Dr. Palotás Árpád Bence publikációinak részletes jegyzéke

Dr. Palotás Árpád Bence – részletes publikációs jegyzék (2015. 03 12. 13:40)

1/36

Dr. Palotás Árpád Bence publikációinak részletes jegyzéke

B. Könyvek, jegyzetek, könyvfejezetek B1. Palotás Á. B.: Műszaki hőtan (példatár), Miskolci Egyetem, Kohómérnöki Kar, 1998. B2. Palotás Á. B.: Korom szerkezetének vizsgálata képelemző berendezéssel – in Sztereológia és képelemzés, szerk.: Gácsi Z., Well-Press Kiadó Kft., Miskolc, 2001. 250-252. o. B3. Póliska Cs., Mikó J., Palotás Á. B., Szabó J.: Tűzálló anyagok vizsgálata. Jegyzet. Miskolci Egyetem, Műszaki Anyagtudományi Kar, 2010, p. 182 B4. Palotás Á. B.:Ipari tüzeléstechnika (adaptáció), e-jegyzet, 2011, p. 55 B5. Woperáné S. Á., Palotás Á. B., Szemmelveisz K., Szűcs I.: Hevítéstechnológia energiagazdálkodási és környezetvédelmi vonatkozásai, e-jegyzet, 2012, p. 380 B6. M. Lackner, Á. B. Palotás, F. Winter: Combustion: from Basics to Applications. John Wiley & Sons, September 2013, ISBN 978-3-527-33376-9, p. 350

J. Nemzetközi (bíráltatott) folyóirat cikkek J1.

L. C. Rainey; Á. B. Palotás; A. F. Sarofim; J. B. Vander Sande: Application of High Resolution Electron Microscopy for the Characterization and Source Assignment of Diesel Particulates - Applied Occupational and Environmental Hygiene, 11(7):777– 781; (1996) http://dx.doi.org/10.1080/1047322X.1996.10389969 J1-c1. Gustafsson O; Gschwend PM: Soot as a Strong Partition Medium for Polycyclic Aromatic Hydrocarbons in Aquatic Systems. ACS Symposium Series, Vol. 671, 1997, pp. 365-381 J1-c2. Allen JO: Atmospheric Partitioning of Polycyclic Aromatic Hydrocarbons (PAH) and Oxygenated PAH – DSc Thesis – Massachusetts Institute of Technology, 1997 J1-c3. Kandas AW: Structural Evolution of Carbon during Oxidation – PhD Thesis – Massachusetts Institute of Technology, 1997 J1-c4. Fröschl B: Bildung und Nachweis von nitrierten polyzyklischen aromatischen Kohlenwasserstoffen in realer und simulierter Atmosphäre, 1999, p. 241, ISBN 9783896755490 J1-c5. Bucheli TD; Gustafsson O: Qualification of the soot-water distribution coefficient of PAHs provides mechanistic basis for enhanced sorption observations. Environmental Science and Technology 34 (24), 2000, pp. 5144-5151 J1-c6. Gustafsson O; Bucheli TD; Kukulska Z; Andersson M; Largeau C; Rouzaud JN; Reddy CM; Eglinton TI: Evaluation of a protocol for the quantification of black carbon in sediments. Global Biogeochemical Cycles 15 (4): 881-890 DEC 2001 J1-c7. Colin M. MacRae and Peter R. Miller: Electron Microscopy in Mineral Processing – in “Industrial Applications of Electron Microscopy”, ed. Zhigang R. Li, CRC Press, 2003, pp. 187-212 J1-c8. Yen-Chiu Lai: The Morphology and Fractal analysis of diesel soot particles. MS Thesis, National Taiwan University, 2004


2/36

J1-c9. Zabetta EC and Hupa M: Gas-born carbon particles generated by combustion: a review on the formation and relevance – Report 05-01, Åbo Akademi, Faculty of Chemical Engineering, Process Chemistry Centre, Turku, February 2005 J1-c10. Zabetta EC; Ekholm C; Hupa M; Paanu T; Laurén M; Niemi S: Nanoparticles from diesel engines operated with bio-derived oils – Report 05-03, Åbo Akademi, Faculty of Chemical Engineering, Process Chemistry Centre, Turku, April 2005 J1-c11. Khalid O Al-Qurashi: The Impact of Carbon Dioxide and Exhaust Gas Recirculation on the Oxidative Reactivity of Soot from Ethylene Flames and Diesel Engines. A Thesis in Energy and Geo-Environmental Engineering. Dissertation. The Pennsylvania State University. The Graduate School Department of Energy and Geo-Environmental Engineering. The Penn State University, 2007. J1-c12. Al-Qurashi K and Boehman AL: Impact of exhaust gas recirculation (EGR) on the oxidative reactivity of diesel engine soot – Combustion and Flame 155 (4) 675-695, 2008

J2.

