Embed Size (px)
Citation preview
CURRICULUM VITAE (January 2016)
Full name
Brink, Anders Stig
Male
Date of birth, nationality, current residence
22.7.1967 Mariehamn, Finland
Finland
Åbo, Finland
Education and degrees awarded
Doctor of Science, 18.05.1999, Åbo Akademi University, Inorganic chemistry (Combustion and Materials Chemistry)
Licentiate of Technology, 19.12.1995, Åbo Akademi University, Process Design.
Master of Science, 18.2.1992, Åbo Akademi University, Process Design.
Title of docent: Mathematical modeling of biomass combustion, Åbo Akademi University, 1.10.2011 - 30.9.2016.
Linguistic skills
Mother tongue: Swedish
Other languages:
Finnish, Good skills in written and spoken Finnish, official state certificate
English, Good skills, official certificate by Åbo Akademi University
German, A-level studies
Current position
Professor
Research career phase: Established or independent researcher
Previous work experience
Senior lecturer 1/2015 – 9/2015)
Researcher, Åbo Akademi University, Åbo, 1/1998 – 12/2014
Research Associate, Åbo Akademi University, Åbo, 1/94-12/1997
Grant holder, Neste Foundation Scholarship, (location: Åbo Akademi, Åbo) 2/92-12/93
Research Associate, Åbo Akadademi University, Åbo 7-12/1991
Long-term visits abroad: 1. Guest researcher, European Community’s Training and Mobility of Research
Programme (location: International Flame Research Foundation, The Netherlands), 4-6/97
2. Guest researcher, Deutscher Akademischer Austauschdienst (DAAD) and the Academy of Finland (location: Ruhr-Universität Bochum, Germany), 9-10/94.
Research funding as well as leadership and supervision
Major role in planning the scientific part and budgeting of projects as well as in managing the following projects:
Tekes funded: 1. Reaktiiviset virtaukset 1995-97, (VTT, TKK, TTKK, ÅA) 2. Reaktiiviset kaasuvirtaukset, 1998-99 (VTT, TKK, TTKK, ÅA) 3. Aihiokuumennuksen tarkentaminen, 1999-2001 (OY, ÅA) 4. Homogeeniset ja heterogeeniset reaktiot suurten pyörteiden, teollisuuden ja
laboratorion mittakaavassa, 1999-2000 (TTKK, TKK, ÅA) 5. Towards quantitative simulation of practical furnace cases, 2001-02 (VTT, ÅA) 6. Advanced Turbulence Models for Emission Modelling in Gas Combustion, 2005-07
(TTKK, TKK, ÅA) 7. Monifaasikemian käyttö prosessisimuloinnissa, 2005-08, (VTT, OY, TKK, ÅA) 8. Modelling interfacial partitioning in multi-phase systems, 2008-09 (VTT, OY, TKK,
ÅA) 9. Tulevaisuuden dieselpalamistekniikat synteettisille ja uusiutuville polttoaineille,
2009-2011.
Academy of Finland: 1. Systems optimization of manufacturing of biofuels and steel in an integrated site,
2011-2015.
EU-INTERREG: 1. ShipNODep, 2006-07, (FIMR, FIM, UTU, ÅA) 2. Shipping-induced NOx and SOx Emissions - OPerational Monitoring Network, 2009-
2012, (City of Turku, FMI, HSY, UTU, ÅA, Metropolia University of Applied Sciences, Kymenlaakso University of Applied Sciences, Estonian Environmental Research Centre, Tallinn University of Technology)
EU: 1. The European Research Infrastructure for Thermochemical Biomass Conversion,
2011-2015, (KTH+25 project partners) 2. Reliable and Efficient Combustion of Oxygen/Coal/Recycled Flue Gas Mixtures,
2011-2015 (University of Glamorgan+12 project partners)
Supervision:
Supervised doctoral dissertations (secondary supervisor): 1. Vainio, Emil: “Gas composition measurements in industrial boilers and furnaces”,
2014 2. Li, Bingzhi: “Towards CFD simulation of deposition and deposits behavior in
combustion processes”, 2013 3. Karlström, Oskar: “Study of biomass particle conversion”, 2013 4. Lindblom, Johan: “On Experimental Techniques for Testing Flame Retardants in
Polymers”, 2011 (Licentiate thesis) 5. Engblom, Markus: “Modelling and Field Observations of Char bed Processes in
Black Liqour Recovery Boilers”, 2010
Ongoing doctoral dissertations supervision: 1. Meheretu Jalanta, Dirbeda: “Characterization of Industrial Biomass Containing
Byproducts for Thermo-Chemical Conversion”, (secondary supervisor) 2. Paulo Santochi Pereira da Silva: ”CFD-based Kraft recovery NOx model”,
(secondary supervisor)
Supervision of master thesis: 1. Cecilia Haga 2015 2. Paulo Santochi Pereira da Silva 2012 (secondary supervisor) 3. Isak Lindén 2009 (secondary supervisor) 4. Emil Vainio 2009 (secondary supervisor) 5. Oskar Karlström 2008 (secondary supervisor) 6. Petter Sund 2003 (secondary supervisor)
Merits in teaching and pedagogical competence
Lecturing experience, part of following courses: 1992 “Processindustriell energi- och mätteknik”, ÅA 1995-1996 “Förbränningsprocessernas kemi I”, ÅA 1997 “Lämmönsiirron kesäkoulu - 3D mallinnus”, LTKK 1998-2006 “Förbränningsprocessernas kemi II” 2006 “Modelling of Multi Phase Flows”, OY 2007 “CFD and chemical engineering applications in turbulent flow”, TKK 2009-10 “Icke-ideala reaktorsystem, ÅA 2010 “Mixing graduate course”, LTKK 2011 “Engine Spray Combustion Modelling” Aalto 2011 “Förbränningsprocessernas kemi I”, ÅA 2013-15 “Spray Combustion Modelling” Aalto 2015 “Processtekniska vertyg”, ÅA 2015 ” Biofuels (KE-40.6000)”, Aalto 2015 ”Grundkurs i produktionsoptimering”, ÅA 2015 “Apparatteknik II”, Åbo Akademi 2015 ” Processindustrill mätteknik”, ÅA
Supervision of theses:
5 M.Sc. theses, 5 Ph.D. theses
Other academic merits
Opponent of a doctoral dissertation: 1. Ali Shiehnejadhesar: “Improved gas phase CFD simulation of biomass packed bed
Combustion”, TU Graz, Austria, 2015. 2. Tian Li: “Gasification of biomass for second generation biofuel production”, NTNU,
Norway, 2015. 3. Suriyati Binti Saleh: “Torrefaction of biomass for power production”, DTU, Lyngby,
Denmark, 2014. 4. Linda Skaare Nørskov: “Combustion of Solid Alternative Fuels in Cement Kiln Burners”,
DTU, Lyngby, Denmark, 2012. 5. Bjørn Lilleberg: ”On Mathematical Modeling and Numerical Simulation of Chemical
Kinetics in Turbulent Premixed Combustions”, NTNU, Trondheim, Norway, 2011
