CURRICULUM VITAE Date: April 2014 Personal Details Name Date and place of birth Marital status Nationality Languages Education Exams Jan Erik Kjell Sundberg May 27, 1953, Borlänge, Sweden Married Swedish citizen Swedish, English, (French) M Sc in Civil Engineering, Chalmers University of Technology, Gothenburg, Sweden, 1979 Ph D in Engineering Geology, Chalmers University of Technology, Gothenburg, Sweden, 1988 Employment Present position Oct 2013 - Guest researcher, Chalmers University, Gothenburg and JS Innova, Gothenburg Earlier positions 2010-2013 Senior Consultant, Vectura, Gothenburg 2005-2010 President of the board, Geo Innova AB, Linköping & Gothenburg 2001-2004 Managing Director, Geo innova AB, Linköping, Sweden 1997-2001 Head of Department of Environmental geotechnics, Swedish Geotechnical Institute 1995-1997 Managing Director, Terratema AB, Linköping, Sweden 1989-1994 Senior Consultant, Terratema AB, Linköping, Sweden 1987-1989 State geotechnician, Swedish Geotechnical Institute, Linköping, Sweden. 1984-1987 Responsible for energy planning, Municipality of Mark, Kinna, Sweden. 1979-1980 ABACO AB 1978-1985 Research assistant, Dep. of Geology, Chalmers University of Technology, Gothenburg. 1976-1977 City Engineering Bureau, Gothenburg 1969-1976 Student practical training periods, Swedish State railways, Vägbolaget (contractor), BPA (contractor). 1
Examples on Activities and projects 1978-1979 Staff member in research project concerning prospecting for geothermal energy in hot dry rock. 1979-1985 Responsible for a large research project concerning thermal properties of soils and rocks. 1979-1984 Staff member in several projects concerning storage and utilization of energy in ground. Postgraduate studies in geohydrology, design of wells and technical properties of rock and soil material. 1985-1987 Investigations of district heating and energy planning 1987-1990 Project manager and staff member in several investigations concerning different types of medium and high temperature storage in ground and related problems, ground water planning, etc. 1988- Staff member in several investigations on the disposal of waste and its environmental impact. 1990- Project manager and staff member on several investigations on contaminated soil 1989-1994 Project manager of a project on the possibilities to solidify ash from combustion of household refuse for the prevention of environmental impacts. Including several stages and full scale experiments. Commissioned by the National Energy Administration and Stockholm Energy. 1990-1991 Hydrogeological conditions, unsaturated flow and properties of the waste in dry rock depository concept for hazardous waste management. 1990-1994 Project manager on the investigation (hydrogeology, geology, transport of contaminant and environmental impacts) and the permission process for a new large landfill area in the region of Stockholm, Sweden. 1992-1994 In-situ measurement of thermal properties of sediments for the Baltic Cable project and other High Voltage Cable projects. 1992-1994 Investigations on a half scale project on stabilization of ash from combustion of household waste with PFBC-ash to prevent environmental impact. 1993-1994 Filter systems for the cleaning of leachate from solidified ash. 1994- Investigation of polluted ground water near a ground water supply facility in the eastern part of Sweden 1994-1996 Project manager on investigations of mercury contaminated sediments in the central and north part of Sweden 1994- Construction of cell deposits for assorted harmful waste categories, waste characterisation and filter system for cleaning lechate on a landfill in the Stockholm area. Commissioned by the National Environment Protection Agency and SRV Återvinning AB. 1995- Project manager on investigations and long term environmental assessment studies on underground storage rock caverns emptied from oil products. 7 different sites investigated. National Oil Stockpile Agency of Sweden. 1995-1997 Project manager on investigations on alternative use of old underground storage rock caverns. National Oil Stockpile Agency of Sweden. 2