Á. B. Palotás; L. C. Rainey; A. F. Sarofim; J. B. Vander Sande: Soot Morphology: An Application of Image Analysis in High–Resolution Transmission Electron Microscopy - Microscopy Research and Technique 33:266–278 (1996) (IF = 1,327) doi: 10.1002/(SICI)1097-0029(19960215)33:3<266::AID-JEMT4>3.0.CO;2-O J2-c1. Gao YM; Shim HS; Hurt RH; Suuberg EM: Effects of Carbon on Air Entrainment in Fly-Ash Concrete - The Role of Soot and Carbon-Black. Energy & Fuels 11 (2): 457462 MAR-APR 1997 J2-c2. Allen JO: Atmospheric Partitioning of Polycyclic Aromatic Hydrocarbons (PAH) and Oxygenated PAH. DSc Diss., Massachusetts Institute of Technology, 1997 J2-c3. Kandas AW: Structural Evolution of Carbon during Oxidation. PhD Diss., Massachusetts Institute of Technology, 1997 J2-c4. Braun T; Schubert A; Schubert G; Vasvári A: Fullerene Research. World Scientific, Singapore, 1997. ISBN 981-02-3345-0 J2-c5. Hurt RH: Char Crystalline Transformations During Coal Combustion And Their Implications For Carbon Burnout. Semi Annual Technical Report, 09/08/1998, DEFG22-95PC95205--05 J2-c6. Watt J: Automated Characterization of Individual Carbonaceous Fly-Ash Particles by Computer-Controlled Scanning Electron-Microscopy - Analytical Methods and Critical-Review of Alternative Techniques. Water Air and Soil Pollution 106 (3-4): 309-327 SEP 1998 J2-c7. Buffat PA: Electron-Microscopy for the Characterization of Atmospheric Particles. Analusis 27 (4): 340-346 MAY 1999 J2-c8. Strommen MR; Kamens RM: Simulation of Semivolatile Organic-Compound Microtransport at Different Time Scales in Airborne Diesel Soot Particles. Environmental Science & Technology 33 (10): 1738-1746 MAY 15 1999 J2-c9. Ramirezaguilar KA; Lehmpuhl DW; Michel AE; Birks JW; Rowlen KL: AtomicForce Microscopy for the Analysis of Environmental Particles. Ultramicroscopy 77 (3-4): 187-194 JUL 1999 J2-c10. Clague ADH; Donnet J; Wang TK; Peng JCM: A Comparison of Diesel-Engine Soot with Carbon-Black. Carbon 37 (10): 1553-1565 1999 J2-c11. Hurt R; Calo J; Hu Y: Nanostructures in Coal derived Carbons, ACS Division of Fuel Chemistry Vol 44 (1): 157-161 1999 J2-c12. Gelb LD; Gubbins KE; Radhakrishnan R; SliwinskabartkowiakM: Phase-Separation in Confined Systems. Reports on Progress in Physics 62 (12): 1573-1659 DEC 1999