Member in dissertation committees (abroad): 1. Elisabeth Wetterlund, Linköpings Universitet, Sweden, 2012 2. Fredrik Norrmann, Chalmers, Sweden, 2010
Discussion leader licentiate seminar 1. Thomas Ekwall, Chalmers, Sweden, 2014 2. Daniel Fleig, Chalmers, Sweden, 2011
Memberships and positions of trust in scientific and scholarly societies: 1. Vice member representing Finland in the Managing Committee of the COST Action
COST0901 “Detailed Chemical Kinetic Models for Cleaner Combustion”, 2010-2014 2. Board member Scandinavian-Nordic Section of the Combustion Institute, 2008- 3. Board member of the Finnish Flame Research Committee, 2008-2009, 2015- 4. Grant application assessment for the Research Council of Norway 2014 5. Scientific assessment candidate for title of docent at Chalmers University of
Technology 2015
Referee for scientific and scholarly journals (typically a total of 6 reviews per year in total): 1. Combustion and Flame 2. Energy & Fuels 3. Industrial & Engineering Chemistry Research 4. Energy 5. Fuel Processing Technology 6. Energy Conversion and Management 7. Fuel 8. Proceedings of the Combustion Institute 9. Aerosol and Air Quality Research 10. Journal of Pulp and Paper Science 11. Process Journal of Environmental Management 12. Combustion Science and Technology
Scientific positions of trust and administration
Conference organization 1. Scientific committee member, “12th International Conference on Energy for a Clean
Environment”, Lisbon, Portugal 2015 2. Local organizing committee member, “22nd International FBC Conference”, Åbo, 2015 3. Organizing committee member, “Impacts of Fuel Quality on Power Production and
the Environment”, Saariselkä, 2010 4. Scientific committee “Swedish-Finnish Flame Days”, Piteå, 2010 5. Organizing committee member, “Finnish-Swedish Flame Days”, Naantali, 2008 6. Organizing committee member, “4th Biennial Meeting of the Scandinavian-Nordic
Section of the Combustion Institute”, Åbo, 2007
Board member 1. Board member of the Finnish Flame Research Committee, 2015-
2. Vice member representing Finland in the Managing Committee of the COST Action
COST0901 “Detailed Chemical Kinetic Models for Cleaner Combustion”, 2010-2014
3. Board member Scandinavian-Nordic Section of the Combustion Institute, 2008-
4. Board member of the Finnish Flame Research Committee, 2008-2009
Scientific and societal impact of research
51 peer review journal papers, 7 peer review conference papers + more than 90 other scientific papers Most cited publication according to ScienceFinder (June 2015): 1. Possibilities and limitations of the Eddy Break-Up Model, Brink, A.; Mueller, C.;
Kilpinen, P.; Hupa, M., Combustion and Flame (2000), 123(1/2), 275-279. 2. A modelling system for the exhaust emissions of marine traffic and its application in
the Baltic Sea area, Jalkanen, J.-P.; Brink, A.; Kalli, J.; Pettersson, H.; Kukkonen, J.; Stipa, T. ,Atmospheric Chemistry and Physics (2009), 9(23), 9209-9223
3. A simplified kinetic rate expression for describing the oxidation of volatile fuel nitrogen in biomass combustion, Brink, Anders; Kilpinen, Pia; Hupa, Mikko, Energy & Fuels (2001), 15(5), 1094-1099
4. Modeling of oxy-natural gas combustion chemistry, Brink, Anders; Hupa, Mikko; Breussin, Frederic; Lallemant, Nicolas; Weber, Roman, Journal of Propulsion and Power (2000), 16(4), 609-614
5. The fate of chlorine, sulfur, and potassium during co-combustion of bark, sludge, and solid recovered fuel in an industrial scale BFB boiler, Vainio, Emil; Yrjas, Patrik; Zevenhoven, Maria; Brink, Anders; Lauren, Tor; Hupa, Mikko; Kajolinna, Tuula; Vesala, Hannu, Fuel Processing Technology (2013), 105, 59-68.
6. CFD modeling to study fluidized bed combustion and gasification, Singh, Ravi Inder; Brink, Anders; Hupa, Mikko, Applied Thermal Engineering (2013), 52(2), 585-614.
7. Influence of Water Vapor on Carbonation of CaO in the Temperature Range 400-550°C, Linden, Isak; Backman, Peter; Brink, Anders; Hupa, Mikko, Industrial & Engineering Chemistry Research (2011), 50(24), 14115-14120.
8. Study of alternative descriptions of methane oxidation for CFD modeling of turbulent combustors, Brink, A.; Kilpinen, P.; Hupa, M.; Kjäldman, L., Combustion Science and Technology (1999), 141(1-6), 59-81
9. The joint problem of model structure determination and parameter estimation in quantitative IR spectroscopy, Brink, Anders; Westerlund, Tapio, Chemometrics and Intelligent Laboratory Systems (1995), 29(1), 29-36.
10. Evaluation of SO3 Measurement Techniques in Air and Oxy-Fuel Combustion, Fleig, Daniel; Vainio, Emil; Andersson, Klas; Brink, Anders; Johnsson, Filip; Hupa, Mikko, Energy & Fuels (2012), 26(9), 5537-5549.
List of publications Anders Brink, 21.6.2015
Peer-reviewed scientific articles Peer-reviewed scientific articles: Journal articles
1. Brink A., Lindberg, D., Hupa, M., Escoto de Tejada, M., Paneru, M., Maier, J., Scheffknecht, G., Pranzitelli, A., Pourkashanian, M., “A temperature-history based model for the sticking probability of impacting pulverized coal ash particles”, Fuel Processing Technology 141, 210-2015, 2016
2. Engblom, M., Vainio, E., Brink, A., Hupa, A., Välimäki, E., Heikkilä, V.-P., Understanding the Formation of NOx in Pulp Mill Boilers, The Journal of Science and Technology for Forest Products and Processing, accepted for publication.
3. Vainio, V., Laurén, T., DeMartini, N., Brink, N., Hupa, M., “Understanding Low-Temperature corrosion in Recovery Boilers: Risk of Sulphuric Acid Dew Point Corrosion?”, The Journal of Science and Technology for Forest Products and Processing 4(6), 14-22. 2015.
4. Karlström, O., Costa, M., Brink., A, Hupa, M., “Combustion and CO2 gasification rates of char particles from torrefied pine shell, olive stones and straw”, Fuel 158, 753-763, 2015
5. Kangas, P., Koukkari, P., Brink, A., Hupa, M., ”Feasibility of Constrained Free Energy Method for Modeling NO Formation in Combustion”, Chemical Engineering and Technology, 38(7), 1173-118, 2015.
