/endesared/documentos/jornada_almacenamiento/Pet_Hal

l.pdf.

Motivation Letter – Mathias Noe My motivation to apply for this community service comes from several reasons: Firstly, I am fully convinced that Energy Storage and Storage Integration is mandatory for the successful conversion of our energy systems towards systems based on renewable energies. Only a mix of several energy storage options that cover different needs from different energy sources (e.g. electrical, chemical and thermal energy) seems suitable for the future challenges. Secondly, I simply enjoy working with the present JP ES members and the management team very much. Thirdly, I think that the JP ES has not yet the position that it deserves in EERA and in the European Energy Landscape. At the last meetings we started encouraging activities and I am sure that it is the right way to make more use out of EERA instead of complaining about it.

Curriculum Vitae

Prof. Dr.-Ing. Mathias Noe

Personal Information

born October 04, 1963 in Worms, Germany Institute for Technical Physics Karlsruhe Institute of Technology Hermann-von-Helmholtz-Platz 1, 76344 Eggenstein-Leopoldshafen, Germany (+49) +721 6082-3500 Mathias.noe@kit.edu Scientific Vita

12/1991 Diploma Electrical Engineering, Technical University Hannover 06/1998 PhD, Technical University Hannover 1997-1998 Postdoc, Ecole Polytechnique Federale de Lausanne 1998-2001 Researcher at Institute for Technical Physics, Research Center of Karlsruhe 2001-2005 Technical Coordinator of the Karlsruhe Tritium Neutrino Experiment at Institute for

Technical Physics, Research Center of Karlsruhe 2003-2006 Group Leader for Applications of Superconductivity in Power Systems at Institute for

Technical Physics, Research Center of Karlsruhe 2006- Director of Institute for Technical Physics, Research Center of Karlsruhe / from 2009

on: KIT; areas: superconductors and superconducting components, Tritium Laboratory Karlsruhe, cryo technology, vacuum technology

2006- Professorship in Technical Applications of High Temperature Superconductivity at the Faculty of Electrical Engineering and Information Technology, Technical University of Karlsruhe (from 2009 on KIT)

4/2014-7/2014 Invited Professor at École Polytechnique de Montréal, Canada Professional Activities and Community Service

2015- Coordinator EERA joint program Energy Storage 2015- Spokesperson of Helmholtz Energy Program Storage and Cross-linked Infrastructure 2013- Co-founder of Vision Electric Superconductors 2013- Member of Engineering Scientific Committee of Science Europe 2012-2013 Member of working group on Smart Grid Roadmap Baden-Württemberg 2011- President of the European Society of Applied Superconductivity (ESAS) 2011- EERA Joint Programme on Energy Storage, Coordinator of Subtopic Magnetic Energy

Storage 2011-2014 Member of the Association Steering Committee Euratom-KIT 2011- International Council of Large Electric Systems (CIGRE), Convenor of Working Group

“Emerging test techniques common to HTS power equipment” 2011-2011 Member of the F4E Assessment Group on the procurement of the ITER PF coils 2009-2011 Member of the Wissenschaftsrat evaluation group for the scientific rating of German

faculties of electro- and information technology 2010- Member of Technical Advisory Panel of Fusion for Energy (F4E) 2004-2010 International Council of Large Electric Systems (CIGRE), Secretary of Working Group

“HTS Materials and electrical insulation” 2009- Elected member of the KIT Senate 2009- Editorial Board of “IEEE Transactions of Applied Superconductivity” 2009-2010 Member of joint CCE-FU-F4E GB Working group on DEMO 2008- Guest member of German industrial society of superconductivity (ivsupra)

2008-2012 International Council of Large Electric Systems (CIGRE), Invited expert of Working group, “Fault current limiters”

2006- International Energy Agency (IEA), Implementing Agreement on Assessment of Superconductivity, German Representative

2006- Scientific Committee of International Magnet Conference Series 2006- Board member of European Society of Applied Superconductivity 2006-2014 Spokesperson of HGF Topic Superconductivity Reviewer DFG, ERC, FP7, Wissenschaftsrat and some journals Areas of Expertise • New and advanced power system components (e.g. cables, generators, transformers, fault

current limiters, superconducting energy storage); power system calculations • Fusion technology (e.g. superconducting magnets, current leads, fuel cycle including tritium

processing and vacuum systems) • Cryogenic high voltage engineering • Project management • High field superconducting magnets • Economic evaluations and power system studies

• Industrial relations, i.e., joint R&D projects with several companies.