3/36

J2-c13. Appel J; Bockhorn H; Frenklach M: Kinetic Modeling of Soot Formation with Detailed Chemistry and Physics - Laminar Premixed Flames of C-2 Hydrocarbons. Combustion and Flame 121 (1-2): 122-136 APR 2000 J2-c14. Kubicki JD: Molecular mechanics and quantum mechanical modeling of hexane soot structure and interactions with pyrene. Geochemical Transactions 1, 2000, pp. 41-46 J2-c15. Johnson MP; Locke RW; Donnet JB; Wang TK; Wang CC; Bertrand P: Carbon-Black and Fullerenes - New Discoveries in Early Formation Mechanisms and Nucleation. Rubber Chemistry and Technology 73 (5): 875-888 NOV-DEC 2000 J2-c16. Chen HX; Dobbins RA: Crystallogenesis of Particles Formed in Hydrocarbon Combustion – Combustion Science and Technology 159: 109-128 2000 J2-c17. Shim HS; Hurt RH; Yang NYC: A Methodology for Analysis of 002-Lattice Fringe Images and Its Application to Combustion-Derived Carbons. Carbon 38 (1): 29-45 2000 J2-c18. Smekens A; Knupper M; Berghmans P and Van Grieken R: The elemental composition and microstructure of soot emitted by different sources. Journal of Aerosol Science, 31 (Suppl. 1), September 2000, Pages 917-918 J2-c19. Witze PO; Hochgreb S; Kayes D; Michelsen HA; Shaddix CR: Time-Resolved LaserInduced Incandescence and Laser Elastic-Scattering Measurements in a Propane Diffusion Flame. Applied Optics 40 (15): 2443-2452 MAY 20 2001 J2-c20. Gustafsson O; Bucheli TD; Kukulska Z; Andersson M; Largeau C; Rouzaud JN; Reddy CM; Eglinton TI: Evaluation of a protocol for the quantification of black carbon in sediments. Global Biogeochemical Cycles 15 (4): 881-890 DEC 2001 J2-c21. Xia GS; Pignatello JJ: Detailed Sorption Isotherms of Polar and Apolar Compounds in a High-Organic Soil (English). Environmental Science & Technology 35 (1): 84-94 JAN 1 2001 J2-c22. Harris PJF: Carbon nanotubes and related structures: new materials for the twenty first century. Cambridge University Press, 2001 pp. 294 J2-c23. Braida WJ; Pignatello JJ; Lu YF; Ravikovitch PI; Neimark AV; Xing B: Sorption hysteresis of benzene in charcoal particles. Environmental Science & Technology 37 (2): 409-417 JAN 15 2003 J2-c24. Harris PJF: Impact of the discovery of fullerenes on carbon science – Chemistry and Physics of Carbon 28: 1-39 2003 J2-c25. Petersen T; Yarovsky I; Snook I; et al.: Microstructure of an industrial char by diffraction techniques and Reverse Monte Carlo modeling. Carbon 42 (12-13): 24572469 2004 J2-c26. Lehmann J; Liang BQ; Solomon D; Lerotic M; Luizão F; Kinyangi J; Schäfer T; Wirick S and Jacobsen C: Near-edge X-ray absorption fine structure (NEXAFS) spectroscopy for mapping nano-scale distribution of organic carbon forms in soil: Application to black carbon particles – Global Biogeochemical Cycles 19 (1): Art. No. GB1013 FEB 16 2005 J2-c27. Sander M; Pignatello JJ: Characterization of charcoal adsorption sites for aromatic compounds: Insights drawn from single-solute and Bi-solute competitive experiments. Environmental Science & Technology 39 (6): 1606-1615 MAR 15 2005 J2-c28. Zhu DQ; Pignatello JJ: Characterization of aromatic compound sorptive interactions with black carbon (charcoal) assisted by graphite as a model. Environmental Science & Technology 39 (7): 2033-2041 APR 1 2005