6. Vähä-Savo, N., DeMartini, N, Engblom, M., Brink, A., Hupa, M., “The Fate of Char Nitrogen in Black Liquor Combustion—Cyanate Formation and Decomposition”, Industrial & Engineering Chemistry Research 54(11), 2831-2842, 2015
7. Perander, M., DeMartini, N., Brink, A., Kram, J., Karlström, O., Hemming., J., Moilanen, A., Konttinen, J., Hupa, M., ”Catalytic effect of Ca and K on CO2 gasification of spruce wood char”, Fuel, 150, 464-472, 2015
8. Karlström, O., Brink., A, Hupa, M., “Desorption kinetics of CO in char oxidation and gasification in O2, CO2 and H2O”, Combustion and Flame, 162 (3), 788-796 2015
9. Houshfar, E., Wang, L, Vähä-Savo, N., Brink, A., Løvås, T., “Characterisation of CO/NO/SO2 emission and ash-forming elements from the combustion and pyrolysis process”, Clean Technologies and Environmental Policy, 16 (7), 1339-1351, 2014.
10. Houshfar, E., Wang, L, Vähä-Savo, N., Brink, A., Løvås, T., “Experimental Study of a Single Particle Reactor at Combustion and Pyrolysis Conditions”, CHEMICAL ENGINEERIING TRANSACTIONS, 35, 613-618, 2013.
11. Karlström, O., Brink., A, Hupa, M., “Biomass Char Nitrogen Oxidation—Single Particle Model”, Energy Fuels 27 (3), 1410–1418, 2013.
12. Vainio, E., Fleig, D., Brink, A., Andersson, K., Johnsson, F., Hupa, M., “Experimental Evaluation and Field Application of a Salt Method for SO3 Measurement in Flue Gases” Energy Fuels 27 (5), pp 2767–2775, 2013.
13. Singh, R., Brink, A., Hupa, M., “CFD modeling to study fluidized bed combustion and gasification”, Applied Thermal Engineering 52, 585-614, 2013
14. Karlström, O., Brink., A, Hupa, M., “Time dependent production of NO from combustion of large biomass char particles”, Fuel 103, 524–532, 2013.
15. Nowak, B., Karlström, O., Backman, P., Brink, A., Zevenhoven, M., Voglsam, S., Winter, F., Hupa, M., “Mass transfer limitation in thermogravimetry of biomass gasification”, Journal of thermal analysis and calorimetry, 111, 183–192 2013.
16. Vainio, E., Yrjas, P., Zevenhoven, M., Brink, A., Laurén, T., Hupa, M., Kajolinna, T., and Vesala, H, “The fate of chlorine, sulfur, and potassium during co-combustion of bark, sludge, and solid recovered fuel in an industrial scale BFB boiler, Fuel Processing Technology”, 2013.
17. Li, B., Brink, A., Hupa, M., “CFD investigation of slagging on a super-heater tube in a kraft recovery boiler”, Fuel Processing Technology 2013.
18. Engblom M., Miikkulainen, P., Brink, A., Hupa, M., “CFD-modeling for more precise operation of the kraft recovery boiler”, Tappi Journal 11:111, 19-27, 2012.
19. Li,B., Engblom, M, Lindberg, D., Brink, A., Hupa, M., Koschack, R., Mueller, C., “Numerical investigatiton of Kraft recovery furnace wall temperature”, Journal of Science & Technology for Forest Products and Processes 2:5 41-48, 2012.
20. Engblom M., Brink, A., Mueller, C., Hupa, M., and Jones, A., “Influence of reactions in the boundary layer on kraft char-bed burning”, Journal of Science & Technology for Forest Products and Processes: Volume 2(1), 32-42, 2012.
21. Karlström, O., Brink., A, Biagini, E., Hupa, M., Tognotti, L., “Comparing reaction orders of anthracite chars with bituminous coal chars at high temperature oxidation conditions”, Proceedings of the Combustion Institute, 2012.
22. Fleig, D., Vainio, E., Andersson, K., Brink, A., Johnsson, F., Hupa, M., “Evaluation of SO3 Measurement Techniques in Air and Oxy-Fuel Combustion”, Energy & Fuels 26 (9), 5537–5549, 2012.
23. Suominen, P., Brink, A., Salmi, T., “Parameter Estimation of Complex Chemical Kinetics with Covariance Matrix Adaptation Evolution Strategy”, MATCH Commun. Math. Comput. Chem. Volume 68(2), 469-476, 2012.
24. Jalkanen, J.-P., Johansson, L., Kukkonen, J., Brink, A., Kalli, J., and Stipa T., “Extension of an assessment model of ship traffic exhaust emissions for particulate matter and carbon monoxide”, Atmos. Chem. Phys., 12, 2641–2659, 2012.
25. Karlström, O., Brink., A, Hercog, J., Hupa, M., Tognotti, L., “One-parameter model for the oxidation of pulverized bituminous coal chars”, Energy Fuels, 26, 968-975, 2012.
26. Vainio, E., Brink, A., Hupa, M., Kajolinna, T., and Vesala, H., “Fate of fuel nitrogen in the furnace of an industrial bubbling fluidized bed boiler during combustion of biomass fuel mixtures”, Energy Fuels, 26(1), 94-101, 2012.
27. Lindholm, J., Brink, A., Willén, C.-E., and Hupa, M., “Cone Calorimeter Study of Inorganic Salts as Flame Retardants in Polyurethane Adhesive with Limestone Filler”, Journal of Applied Polymer Science, 123,(3), 1793–1800, 2012.
28. Lindholm, J., Brink, A., and Hupa, M., “Influence of decreased sample size on cone calorimeter results”, Fire Mater., 36, 63-73, 2012.
29. Lindén, I., Backman, P., Brink, A., Hupa, M., ”Influence of water vapor on CO2 capture using lime”, Industrial & Engineering Chemistry Research, 50 (24), 14115–14120, 2011.
30. Karlström, O., Brink, A., Hupa, M, Tognotti, L., "Multivariable optimization of reaction order and kinetic parameters for high temperature oxidation of ten bituminous coal chars", Combust. Flame, 158, 2056-2063, 2011.
31. Vainio, E., Brink, A., DeMartini, N., Hupa, M., Vesala, H., Tormonen, K., Kajolinna, T. “In-furnace Measurement of Sulphur and Nitrogen Species in a Recovery Boiler”, JPPS, 3-4, 2010.
32. Brink, A., Laurén, T., Hupa, M., Koschack, R., and Mueller, C., “In-furnace temperature and heat flux mapping in a kraft recovery boiler”, Tappi Journal., 9(7), 7-11, 2010.