1995-1996 Project manager on investigations and remediation of a mercury and dioxin contaminated old chlor-alkali plant. 1996- Project manager on development of geological filter system to clean oil contaminated water. National Oil Stockpile Agency of Sweden. 1997-1998 Project manager on investigations and remediation of old chlor-alkali plant contaminated with perchlorethylen, mercury and dioxin. Bengtsfors Sweden. 1997-1998 Project manager on investigations and remediation of a mercury and dioxin contaminated old chlor-alkali plant in Azerbaijan. 1999-2004 Project manager on the design of a new large landfill area according to new EU-regulations in the region of Stockholm, Sweden. 2001-2002 Responsible for the evaluation of the determination of the thermal properties of the rock with different methods at different scales. SKB 2001-2003 Responsible for the development of the thermal model 1.1 associated with the SKB site descriptive models. SKB 2002-2013 Responsible for geotechnical, geological and hydrogeological issues in a large remediation project concerning mercury and dioxin contaminated soil. Bengtsfors, Sweden 2002-2003 Project manager for comparison and evaluation of methods and methodologies concerning determination of thermal properties at Äspö HRL. 2002-2003 Responsible for the development of a strategy for the thermal site descriptive modelling. SKB, Sweden 2004-2005 Responsible for development of the upscaling strategy of thermal properties and back calculation of thermal properties in the prototype repository. SKB, Sweden 2004-2005 Responsible for the development thermal site descriptive model in Simpevarp versions 1.1 and 1.2. SKB, Sweden 2004-2009 Responsible for the development thermal site descriptive model in Laxemar versions 1.1, 1.2 and final site descriptive model. SKB, Sweden 2004-2009 Responsible for the development thermal site descriptive model in Forsmark, versions 1.1, 1.2 and final site descriptive model. SKB, Sweden 2005 - Responsible for measurement of thermal properties in the marine surveys for a number of large High Voltage Cable projects. Marin Mätteknik. 2006-2007 Development of a new strategy for thermal modelling, involving stochastic modelling of geology and thermal properties. SKB, Sweden 2007-2008 Development of a strategy for the thermal design of a repository SKB, Sweden 3
2007-2009 Contract manager for the modelling of temperature in deep boreholes and evaluation of geothermal heat flow at Forsmark and Laxemar. SKB 2008-2009 Contract manager and responsible for the design calculations of canister spacing at the disposal of nuclear waste for the two sites Forsmark and Laxemar (Oskarshamn). SKB 2011-2012 Contract manager and responsible for field measurement of thermal conductivity and the establishment of thermal property models for different soil types as a basis for planning the southwest link electric cable (HVDC). The mission also includes estimates of design groundwater and moisture neck conditions and their duration by simulation of coupled heat / moisture / water transportation for a large number of soil and climate data. For Svenska Kraftnät (Swedish national grid) 2011-2012 Measurement of the thermal properties and the establishment of property models as a basis for the design of the new cable link distance Hagby-Danderyd. Svenska Kraftnät (Swedish national grid) 2011-2012 Responsible for Development of specifications for cable back-fill. For Svenska Kraftnät (Swedish