4/36

J2-c29. Kubicki JD: Computational chemistry applied to studies of organic contaminants in the environment: Examples based on benzo[a]pyrene. American Journal of Science 305 (6-8): 621-644 Sp. Iss. SI 2005 J2-c30. Zhu DQ; Kwon S; Pignatello JJ: Adsorption of single-ring organic compounds to wood charcoals prepared under different thermochemical conditions. Environmental Science & Technology 39 (11): 3990-3998 JUN 1 2005 J2-c31. Harris PJF: New perspectives on the structure of graphitic carbons. Critical Reviews in Solid State and Materials Sciences 30 (4): 235-253 OCT-DEC 2005 J2-c32. Ossler F; Larsson J: Measurements of the structures of nanoparticles in flames by in situ detection of scattered x-ray radiation. Journal of Applied Physics 98 (11): Art. No. 114317 DEC 1 2005 J2-c33. Zabetta EC and Hupa M.: Gas-born carbon particles generated by combustion: a review on the formation and relevance. Report 05-01, Åbo Akademi, Faculty of Chemical Engineering, Process Chemistry Centre, Turku, February 2005 J2-c34. Zabetta, EC; Ekholm, C; Hupa, M; Paanu, T; Laurén, M; Niemi, S.: Nanoparticles from diesel engines operated with bio-derived oils – Report 05-03, Åbo Akademi, Faculty of Chemical Engineering, Process Chemistry Centre, Turku, April 2005 J2-c35. Bond TC; Bergstrom RW: Light absorption by carbonaceous particles: An investigative review. Aerosol Science and Technology 40 (1): 27-67 JAN 2006 J2-c36. Kocbach A; Li, Y; Yttri KE; Cassee FR; Schwarze PE and Namork E: Physicochemical characterisation of combustion particles from vehicle exhaust and residential wood smoke. Particle and Fibre Toxicology 2006, 3:1, doi:10.1186/17438977-3-1 J2-c37. Baroni MPMA; Teixeira SR; Dixon JB; White GN: Application of image analysis software to interpretation of high resolution photomicrographs of clay minerals. Cerâmica, Apr./June 2006, 52 (322), p.179-184. J2-c38. Pert AD; Baron MG; Birkett JW: Review of Analytical Techniques for Arson Residues. Journal of Forensic Sciences, Volume 51 Issue 5 Page 1033-1049, September 2006 J2-c39. Liang B; Lehmann J; Solomon D; et al.: Black Carbon increases cation exchange capacity in soils – Soil Science Society of America Journal 70 (5): 1719-1730 SEPOCT 2006 J2-c40. Song JH; Alam M; Boehman AL; Kim U: Examination of the oxidation behavior of biodiesel soot – Combustion and Flame 146 (4): 589-604 SEP 2006 J2-c41. Abbot R et al.: Evaluation of Ultra Clean Fuels from Natural Gas – Final report, US Department of Energy, Febr 28, 2006 J2-c42. Hays MD; Vander Wal RL: Heterogeneous soot nanostructure in atmospheric and combustion source aerosols: Energy & Fuels 21 (2): 801-811 MAR-APR 2007 J2-c43. Elmquist M: Measurement and source apportionment of ubiquitous soot black carbon sediments – Thesis – Stockholm University, 2007 J2-c44. Dhaubhadel R; Gerving CS; Chakrabarti A; Sorensen CM: Aerosol gelation: Synthesis of a novel, lightweight, high specific surface area material. Aerosol Science And Technology 41 (8): 804-810 2007 J2-c45. Khalid O Al-Qurashi: The Impact of Carbon Dioxide and Exhaust Gas Recirculation on the Oxidative Reactivity of Soot from Ethylene Flames and Diesel Engines. A Thesis in Energy and Geo-Environmental Engineering. Dissertation. The Pennsylvania State University. The Graduate School Department of Energy and Geo-Environmental Engineering. The Penn State University, 2007.