33. Engblom M., Bergroth, N., Mueller, C., Jones, A., Brink, A., and Hupa, M., “CFD-based modeling of kraft char beds – part 2: a study on the effects of droplet size and bed shape on bed processes”, Tappi Journal., 9(2), 15-20, 2010.
34. Zieba, M., Brink, A., Schuster, A., Hupa, M., and Scheffknecht, G., “Ammonia chemistry in a flameless jet”, Combustion and Flame, 156(20), 1950-1956, 2009.
35. Jalkanen, J.-P., Brink, A., Kalli, J., Pettersson, H., Kukkonen, J., and Stipa, T., “A modelling system for the exhaust emissions of marine traffic and its application in the Baltic Sea area”, Atmos. Chem. Phys., 9, 9209–9223, 2009.
36. Li, Bingzhi; Brink, Anders; Hupa, Mikko. “Simplified Model for Determining Local Heat Flux Boundary Conditions for Slagging Wall”, Energy & Fuels, 23, 3418-3422, 2009.
37. Brink, A., Li, B., and Hupa, M., “CFD investigation of deposition in a heat recovery boiler: Part I - a dual layer particle conversion model”, Progress in Computational Fluid Dynamics, 9(8), 447-452, 2009
38. Li, B., Brink, A., and Hupa, M., “CFD investigation of deposition in a heat recovery boiler: Part II - deposit growth modeling”, Progress in Computational Fluid Dynamics, 9(8), 453-459, 2009.
39. Brink, A., Engblom, M., and Hupa, M., “Nitrogen oxide emission formation in a black liquor boiler”, Tappi Journal 7(11), 28-32, 2008.
40. Engblom, M., Mueller, C., Brink, A., Hupa, M., and Jones, A., “Toward predicting the char bed shape in kraft recovery boilers”, Tappi Journal, 7(10), 12-16, 2008.
41. Brink, A., Lauren, T., Yrjas, P., Hupa, M., and Friesenbichler, J., “Development and evaluation of a long-term deposit probe for on-line monitoring of deposit growth”, Fuel Processing Technology , 88(11-12), 1129-1135, 2007.
42. Brink, A., Hupa, M., Kurkela, E., Suomalainen, M., “Nitric oxide yield from combustion of a low calorific gasification product gas: numerical and experimental study”, Progress in Computational Fluid Dynamics, 6(4/5), 217-224, 2006.
43. Mueller, C., Brink, A., Kilpinen, P., Hupa, M., and Kremer, H., “Modeling of an Industrial Scale Gas-Burner Using Finite-Rate Chemistry - Options and Restrictions Resulting from Eddy-Break Up Based Models”, Clean Air, Vol. 3, pp 145-163, 2002.
44. Brink, A., Boström, S., Kilpinen P., and Hupa, M., “Modelling Nitrogen Chemistry in the Freeboard of Biomass-FBC”, The IFRF Combustion Journal, ISSN 1562-479X, Article Number 200107, September 2001, http://www.journal.ifrf.net/200107brink.html. (Also presented at the IFRF 13th MC, 2001)
45. Brink A., Kilpinen P., Hupa M., “A Simplified Kinetic Rate Expression for Describing the Oxidation of Volatile Fuel-N in Biomass Combustion”, Energy & Fuels, 15 (2001) 5, 2001.
46. Brink, A., Mueller, C., Kilpinen, P., and Hupa, M., "Possibilities and Limitations of the Eddy Break-Up Model", Combustion and Flame Vol. 123, pp 275-279, 2000.
47. Norström, T., Kilpinen, P., Brink, A., Vakkilainen, E., and Hupa, M., “Comparison of the Validity of Different Simplified NH3-Oxidation Mechanisms for Combustion of Biomass”, Energy&Fuels, Vol. 14, No. 5, pp. 947-952, 2000.
48. Kjäldman, L, Brink, A., and Hupa, M., "Micro Mixing Time in the Eddy Dissipation Concept", Combustion Science and Technology, Vo. 154, pp. 207-227, 2000.
49. Brink, A., Hupa, M., Breussin, F., Lallemant, N., and Weber, R., “Modeling of Oxy-Natural Gas Combustion Chemistry”, Journal of Propulsion and Power, Vol. 16, No. 4 pp. 609-614, 2000.
50. Brink, A., Kilpinen, P., Hupa, M., Kjäldman, L. "Study of Alternative Descriptions of Methane Oxidation for CFD Modeling of Turbulent Combustors", Combustion Science and Technology, 1999, Vol 141, pp. 59-81.
51. Brink A. and Westerlund T., "The Joint Problem of Model Structure Determination and Parameter Estimation in Quantitative IR-Spectroscopy", Intel. Lab. and Chem., 29-36, 1995.
Peer-reviewed scientific articles: Conference proceedings
52. Brink, A., Inder Singh, R., Karlström, O., Koschack R. and Hupa M., “Biomass Conversion in Bubbling Fluidized Beds - CFD Modeling and Field Measurements”, 21st International Conference on Fluidized Bed Combustion (21FBC), Naples, Italy, 3-6.6 2012.
53. Vainio, E., Brink, A., Hupa, M., Vesala, H., and Kajolinna T., “Fuel Nitrogen Reactions in a Biomass Fired FBC - Measurements and Kinetic Simulations”, 21st International Conference on Fluidized Bed Combustion (21FBC), Naples, Italy, 3-6.6 2012.
54. Kaario, O, Brink, A., Wehrfritz, A., Larmi, M., “Analyzing Local Combustion Environment with a Flamelet Model and Detailed Chemistry”, SAE 2011 World Congress & Exhibition, Detroit, Michigan, 24-26.4, 2012., DOI: 10.4271/2012-01-0150.
55. Kaario, O, Brink, A., Lehto, K., Keskinen, K., Larmi, M., “Studying Local Conditions in a Heavy-Duty Diesel Engine by Creating Phi-T Maps”, SAE 2011 World Congress & Exhibition, Detroit, Michigan, 12-14.4, 2011, DOI: 10.4271/2011-01-0819.
56. Brink, A, Karlström, O, Hupa, M, “A simplified model for the behavior of large biomass particles in the splashing zone of a bubbling bed”, 20th International Conference on Fluidized Bed Combustion, 18-20.5, Xi’an, China, 2009.
57. Brink, A., Mueller, C., and Hupa, M., “A modified approach for predicting NOx emission trends from biomass fired bubbling fluidized bed boilers”, 19th FBC Conference, 21-24 May, Vienna, Austria, 2006.
58. Mueller, C., Brink, A., and Hupa, M., “Analysis of Combustion Processes using Computational Fluid Dynamics – a tool and its applications”, ESCAPE 13, 1-4 June, Lappeenranta 2003.
Non-refereed scientific articles
Non-refereed scientific articles: Non-refereed journal article
1. J.-P. Jalkanen, L. Johansson, J. Kukkonen, A. Brink, J. Kalli, and T. Stipa, ” Extension of an assessment model of ship traffic exhaust emissions for particulate matter and carbon monoxide”, Atmos. Chem. Phys. Discuss., 11, 22129-22172, 2011, doi:10.5194/acpd-11-22129-2011.