national grid) 2011- Non-skid winter roads. Solar heat and heat storage for environmentally sound deicing. Trafikverket (The Swedish Transport administration) 2012- Geothermal measurements in deep boreholes as input for understanding past climate evolution. SKB 2013- Thermal dimensioning of high voltage underground cables. Svenska Kraftnät Memberships Publications Business address Swedish geotechnical society, SGF The Network Renare Mark, the Swedish network for contaminated soil See Appendix JS Innova c/o Jan Sundberg Kjellmansgatan 3 SE-414 63 Göteborg Sweden Mobile: +46 70 674 29 69 E-mail: jan.sundberg@chalmers.se 4
Publications Doctoral Thesis SUNDBERG, J, 1988, "Thermal Properties of Soils and Rocks", Chalmers University of Technology, Dep. of Geology, Gothenburg, Publ. A57, 310 p. Thesis. Other publications Scientific papers and public reports Sundberg, J., 1979. Metoder för bestämning av termiska parametrar i berg och jord. Chalmers Tekniska Högskola och Göteborgs Universitet, Geologiska institutionen. Publ B132, Göteborg, Sweden. Backlund, L., Fridh, B., Fält, U., Larson, S.Å., Modin, B., Rihm, T. & Sundberg, J., 1980. Ackumulering av värme i berg. Litteraturstudier, teknik och ekonomi. Byggforskningsrådet. Rapport; R124:1980. Stockholm. Sundberg, J., 1982. Metoder för bestämning av värmeöverförande egenskaper i jord och berg. Chalmers Tekniska Högskola. Jordvärmegruppen. Rapport; 5. Göteborg. Johnson, J., Sundberg, J. & Thunholm, B., 1984. Värmekonduktivitet i svensk berggrund. NGM-84. Nordiska Geoteknikermötet, Linköping, Juni 1984. Vol. 3. s 197-203. Rhen, I., Sundberg, J. & Wilen, P., 1984. Horizontal pipe systems in soil for heating and cooling of single family houses. Chalmers Tekniska Högskola. Jordvärmegruppen. Rapport; 13. Göteborg. Sundberg, J., Thunholm, B. & Johnson, J., 1985. Värmeöverförande egenskaper i svensk berggrund. Byggforskningsrådet. Rapport; R97:1985. Stockholm. Rehn, I., Sundberg, J. & Modin, B.O., 1986. Dimensionering av ytjordvärmekollektor. Beräkningar med simuleringsmodell. Byggforskningsrådet. Rapport; R13:1986. Stockholm. Sundberg, J., 1986. Värmeöverförande egenskaper i svenska jordarter. Värmekonduktivitet, specifik värmekapacitet och latent värme. Byggforskningsrådet. Rapport; R104:1986. Stockholm. Sundberg, J., 1987. Erfarenheter från några stora ytjordvärmesystem. Byggforskningsrådet. Rapport; R98:1987. Stockholm. Klarmann, S., Mogensen, P., Rudholm, B. & Sundberg, J., 1988. Ytjordvärmeanläggning för skola och sporthall i Mantorp, Mjölby kommun. Slutrapport. Statens Geotekniska Institut. SGI Varia 315. Linköping. Magnusson, C. & Sundberg, J., 1988. Construction techniques and economics of pit heat stores in clay. International conference on energy storage for building heating and cooling, 4, Jigastock 88, Versailles, Oct 1988. Communications/Proceedings, Vol. 1. p 205-208 Magnusson, C. & Sundberg, J., 1988. Anläggningsteknik för gropvärmelager i jord - teknisk och ekonomisk studie. Byggforskningsrådet. Rapport; R47:1988. Stockholm. Rydell, B., Lundin, S.E. & Sundberg, J., 1988. Teknikupphandling av markvärmelager. Byggforskningsrådet. Rapport; R44:1988. Stockholm. Rydell, B. & Sundberg, J., 1988. Värmelager i lera vid församlingshem i Söderköping. Geoteknisk uppföljning och utvärdering. Nordiske geoteknikermöte, NGM-88, 10, Oslo, Mai 1988. Artikler og "poster"- sammendrag. s 384-387 Rydell, B., Sundberg, J. & Lundin, S.E., 1988. Procurement of new technology a strategy for introducing technology for energy storage in ground. International conference on energy storage for building heating and cooling, 4, Jigastock 88, Versailles, Oct 1988. Communications/Proceedings, Vol. 1. p 59-61 5