5/36

J2-c46. Llamas-Jansa I; Jager C; Mutschke H; Henning T: Far-ultraviolet to near-infrared optical properties of carbon nanoparticles produced by pulsed-laser pyrolysis of hydrocarbons and their relation with structural variations. Carbon 45 (7): 1542-1557 JUN 2007 J2-c47. Trout CC; Kubicki JD: Molecular modeling of Al3+ and benzene interactions with Suwannee fulvic acid. Geochimica et Cosmochimica Acta 71 (15): 3859-3871 AUG 1 2007 J2-c48. Song JH; Alam M; Boehman AL: Impact of alternative fuels on soot properties and DPF regeneration. Combustion Science and Technology 179 (9): 1991-2037 2007 J2-c49. Seul Hyun Park: Investigation of Sooting Behavior and Soot Nanostructures of Ethanol Droplet Flames in Microgravity - PhD Thesis – Drexel University, 2007 J2-c50. Mutschke H.: Gas phase condensation of carbon nanoparticles and their structural characterization - in Dieter Gerlich and Thomas Henning: Structure, Dynamics and Properties of Molecules and Grains in Space – TU Chemnitz and FSU Jena Final Report, 2007 J2-c51. Whitesides R; Kollias AC; Domin D; Lester WA and Frenklach M: Graphene layer growth: Collision of migrating five-member rings. Proceedings of the Combustion Institute, Volume 31, Issue 1, January 2007, Pages 539-546 J2-c52. Hower JC; Graham UM; Dozier A; Tseng MT; Khatri RA: Association of the Sites of Heavy Metals with Nanoscale Carbon in a Kentucky Electrostatic Precipitator Fly Ash – Environmental Science & Technology 42 (22) 8471-8477, 2008 J2-c53. Al-Qurashi K. and Boehman, A.L.: Impact of exhaust gas recirculation (EGR) on the oxidative reactivity of diesel engine soot. Combustion and Flame 155 (4) 675-695, 2008 J2-c54. Dhaubhadel R: An experimental study of dense aerosol aggregations. PhD Thesis, Kansas State University, 2008. J2-c55. Daly HM; Horn AB: Heterogeneous chemistry of toluene, kerosene and diesel soots. Physical Chemistry Chemical Physics 11 (7) 1069-1076, 2009 J2-c56. Park SH; Choi MY; Yozgatligil, A.: Nanostructure of soot collected from ethanol droplet flames in microgravity. Combustion Science and Technology 181 (9), 2009, pp. 1164-1186 J2-c57. Aminabhavi TM; Patil MB; Bhat SD; Halgeri AB; Vijayalakshmi RP; Kumar P: Activated Charcoal-Loaded Composite Membranes of Sodium Alginate in Pervaporation Separation of Water-Organic Azeotropes. Journal of Applied Polymer Science 113 (2): 966-975, JUL 15 2009 J2-c58. Choi SC: Measurement and Analysis of the Dimensionless Extinction Constant for Diesel and Biodiesel Soot: Influence of Pressure, Wavelength and Fuel-Type. PhD Thesis, Drexel University, 2009 J2-c59. Zhang W; Song C-L; Wang L; Li F-C; Lv G: Microstructure histories of in-cylinder particulates from a diesel engine. Neiranji Xuebao/Transactions of CSICE (Chinese Society for Internal Combustion Engines) 28 (3) , pp. 221-227 J2-c60. Posfai M; Buseck PR: Nature and Climate Effects of Individual Tropospheric Aerosol Particles. Annual Review of Earth and Planetary Sciences 38, pp. 17-43, 2010 J2-c61. Song C-L; Zhang W; Wang L; Lü, G; Li F-C: A methodology for microstructure analysis of diesel engine particulate based on image processing. Ranshao Kexue Yu Jishu/Journal of Combustion Science and Technology 16 (5), 2010, pp. 388-395 J2-c62. D'Anna A; Sirignano M; Kent J: A model of particle nucleation in premixed ethylene flames. Combustion and Flame 157 (11) pp. 2106-2115, 2010


6/36

J2-c63. Echavarria CA: Evolution of soot size distribution during soot formation and soot oxidation-fragmentation in premixed flames: experimental and modeling study. PhD Thesis, University of Utah, 2010 J2-c64. Yehliu, K. Impacts of fuel formulation and engine operating parameters on the nanostructure and reactivity of diesel soot. PhD dissertation, The Pennsylvania State University. 2010 J2-c65. Pignatello JJ: Interactions of Anthropogenic Organic Chemicals with Natural Organic Matter and Black Carbon in Environmental Particles. Book chapter in BiophysicoChemical Processes of Anthropogenic Organic Compounds in Environmental Systems, John Wiley and Sons 2011, ISBN 978-047053963-7, pp. 1-50 J2-c66. Schuster ME; Havecker M; Arrigo R; Blume R; Knauer M; Ivleva NP; Su DS; Niessner R; Schlogl R: Surface Sensitive Study to Determine the Reactivity of Soot with the Focus on the European Emission Standards IV and VI. Journal of Physical Chemistry A 11 (12), 2011, pp. 2568-2580 J2-c67. Fernandez-Alos V; Watson JK; Vander Wal R; Mathews JP: Soot and char molecular representations generated directly from HRTEM lattice fringe images using Fringe3D. Combustion and Flame. 158 (9), 2011, pp.1807-1813 J2-c68. Yehliu K; Vander Wal RL; Boehman AL: Development of an HRTEM image analysis method to quantify carbon nanostructure. Combustion and Flame Volume: 158 (9), 2011, 1837-1851 J2-c69. Teini PD; Karwat Darshan MA; Arvind A: Observations of nascent soot: Molecular deposition and particle morphology. Combustion and Flame, 158 (10), 2011, pp. 2045-2055 J2-c70. Teini PD: Soot formation, composition, and morphology. PhD Diss., University of Michigan, 2011. J2-c71. Leschner, Jens: High-resolution electron tomography on beam-sensitive carbon materials [Elektronische Ressource]. Dissertation zur Erlangung des Doktorgrades Dr. rer. nat. der Fakultät für Naturwissenschaften der Universität Ulm. Ulm : Universität Ulm. Fakultät für Naturwissenschaften, 2011. J2-c72. Bhowmick H; Biswas SK: Relationship Between Physical Structure and Tribology of Single Soot Particles Generated by Burning Ethylene. Tribology Letters, 44 (2) 2011, pp. 139-149 J2-c73. Yehliu K; Vander Wal RL; Boehman AL: A comparison of soot nanostructure obtained using two high resolution transmission electron microscopy image analysis algorithms. Carbon 49 (13), 2011, pp. 4256-4268 J2-c74. Kondo K; Yamaguchi T; Nishigai H; Takano S; Aizawa T: High-resolution transmission electron microscopy of soot directly sampled at different axial locations in diesel spray flame. SAE Technical Papers 8, 2011 J2-c75. Park, S-H; Lee, J-H; Kim, Y-K; Sim, E-S; Young H-D: HRTEM Image Analysis Technique of Carbon Nanostructure of Soot Collected under Microgravity Conditions. 42nd KOSCO Symposium, Korea, 2011, pp. 203-207 J2-c76. Lagally, C. D.: A morphological survey of particulate matter emissions from sparkignited engines. PhD Dissertation, University of British Columbia, 2011. J2-c77. Yamaguchi T; Kondo K; Nishigai H; Takano S; Aizawa T: Direct Sampling, TEM Analysis and Optical Measurement of Soot Particles at Different Axial Locations in a Transient Spray Flame. SAE International Journal of Fuels and Lubricants 5 (1), 2012, pp. 316-328 J2-c78. Bhowmick H.; Majumdar SK; Biswas SK: Dry tribology and nanomechanics of gaseous flame soot in comparison with carbon black and diesel soot. Proceedings of