Non-refereed scientific articles: Book section
2. Hupa, M., Engblom, M, and Brink, A., “How well do we understand recovery boiler process”, 45th Anniversary International Recovery Boiler Conference, 3-5.6, Lahti, Finland. 2009.
3. Westerlund T., Karrila S., Mäkilä P.M. and Brink A., "Techniques in the Maximum Likelihood Estimation of the Covariance Matrix", In the series "Control and Dynamic Systems" Volume: "Digital Design and Control System Techniques and Applications", C.T. Leondes (Editor), ACADEMIC PRESS, INC.
Non-refereed scientific articles: non-refereed conference proceedings
4. Dirbeba, M., Brink, A., DeMartini, N., Hupa, M., Vinasse Char CO2 Gasification Kinetics, Nordic Flame Days 2015, 6th – 7th of October in Copenhagen, Denmark.
5. Karlström, O., Brink, A., Hupa, M., Char combustion of biomass in mixtures of O2, CO2, H2O and N2, Nordic Flame Days 2015, 6th – 7th of October in Copenhagen, Denmark.
6. da Silva, P., DeMartini, N., Engblom, M., Brink, A., Tomani, O., Åkerlund, L.-E., Hupa., M., Split of carbon and nitrogen between volatiles and char in reduced lignin black liquor, Nordic Flame Days 2015, 6th – 7th of October in Copenhagen, Denmark.
7. Prestipino , M., Galvagno, A., Bonaccorsi, L., Karlström, O., Brink, A., Zimbardi, F., A kinetic study of steam gasification of char from olive solid wastes and residues from 2nd generation bioethanol production, Nordic Flame Days 2015, 6th – 7th of October in Copenhagen, Denmark.
8. Karlström, O., Perander, M., Brink, A., DeMartini, N., Gasification Rate of Biomass – Influence of Experimental Conditions, CLEAN AIR 2015 - 12TH INTERNATIONAL CONFERENCE ON ENERGY FOR A CLEAN ENVIRONMENT, 5.-9.7 2015, Lisbon, Portugal.
9. Vainio, E., Kinnunen, H., Laurén, T., Brink, A., Yrjas, P., DeMartini, N., Hupa, M., Low Temperature Corrosion in Co-Combustion of Biomass and Solid Recovered Fuels, CLEAN
AIR 2015 - 12TH INTERNATIONAL CONFERENCE ON ENERGY FOR A CLEAN ENVIRONMENT, 5.-9.7 2015, Lisbon, Portugal.
10. de Jong, W., Engvall, K., Retschitzegger, S., Brink, A., Biollaz, S., Martin, A., BRISK: Development of advance measurement methods and operational procedures in thermo-chemical biomass conversion, 18th IFRF Members Conference, 2-4.6 2015. Freissingen, Germany.
11. Karlström, O., Brink, A., Corraggio, G., Hupa M., Tognotti, L., Air-fired and oxy-fired combustion: rate of char oxidation by O2, CO2 and H2O, 18th IFRF Members Conference, 2-4.6 2015, Freissingen, Germany
12. Brink, A., Lindberg, D., Hupa, M., Escoto de Tejada, M., Manoj Paneru, Maier, J., Scheffknecht, G., Pranzitelli, A., Pourkashanian, M., “Predicting deposit build-up in oxy-fuel and air fired pulverized coal combustion”, Impacts of Fuel Quality on Power Production, 26-31.10, 2014 in Snowbird, Utah, USA.
13. Kangas, P., Brink, A., Koukkari, P., and Hupa, M., “Applications of constrained Gibbs' free energy method for modelling the super-equilibria in thermal biomass conversion – Feasibility for NOx estimation”, 21st International Congress of Chemical and Process Engineering CHISA 2014 Prague, 23-27 August 2014 Prague, Czech Republic
14. Engblom, M., Vainio, E., Brink, A., Hupa, M., Välimäki, E., Heikkilä, V.-P., “Understanding the Formation of NOx in Pulp Mill Boilers”, 2014 International Chemical Recovery Conference (ICRC), 8-13.6 2014, Tampere, Finland.
15. Vähä-Savo, N., DeMartini, N., Engblom, M., Brink, A., Hupa, M., “The Fate of Char N in Black Liquor Combustion - Cyanate Formation and Decomposition”, 2014 International Chemical Recovery Conference (ICRC), 8-13.6 2014,Tampere, Finland.
16. Vainio, E., Laurén, T., DeMartini, N., Brink, A., Hupa, M., “Sulfuric Acid Induced Low Temperature Corrosion in Recovery Boilers”, 2014 International Chemical Recovery Conference (ICRC), 8-13.6 2014, Tampere, Finland.
17. Hercog, J., Bocian, P., Marek, E., Coraggio, G., Bonvicini, G., Karlström, O., Brink, A., “Comprehensive coal combustion characterisation under oxy-fuel conditions”, 3rd Oxyfuel Combustion Conference (OCC3), 9-13.9, 2013, Ponferrada, Spain
18. Brink, A., Werkelin,J., Wang, L., Houshfar, E., Løvås, T., Hupa, M., “Release of ash-forming elements from biomass during oxidation and pyrolysis”, Finnish-Swedish Flame Days, 17- 18 .4 2013, Jyväskylä, Finland
19. Vainio, E., Brink, A., Hupa, M., Kajolinna, T., Vesala, H., “Simulation of the reduction of nitrogen species in air jets”, Finnish-Swedish Flame Days, 17- 18 .4 2013, Jyväskylä, Finland
20. Karlström, O., Perander, M., DeMartini, N., Brink, A., Hupa M., “Gasification of biomass char particles”, Finnish-Swedish Flame Days, 17- 18 .4 2013, Jyväskylä, Finland
21. Lindholm, J., Brink, A., Wilén, C-E., Hupa, M., “Inorganic Salts as Flame Retardants in Polyurethane Adhesive with Limestone Filler”, 8th Topical Meeting of the Scandinavian-Nordic Sections of the Combustion Institute Bergen, 1-2.11 2012.
22. Vanio, E., Brink, A., Hupa, M., Fleig, D., Andersson, K. and Johnsson, F., “SO3 measurement techniques – a study in a 100 kWth test unit fired with a SO2‐doped propane flame” 17th International IFRF Member Conference, Maffliers, France, 11-13 June 2012.
23. Karlström, O., Brink, A., Hupa, M., ”Nitrogen oxide formation of biomass pellets – Single particle experiments and modeling”, 17th International IFRF Member Conference, Maffliers, France, 11-13 June 2012.