Sundberg, J., 1988. Energilager i mark ett miljövänligt alternativ. Bygg och Teknik vol 80, nr 8, s 31-34. Sundberg, J., 1988. Thermal properties of soils and rocks. Diss. Chalmers Tekniska Högskola. Geologi. Publ.; A 57/Statens Geotekniska Institut. SGI Rapport; 35. Göteborg. Sundberg, J., Magnusson, C. & Rydell, B., 1988. Efficient ground heat exchangers for heating and cooling. International conference on energy storage for building heating and cooling, 4, Jigastock 88, Versailles, Oct 1988. Communications/Proceedings, Vol. 1. p 201-204. Sundberg, J. & Ledskog, L., 1989. Markvärmeteknik för uppvärmning samt kombinerad värme och kyla. Små markytor. Byggforskningsrådet. Rapport R33:1989. Stockholm. Magnusson, C., Lehtmets, M., Sundberg, J., Eriksson, L. & Zinko, H., 1990. Tekniskt och ekonomiskt underlag för forsknings- och teknikutvecklingsinsatser vid värmelagring i mark och vatten. Statens Geotekniska Institut. SGI Varia 271. Linköping. Magnusson, C. & Sundberg, J., 1990. Markvärmeteknik. Handledning för planering och projektering. Byggforskningsrådet. T6:1990. Stockholm. Sundberg, J., 1990. Teknikupphandling av värmelager. Inventering av beställare. Slutrapport. Statens Geotekniska Institut. SGI Varia 273. Linköping. Sundberg, J., 1990. Högtemperaturlager i lera. Geoteknik, systemteknik och kostnadskalkyler. Byggforskningsrådet. Rapport R40:1990. Stockholm. Sundberg, J., 1990. Energilager i mark - ett miljövänligt alternativ. Elmia. Energi & miljö 90, Jönköping, april 1990. Session 14: Vad händer inom energiområdet under 90-talet? Bergenståhl, L., Lehtmets, M. & Sundberg, J., 1990. Försöksfält för högtemperaturlagring i lera. Förprojektering. Statens Geotekniska Institut. SGI Varia 278. Linköping. Rydell, B. & Sundberg, J., 1991. Technology and costs for heat storage obstacles and possibilities. THERMASTOCK '91. International conference on thermal energy storage, 5, Sheveningen, The Netherlands, May, 1991. Proceedings (s 1.8-1--5). Sundberg, J., 1991. Termiska egenskaper i jord och berg. Statens Geotekniska Institut. SGI Information 12. Linköping. Jan Sundberg, 1991. Thermal properties of the rocks on Äspö island. Thermal conductivity, heat capacity, geothermal gradient and heat flow. SKB, Äspö hard rock laboratory. Progress report 25-91-09. Jan Sundberg, 1993. Influence on Temperature distribution in boreholes from rock type and water movements. Theoretical study and evaluation of field data. SKB Djupförvar. Arbetsrapport AR 44-93-016. Jan Sundberg, 1995. Termiska egenskaper för kristallint berg i Sverige. Kartor över värmekonduktivitet, värmeflöde och temperatur på 500 m djup. SKB Djupförvar. Projekt rapport PR D-95-018. Sundberg, J., 1997. Metall- och restavfall från hushåll vid SRV återvinning. Naturvårdsverket. Rapport 4780. Stockholm. Sundberg J, 2002. Determination of thermal properties at Äspö HRL. Comparison and evaluation of methods and methodologies for borehole KA 2599 G01. SKB R-02-27, Svensk Kärnbränslehantering AB. Sundberg J, 2003. Thermal site descriptive model. A strategy for the model development during site investigations version 1.0. SKB R-03-10, Svensk Kärnbränslehantering AB. Sundberg J, 2003. Thermal properties at Äspö HRL. Analysis of distribution and scale factors. SKB R- 03-17, Svensk Kärnbränslehantering AB. 6
Sundberg, Jan, Kukkonen, Ilmo & Hälldahl, Lars (2003). Comparison of thermal properties measured by different methods. SKB R-03-18. Svensk Kärnbränslehantering AB. Sundberg J, Back P-E, Hellström G, 2005. Scale Dependence and Estimation of Rock Thermal Conductivity. Analysis of Upscaling, Inverse Thermal Modelling and Value of Information with the Äspö HRL Prototype Repository as an Example. R-05-82 Svensk Kärnbränslehantering AB. Sundberg, J, Back, P-E, Bengtsson, A, Ländell, M, 2005. Oskarshamn site investigation. Thermal modelling of the Simpevarp Area Supporting document for thermal model version 1.2. R-05-24, Geo