7/36

the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 226 (2), 2012, pp. 394-402 J2-c79. Esangbedo C; Boehman AL; Perez JM: Characteristics of diesel engine soot that lead to excessive oil thickening. Tribology International 47, 2012, pp. 194-203 J2-c80. Yamaguchi T; Kondo K; Nishigai H; Iguma H; Takano S; Aizawa T; Nerva J-G; Genzale CL; Pickett LM: High-resolution transmission electron microscopy of soot particles in diesel spray flame (properties of soot sampled in bio-diesel spray flame). Nihon Kikai Gakkai Ronbunshu, B Hen/Transactions of the Japan Society of Mechanical Engineers, Part B 78 (786), 2012, pp. 353-362 J2-c81. Bhowmick H; Majumdar, SK; Biswas SK: Tribology of soot suspension in hexadecane as distinguished by the physical structure and chemistry of soot particles. Journal of Physics D: Applied Physics 45 (17), 2012, art. no. 175302 J2-c82. Leyssale J-M; Da Costa J-P; Germain C; Weisbecker P; Vignoles GL: Structural features of pyrocarbon atomistic models constructed from transmission electron microscopy images - Carbon 50 (12), 2012, pp. 4388-4400 J2-c83. Pahalagedara L; Sharma H; Kuo C-H; Dharmarathna S; Joshi A; Suib SL; Mhadeshwar AB: Structure and oxidation activity correlations for carbon blacks and diesel soot. Energy and Fuels 26 (11), 2012, pp. 6757-6764 J2-c84. Buseck PR; Adachi K; Gelencsér A; Tompa É and Pósfai M: Are black carbon and soot the same? - Atmos. Chem. Phys. Discuss., 12, 2012, pp. 24821–24846 J2-c85. Ma Z; Zhang X; Ma F; Duan J; Xu B; Wu J: Effects of proportions of biodiesel/diesel blends on structures of diesel engine particulates. Nongye Gongcheng Xuebao/Transactions of the Chinese Society of Agricultural Engineering 28 (18), 2013, pp. 64-68 J2-c86. Herring MP; Potter PM; Wu HY; Lomnicki S; Delinger B.: Fe2O3 nanoparticle mediated molecular growth and soot inception from the oxidative pyrolysis of 1methylnaphthalene. Proceedings of the Combustion Institute 34, 2013, pp. 1749-1757 J2-c87. Russo C; Alfe M; Rouzaud JN; Stanzione F; Tregrossi A; Ciajolo A: Probing Structures of Soot Formed in Premixed Flames of Methane, Ethylene and Benzene. Proceedings of the Combustion Institute 34, 2013, pp. 1885-1892 J2-c88. Seong HJ; Boehman AL: Evaluation of Raman parameters using visible Raman microscopy for soot oxidative reactivity. Energy and Fuels, 27 (3), 21 March 2013, pp. 1613-1624 J2-c89. Bhowmick H; Majumdar SK; Biswas SK: Influence of physical structure and chemistry of diesel soot suspended in hexadecane on lubrication of steel-on-steel contact. Wear, 300 (1-2), 5 March 2013, pp. 180-188. J2-c90. Böhlke T; Langhoff T-A; Lin S; Gross T: Homogenization of the elastic properties of pyrolytic carbon based on an image processing technique. ZAMM Zeitschrift fur Angewandte Mathematik und Mechanik 93 (5) , pp. 313-328 J2-c91. Moroni B; Viti C; Cappelletti D: Exposure vs toxicity levels of airborne quartz, metal and carbon particles in cast iron foundries. Journal of Exposure Science and Environmental Epidemiology, 2013. J2-c92. Apicella B; Alfè M; Ciajolo A; Gargiulo V; Pré P; Rouzaud JN: Soot structure by high resolution electron transmission microscopy (HR-TEM) image analysis: current potentialities and perspectives, XXXVI Meeting of the Italian Section of the Combustion Institute, Isola di Procida, June 13-15, 2013 J2-c93. Ismail MA, Al-Qurashi K, Li L, Chung SH: Effect of MTBE-blend on diesel soot reactivity and nanostructure. Proceedings of the 9th Asia-Pacific Conference on Combustion, ASPACC 2013, Gyeongju; South Korea; May 19-22, 2013; Code 106598