24. Brink, A., Santochi Pereira de Silva, P., Hupa M., “Phi-T maps of nitrogen chemistry in diesel engines with exhaust gas recirculation”, General Section Meeting of the Scandinavian-Nordic Section of the Combustion Institute, Trondheim, Norway, 28-29.11 2011.
25. Vainio, E., Brink, A., Hupa, M., “Measurement of nitrogen species in the furnace of an industrial combustor burning biomass”, General Section Meeting of the Scandinavian-Nordic Section of the Combustion Institute, Trondheim, Norway, 28-29.11 2011.
26. Engblom, M., Miikkulainen, P., Brink, A., Hupa, M., ” CFD-modeling For More Precise Operation of the Kraft Recovery Boiler”, TAPPI PEERS Conference, Portland, Oregon, 2-5.10, 2011
27. Suomalainen, P., Brink, A., Salmi, T., ”A reduced reaction mechanism for light hydrocarbon thermal reactions – estimation of kinetic parameters, Cleaner Combustion 2011, CM0901 – 2nd Annual Meeting, Zaragoza, Spain 7-9.9, 2011.
28. Karlström, O., Brink, A., Hupa, M., "Influence of change in the external surface area on combustion rates of biomass pellets", Europeran Combustion Meeting, Cardiff, 2011
29. Brink, A., Koschack, R., Laurén, T., Hupa, M., ” Measurements of gas and surface temperatures in an industrial bubbling fluidized bed boiler firing moist bark” INFUB 9, Portugal, 2011
30. Vainio, E., Brink, A., Yrjas, P., Hupa, M., Kajolinna, T., Vesala, H., “In-furnace measurements of gaseous species in a 107 MWth BFB boiler”, Infub 9, Portugal, 2011
31. Kaario, O., Brink, A., Lehto, K., Keskinen, K., Larmi, M.,”Studying Equivalence ratio ‐ Temperature Maps in a Heavy Duty Diesel Engine”, Swedish-Finnish Flame Days, 26-27.1, Piteå, Sweden, 2011
32. Karlström, O., Brink, A., Hupa, M.,” Modeling of black liquor conversion ‐ overlapping of drying, devolatization and char gasification” Swedish-Finnish Flame Days, 26-27.1, Piteå, Sweden, 2011
33. Lindén, I., Aho, A., DeMartini, N., Brink, A., Murzin, D., Hupa, M., Mikkola, J-P., “Pyrolysis of Lignin in a Laboratory Fluidized Bed”, Swedish-Finnish Flame Days, 26-27.1, Piteå, Sweden, 2011
34. Brink, A., O. Kaario, O., Larmi, M., and Hupa, M., “Kinetic simulations - a tool for studying the influence of exhaust gas recirculation on soot”, 1st COST 0901 1st Annual Meeting, 15-17.9,Nancy-France, 2010.
35. Brink, A., Laurén, T., Hupa, M., Koschack, R., and Mueller, C., “In-furnace temperature and heat flux mapping in a kraft recovery boiler”, 2010 International Chemical Recovery Conference, 29.3-1.4, Williamsburg, VA, 2010.
36. Vainio, E., Brink, A., DeMartini, N., Hupa, M., Vesala, H., Tormonen, K., Kajolinna, T., “In-furnace measurement of sulfur and nitrogen species in a recovery boiler”, 2010 International Chemical Recovery Conference, 29.3-1.4, Williamsburg, VA, 2010.
37. Engblom, M, Brink, A., Rönnqvist, A., Mueller, C., Jones, A., Hupa, M., “Recovery Boiler Char Bed Dynamics – Measurements and Modeling”, 2010 International Chemical Recovery Conference, 29.3-1.4, Williamsburg, VA, 2010.
38. Vainio, E., Yrjas, P., Zevenhoven, M., Brink, A., Laurén, T., Hupa, M., Kajolinna, T., and Vesala, H., “The fate of chlorine, sulfur, and potassium during co-combustion of bark, sludge, and REF in a 107 MWth BFB boiler”, Impacts of Fuel Quality on Power Production and the Environment, 29.8 - 3.9, Saariselkä, Finland, 2010.
39. Li, B., Brink, A., and Hupa, M., “CFD investigation of slagging on a super-heater tube in a kraft recovery boiler”, Impacts of Fuel Quality on Power Production and the Environment, 29.8 - 3.9, Saariselkä, Finland, 2010.
40. Stipa, T., Jalkanen, J.-P., Hongisto, M., Kalli, J., and Brink, A., “Emissions of NOx and SOx from Baltic shipping and estimates of their effects on air quality and eutrophication in the Baltic Sea”, Pre-CAS Technical Conference on "Environmental Prediction in the Next Decade: Weather, Climate, Water and the Air We Breathe", 16-17.11, Incheon, Republic of Korea, 2009.
41. Karlström, O., Brink, A., Hupa, M., and, Tognotti, L. “Modeling the combustion of coal chars in a drop tube using constant activation energy”, Joint Meeting of the Scandinavian-Nordic and French Sections of the Combustion Institute, 9-10.11, Snekkersten, Denmark, 2009.
42. Vainio, E., Brink, A., Vesala, H., Tormonen, K., and Hupa, M., ”Extractive determination of the flue gas composition in a recovery boiler furnace”, , Joint Meeting of the Scandinavian-Nordic and French Sections of the Combustion Institute, 9-10.11, Snekkersten, Denmark, 2009.
43. Karlström, O., Brink, A., Hercog, J., Hupa, M., and, Tognotti, L., “Kinetic combustion parameters for chars using the IFRF solid fuel data base”, 16th International IFRF Members' Conference, 8-10.6, Boston, MA, USA, 2009.
44. Hupa, M., Engblom, M, and Brink, A., “How well do we understand recovery boiler process”, 45th Anniversary International Recovery Boiler Conference, 3-5.6, Lahti, Finland. 2009.
45. Engblom, M, Brink, A., Mueller, C., and Hupa, ”Modeling of reactive boundary layers in Kraft Char bed burning”, Finnish-Swedish Flame Days, 28-29.1 Naantali, Finland, 2009.
46. Lindholm, J., Brink, A., and Hupa, M., “Cone Calorimeter – A Tool for Measuring Heat Release Rate”, Finnish-Swedish Flame Days, 28-29.1 Naantali, Finland, 2009.
47. Li, B., Brink, A., and Hupa, “CFD analysis of an uptake shaft with slagging walls – the slag model”, Finnish-Swedish Flame Days, 28-29.1 Naantali, Finland, 2009.
48. Engblom, M, Brink, A., Mueller, C., and Hupa, M,m ”CFD modellering av sodapannor vid Åbo Akademi”, Sodahuskonferensen 2008, 13.11, Stockholm, Sweden, 2008.
49. Lindholm, J., Brink, A., and Hupa, M., “Cone Calorimeter – A Tool for Measuring Heat Release Rate”, Topical Meeting on Measuring Techniques in Combustion, 23-24.10, Gothenburg, Sweden, 2008.