Innova AB, Svensk Kärnbränslehantering AB, Stockholm. Sundberg J, Back P, Bengtsson A, Ländell M, 2005. Thermal modelling. Preliminary site description Forsmark area version 1.2. SKB R-05-31, Svensk Kärnbränslehantering AB. Sundberg J, Wrafter J, Back P-E, Ländell M, 2006. Thermal modelling, Preliminary site description Laxemar subareas version 1.2. R-06-13, Svensk Kärnbränslehantering AB. Wrafter J, Sundberg J, Ländell M, Back P, 2006. Thermal modelling. Site descriptive modelling. Laxemar 2.1. SKB R-06-84, Svensk Kärnbränslehantering AB. Back P-E, Sundberg J, 2007. Thermal Site Descriptive Model. A Strategy for the Model Development during Site Investigations. Version 2.0. SKB R-07-42, Svensk Kärnbränslehantering AB Sundberg J, Wrafter J, Mossmark, F, Sundberg, A., 2007. Anisotropy of thermal properties in metagranite at Forsmark. Large-scale field measurements and comparison with small-scale field measurements and laboratory measurements. Forsmark site investigation. SKB P-07-194. Swedish Nuclear Fuel and Waste Management Co, Stockholm, Sweden. Back, P-E, Wrafter, J, Sundberg, J, Rosén, L, 2007. Thermal properties. Site descriptive modelling Forsmark - stage 2.2. SKB R-07-42. Svensk kärnbränslehantering AB (SKB) Mossmark, F & Sundberg, J, 2007. Oskarshamn site investigation: field measurements of thermal properties: multi probe measurements in Laxemar. SKB P-07-77. Svensk kärnbränslehantering (SKB) Sundberg, J, Wrafter, J, Ländell, M, Back, P-E, Rosén, L, 2008. Thermal properties Forsmark. Modelling stage 2.3. Complementary analysis and verification of the thermal bedrock model, stage 2.2. SKB R-08-65. Svensk kärnbränslehantering AB (SKB) Sundberg, J, Back, P-E, Christianson R, Ericsson, L, Wrafter, J., 2008. Strategy for determination of thermal properties in crystalline rocks. In: SKB R-08-97. Investigations of potential repository sites for spent nuclear fuel at Forsmark and Laxemar-Simpevarp, Sweden. Abstracts, 33rd International Geologial Congress, Oslo, p. 14, 2008 Sundberg J, Back P-E, Ericsson L O, Wrafter J, 2009. A method for estimation of thermal conductivity and its spatial variability in igneous rocks from in situ density logging. International Journal of Rock Mechanics and Mining Sciences 46 (2009) 1023-1028. Sundberg, J, Hellström, G, 2009. Inverse modelling of thermal conductivity from temperature measurements at the prototype repository, Äspö HRL. International Journal of Rock Mechanics and Mining Sciences 46 (2009) 1029-1041 Sundberg, J, Back, P-E, Christiansson, R, Hökmark, H, Ländell, M, Wrafter, J, 2009. Modelling of thermal rock mass properties at the potential sites of Swedish nuclear waste repository. International Journal of Rock Mechanics and Mining Sciences 46 (2009) 1042-1054. Sundberg, J, Wrafter, J, Back, P-E, Rosén, L, 2009. Thermal properties Laxemar. Site descriptive modelling SDM-site Laxemar. R-08-61. Svensk kärnbränslehantering AB (SKB) 7
Sundberg, J; Back, P-E, Ländell, M, Sundberg, A, 2009. Modelling of temperature in deep boreholes and evaluation of geothermal heat flow at Forsmark and Laxemar. SKB TR-09-14, Svensk Kärnbränslehantering AB Sundberg J & Reinholdsson, J, 2012. Halkfria vägar - Solvärme och värmelagring för miljöanpassad halkbekämpning. (Non-skid winter roads. Solar heat and heat storage for environmentally sound deicing) Trafikverket. Hökmark, H, Lönnqvist, M, Kristensson, O, Sundberg, J, Hellström, G, 2009. Strategy for thermal dimensioning of the final repository for spent nuclear fuel. SKB R-09-04. Svensk Kärnbränslehantering AB Sundberg J & Lidén, P., 2014. Halkfria vägar Fallstudier. Solvärme och värmelagring för miljöanpassad halkbekämpning. (Non-skid winter roads Case studies. Solar heat and heat storage for environmentally sound deicing). Trafikverket. (in preparation) 8