8/36

J2-c94. E. K. Y. Yapp, J. Akroyd, S. Mosbach, A. Knobel, A. J. Smith, D. Chen, E. M. Webster, J. Houston Miller, M. Kraft: Numerical simulation of the evolution of soot precursor particles in a laminar ethylene diffusion flame. Cambridge Centre for Computational Chemical Engineering, December 10, 2013, Preprint No. 136. ISSN 1473-4273 J2-c95. Kondo, K., Aizawa, T., Kook, S., & Pickett, L. (2013). Uncertainty in Sampling and TEM Analysis of Soot Particles in Diesel Spray Flame (No. 2013-01-0908). SAE Technical Paper. J2-c96. Lin S, Langhoff T-A, Böhlke T: Micromechanical estimate of the elastic properties of the coherent domains in pyrolytic carbon. In: Archive of Applied Mechanics 84: (1) pp. 133-148. (2014) J2-c97. Buseck PR, Adachi K, Gelencsér A, Tompa E, Pósfai M: Ns-Soot: A material-based term for strongly light-absorbing carbonaceous particles. Aerosol Sci. Technol. (ISSN: 1521-7388) 48: (7) pp. 777-788. (2014) J2-c98. Ghiassi H, Toth P, Lighty JS: Sooting behaviors of n-butanol and n-dodecane blends. Combust. Flame (ISSN: 0010-2180) 161: (3) pp. 671-679. (2014) J2-c99. Li, ML; Zhao, HX; Qi, LH; Li, HJ: Analysis Techniques of Lattice Fringe Images for Quantified Evaluation of Pyrocarbon by Chemical Vapor Infiltration, Microscopy and Microanalysis, 20 (5) pp. 1591-1600 (2014) J2-c100. Farbos, B; Weisbecker, P; Fischer, HE; Da Costa, JP; Lalanne, M; Chollon, G; Germain, C; Vignoles, GL; Leyssale, JM: Nanoscale structure and texture of highly anisotropic pyrocarbons revisited with transmission electron microscopy, image processing, neutron diffraction and atomistic modeling. CARBON 80, pp 472-489 (2014)

J3.