50. Karlström, O., Brink, A., and Hupa, M., “Analyzing Fuel Properties by Single Particle Furnace – Combination of Modeling and Measurements”, Topical Meeting on Measuring Techniques in Combustion, 23-24.10, Gothenburg, Sweden, 2008.
51. Li, B., Brink, A., and Hupa, M., “A Model for Calculating Heat Transfer Through a Slagging Wall”, Impact of Fuel Quality on Power Production & Environment, 29.9-3.10, Banff, Canada, 2008.
52. Lundberg, M., Niemi, P., Maîtrejean, L., Yrjas, P., Laurén, T., Brink,A., and. Hupa, M., “Effect of Ammonia Injection on Black Liquor Recovery Boiler NOx Emissions and Ash Chemistry”, 2008 Engineering, Pulping and Environmental Conference, 24-27.8, Portland, Oregon, USA, 2008.
53. Engblom, M., Brink, A. and Hupa, M., “CFD based modeling of laboratory scale kraft char bed burning”, 25-28.3, Vilamoura, Portugal, 2008.
54. Brink, A., Saario, A., Oksanen. A., and Hupa, M., “Influence of uncertainties in temperature predictions on the NOx reduction efficiency - a CFD based sensitivity study”, 25-28.3, Vilamoura, Portugal, 2008.
55. Lindholm, J., Brink, A., Hupa, M., Aubert, M., and Wilén,C.-E., “Reproducibility of the UL 94 flammability test of flame retarded polypropylene samples”, 4th Biennal meeting of the Scandinavian-Nordic Combustion Institute, 5.-6.11, Turku, Finland, 2007.
56. Hermansson, S., Brink, A., and Thunman, H., “Channelling in fixed-bed combustion due to structural bed dynamics”, 4th Biennal meeting of the Scandinavian-Nordic Combustion Institute, 5.-6.11, Turku, Finland, 2007.
57. Markus Engblom and Anders Brink, Influence of Stefan flow and boundary layer reactions on surface reaction rate, 4th Biennal meeting of the Scandinavian-Nordic Combustion Institute, 5.-6.11, Turku, Finland, 2007.
58. Strandström, K., Brink, A., Hupa, M., Järvinen M., and Fogelholm, C.-J., “Identification of critical parameters for black liquor droplet modelling”, 4th Biennal meeting of the Scandinavian-Nordic Combustion Institute, 5.-6.11, Turku, Finland, 2007.
59. Strandström, K., Brink, A., Hupa, M., Järvinen, M., and Fogelholm, C.-J., “Comparison of two black liquor droplet models – identification of critical modeling parameters”, Interantional Flame Reasearch Foundation TOTeM 30, 25-26.10, Waikoloa, USA, 2007.
60. Hermansson, S., Brink, A., and Thunman, H., “Structural collapses and inhomogeneous flow conditions in fixed-bed combustion”, American - Japanese Flame Research Committees International Symposium, 21-24.10, Waikoloa, USA, 2007.
61. Brink, A., Karlström, O., Hupa, M., Järvinen, M., and Fogelholm, C.-J., “Modeling combustion of large biomass particles”, American - Japanese Flame Research Committees International Symposium, 21-24.10, Waikoloa, USA, 2007.
62. Brink, A., Li, B., and Hupa, M., “A particle model for investigation of deposits in a heat recovery boiler”, American - Japanese Flame Research Committees International Symposium, 21-24.10, Waikoloa, USA, 2007.
63. Brink, A. and Hupa, M., “Time dependent CFD modeling of heat recovery boiler fouling by solid dust particles”, IFRF 15th Members Conference, 13-15.6, Pisa, Italy, 2007.
64. Li, B., Brink, A., Engblom, M., Mueller, C., Hupa, M., Kankkunen, A., Miikkulainen, P., and Fogelholm, C.-J.,“Spray Models for CFD of Black Liquor Recovery Furnaces”, IFRF 15th Members Conference, 13-15.6, Pisa, Italy, 2007.
65. Brink, A., Engblom M., and Hupa, M., “Investigation of nitrogen oxide emission formation in a black liquor boiler using CFD combined with a detailed reaction mechanism”, 2007 International Chemical Recovery Conference, 29.5-1.6, Quebec, Canada, 2007.
66. Engblom, M., Mueller, C., Brink, A., Hupa, M., Jones, A.,"Towards predicting the char bed shape in kraft recovery boilers", 2007 International Chemical Recovery Conference, 29.5-1.6, Quebec, Canada, 2007.
67. Brink, A., Lauren, T., Yrjas, P., Hupa, M., Friesenbichler, J., “Development and evaluation of a long-term deposit probe for on-line monitoring of deposit growth”, Impacts of Fuel Quality on Power Production, 29.10-3.11, Snowbird, Utah, USA, 2006.
68. Brink, A., Engblom, M., Mueller, C., and Hupa, M., “A Computationally Efficient Approach for Predicting NOx Emission Trends from Black Liquor Recovery Boilers”, 7th International Colloquium on Black Liquir Combustion and Gasification, 31.7-2.8, Jyväskylä, Finland, 2006.
69. Brink, A., Lindberg, D., Hupa, M., and Backman, R., “Potential of a thermodynamic liquid fraction based model for dust accretion modeling in a heat recovery boiler for the copper flash smelting process”, 7th European Conference on Industrial Furnaces and Boilers, 18-21.4, Porto, Portugal, 2006.
70. Brink, A., Mueller, C., and Hupa, M., “CFD modeling of nitrogen chemistry in black liquor recovery boilers”, Swedish-Finnish Flame Days October 18-19, Borås, Sweden, 2005.
71. Mueller, C., Brink, A. and Hupa, M., “Studying Combustion of Biomass Mixtures at Fluidized Bed Conditions Using a Comprehensive Modelling Approach”, Eight International Conference on Energy for a Clean Environment, 27-30 June, Lisbon, Portugal, 2005.
72. Mueller, C., Brink, A., and Hupa, M., “Numerical Simulation of the Combustion Behavior of Different Biomasses in a Bubbling Fluidized Bed Boiler”, 18th International Conference on Fluidized Bed Combustion, 22-25 May, Toronto, Ontario, Canada, 2005.
73. Brink, A., Hupa, M., Kurkela, E., and Suomalainen, M., “Minimizing NOx emission from a waste derived fuel gasifier gas combustor using CFD combined with detailed chemistry”, 14th Members conference IFRF, The Netherlands, 2004.
74. Brink, A., Hupa, M, Zabetta, E., and Saviharju, K., “NOx Chemistry in Recovery Boilers under Staging Conditions”, 2004 International Chemical Recovery Conference, South Carolina, 6-10 June, 2004.
75. Brink, A., Mueller, C., and Hupa, M., “Nitrogen oxide formation in a biofuel co-fired bubbling fluidised bed combustor”, CLEAN AIR 2003, Seventh International Conference on Energy for a Clean Environment 7-10 July, Calouste Gulbenkian Foundation, Lisbon, Portugal 2003.
76. Mueller, C., Brink, A., and Hupa, M., “Analysis of Combustion Processes using computational Fluid Dynamics – a tool and its applications”, ESCAPE 13, 1-4 June, Lappeenranta 2003.
77. Huttunen, M, Kyttälä, J., Brink, A., Kilpinen, P. and Kjäldman, L. “CFD-Modelling of Ammonia Oxidation and NO Emission Formation in a Recovery Boiler with Different Chemistry Descriptions”, Sixth International Conference on Technologies and Combustion for a Clean Environment, 9-12 July, Portugal, 2001.
78. Janka, K., Ylitalo, M., Kilpinen, P., Brink, A., Coda Zabetta, E.: “How to minimise NOx emissions in the case of CNCG combustion in recovery boiler furnace”, International Chemical Recovery Conference, June 11-14, Whistler, British Columbia, 2001.
79. Brink, A., Boström, S, Kilpinen, P., and Hupa, M. “CFD-modeling of the fate of biomass fuel-nitrogen in the freeboard of a 70 MW FBC – new aspects of the controlling mechanism”, First biennial meeting of the Scandinavian-Nordic Section of the Combustion Institute, Sweden 2001.
80. Mueller, C, Keihäs, J., Brink, A, and Hupa, M, “Application of the Conditional Moment Closure (CMC) method to a turbulent non-premixed flame including chemical kinetics”, Topical Meeting on Modelling of Combustion and Combustion Processes, Finland 2000.
81. Brink, A., and Kilpinen, K., “Improved NH3 oxidation submodels for CFD based furnace analysis of biomass combustion”, Topical Meeting on Modelling of Combustion and Combustion Processes, Finland 2000.
82. Boström, S., Kilpinen, P., Brink, A., and Nickull, S., “CFD modelling of NOx reduction by air staging in biomass combustion”, Topical Meeting on Modelling of Combustion and Combustion Processes, Finland, 2000.
83. Brink, A., Mueller, C., Kilpinen, P., and Hupa, M., “Modeling of gaseous fuel combustion using the eddy-break-up model combined with fast chemistry and finite rate chemistry”, 5th European Conference on Industrial Furnaces and Boilers, Portugal, 2000.
84. Mueller, C., Kremer, H., Brink, A., Kilpinen, P., and Hupa, M., “Modeling of an Industrial Scale Gas-Burner Using Finite-Rate Chemistry – Options and Restrictions Resulting from Eddy-Break Up Based Models”, Fifth International Conference on Technologies and Combustion for a Clean Environment, Portugal, 1999.
85. Mueller, C., Kremer, H., Brink, A., Kilpinen, P., and Hupa, M., “Modeling of a 400 kW natural gas diffusion flame using finite-rate chemistry schemes”, Eurogas 99, The European Applied Research Conference on Natural Gas, Germany, 1999.
86. Brink, A. and Hupa, M., “Modeling of Oxyflame Combustion Chemistry”, International Symposium on Advanced Energy Conversion System and Related Technologies - RAN98, Japan, 1998.
87. Brink, A., Kilpinen, P., Hupa, M, and Mueller, C., “An improved description of the hydrocarbon combustion is the key to advanced NOx modeling”, 12th Members
conference IFRF, Volume 2, The Netherlands, 1998. 88. Brink, A., Norström, T., Kilpinen, P., and M. Hupa, "Predictions of NOx Formation in
an NH3-Doped Syngas Flame Using CFD Combined with a Detailed Reaction
Mechanism", 4th Colloquium on Process Simulation, Helsinki University of Technology Report TKK-MK-1, 359-373, Espoo, 1997.
89. Brink, A., Kilpinen, P., Hupa, M., Kjäldman, L., and Jääskeläinen, K., "Modelling of local extinction and reignition of the flame", 3rd Colloquium on Process Simulation, Helsinki University of Technology Report TKK-V-B117, 151-163, Espoo,1996.
90. Brink, A., Kilpinen, P., Hupa, M., Kjäldman, L., and Jääskeläinen K., "Development and test of different methods to improve the description of NOx emissions in staged combustion",
EPRI/EPA 1995 Joint Symposium on Stationary Combustion NOx Control, Book 3, USA, 1995.
91. Brink, A., Kilpinen, P., Hupa, M., Kjäldman, L., and Jääskeläinen, K., "Mathematical modelling of NOx emissions from staged combustors with reduced and regression based nitrogen chemistry", 11th Members conference IFRF, Volume 2, The Netherlands, 1995.
92. Brink, A., Kilpinen, P., Hupa, M., Kjäldman, L., and Jääskeläinen, K., "Fuel Chemistry for Computational Fluid Dynamics", 2nd Colloquium on Process Simulation, Helsinki University of Technology Report TKK-V-B102, Espoo,1995.
93. Brink A., "Non-Linearities in Absorbance Spectra Emerging from Instrumental Effect and Their Impact on Quantitative Analysis", presented at the First National FTIR-Symposium, Jyväskylä, 1993.
Non-refereed scientific articles: Research reports
94. Aakko-Saksa, P., Brink, A., Happonen, M., Heikkilä, J., Hulkkonen, T., Imperato, M., Kaario, O., Koponen, P., Larmi, M., Lehto, K., Murtonen, T., Sarjovaara, T., Tilli, A., Väisänen, E., ”Future combustion technology for synthetic and renewable fuels in compression ignition (REFUEL)” , Aalto-ST 21/2012, ISBN: 978-952-60-4941-0.
95. Stipa, T., Jalkanen, J-P., Hongisto M., Kalli, J., and Brink, A., “EMISSIONS OF NOX FROM BALTIC SHIPPING AND FIRST ESTIMATES OF THEIR EFFECTS ON AIR QUALITY AND EUTROPHICATION OF THE BALTIC SEA” ISBN: 978-951-53-3028-4.
Scientific books (monographs)
1. Brink, A., “Eddy Break-Up Based Models for Industrial Diffusion Flames with Complex Gas Phase Chemistry”, REPORT 98-7, Doctoral thesis, 1998.
Publications intended for professional communities
1. Hupa, M, Mueller, C and Brink, A, “Making Biofuel Modeling Stick”, Fluent news Vol XII (2), Fall 2003.
Theses
1. Brink, A., “Eddy Break-Up Based Models for Industrial Diffusion Flames with Complex Gas Phase Chemistry”, REPORT 98-7, Doctoral thesis, 1998.
2. Brink A., "A Study in Quantitative Flue-Gas Analysis by FTIR-Spectroscopy", Lic. Techn. thesis (in Swedish). Åbo Akademi University, 1994.