Á. B. Palotás; L. C. Rainey; A. F. Sarofim; J. B. Vander Sande; P. Ciambelli: Effect of Oxidation on the Microstructure of Carbon Blacks – Energy & Fuels. 10:254–259 (1996) (IF = 1,447) http://dx.doi.org/10.1021/ef950168j J3-c1. Senneca O; Russo P; Salatino P; Masi S: The Relevance of Thermal Annealing to the Evolution of Coal Char Gasification Reactivity – Carbon 35 (1): 141-151 1997 J3-c2. Kandas AW: Structural Evolution of Carbon during Oxidation – PhD Thesis – Massachusetts Institute of Technology, 1997 J3-c3. Kamegawa K; Nishikubo K; Yoshida H: Oxidative-Degradation of Carbon-Blacks with Nitric-Acid (I) - Changes in Pore and Crystallographic Structures – Carbon 36 (4): 433-441 1998 J3-c4. Sharma, A.; Kyotani, T.; Tomita, A: Quantitative HRTEM and XRD analysis of structural changes in coal chars due to high temperature gasification – ACS Division of Fuel Chemistry, Preprints, Volume 43, Issue 4, 1998, Pages 960-962 J3-c5. Sharma A; Kyotani T; Tomita A: A New Quantitative Approach for Microstructural Analysis of Coal Char Using HRTEM Images – Fuel 78 (10): 1203-1212 AUG 1999 J3-c6. Konstandopoulos, A.G.; Kostoglou, M.: Periodically reversed flow regeneration of diesel particulate traps. SAE technical Papers, 1999 J3-c7. Sharma A; Kyotani T; Tomita A: Comparison of Structural Parameters of PF Carbon from XRD and HRTEM Techniques – Carbon 38 (14): 1977-1984 2000 J3-c8. Konstandopoulos AG, Kostoglou M: Reciprocating Flow Regeneration of Soot Filters – Combustion and Flame 121 (3): 488-500 MAY 2000 J3-c9. Sharma A; Kyotani T; Tomita A: Quantitative-Evaluation of Structural Transformations in Raw Coals on Heat-Treatment Using HRTEM Technique – Fuel 80 (10): 1467-1473 AUG 2001


9/36

J3-c10. Sharma A; Kadooka H; Kyotani T; Tomita A: Effect of Microstructural Changes on Gasification Reactivity of Coal Chars During Low-Temperature Gasification – Energy & Fuels 16 (1): 54-61 JAN-FEB 2002 J3-c11. Michelsen HA: Understanding and predicting the temporal response of laser-induced incandescence from carbonaceous particles – Journal of Chemical Physics 118 (15): 7012-7045 APR 15 2003 J3-c12. Feng B; Bhatia SK; Barry JC: Variation of the crystalline structure of coal char during gasification – Energy & Fuels 17 (3): 744-754 MAY-JUN 2003 J3-c13. Miser DE; Baliga VL; Sharma RK et al.: Microstructure of tobacco chars and the origin of associated graphite as determined by high-resolution transmission electron microscopy (HRTEM) – Journal of Analytical and Applied Pyrolysis 68-9: 425-442 Sp. Iss. SI AUG 2003 J3-c14. Ryan SP; Altwicker ER: Understanding the role of iron chlorides in the de novo synthesis of polychlorinated dibenzo-p-dioxins/dibenzofurans – Environmental Science & Technology 38 (6): 1708-1717 MAR 15 2004 J3-c15. Wikstrom E; Ryan S; Touati A; Tabor D; Gullett BK: Origin of carbon in polychlorinated dioxins and furans formed during sooting combustion – Environmental Science & Technology 38 (13): 3778-3784 JUL 1 2004 J3-c16. Song J; Alam M; Wang J and Boehman A – Fuel Impact on Soot Nanostructure and Reactivity – Proc. 10th Diesel Engine Emissions Reduction Conference, August 29 – September 2, 2004, San Diego, CA J3-c17. Song J; Alam M; Boehman AL; Miller K: Characterization of diesel and biodiesel soot – ACS Division of Fuel Chemistry, Preprints, Volume 49, Issue 2, September 2004, Pages 767-769 J3-c18. Zabetta EC and Hupa M: Gas-born carbon particles generated by combustion: a review on the formation and relevance – Report 05-01, Åbo Akademi, Faculty of Chemical Engineering, Process Chemistry Centre, Turku, February 2005 J3-c19. Zabetta EC; Ekholm C; Hupa M; Paanu T; Laurén M; Niemi S: Nanoparticles from diesel engines operated with bio-derived oils – Report 05-03, Åbo Akademi, Faculty of Chemical Engineering, Process Chemistry Centre, Turku, April 2005 J3-c20. Dowlapalli M; Atanassov P; Xie J; Rice G: Electrochemical oxidation resistance of carbonaceous materials – ECS Transactions 1 (8), 2005, pp. 41-50 J3-c21. Hasan M.: The Filtration and Oxidation Characteristics of a Diesel Oxidation Catalyst and a Catalyzed Particulate Filter: Development of a 1-D 2-Layer Model. PhD Diss., Michigan Technological University, 2005. J3-c22. Bond TC; Bergstrom RW: Light absorption by carbonaceous particles: An investigative review – Aerosol Science and Technology 40 (1): 27-67 JAN 2006 J3-c23. Kocbach A; Li Y; Yttri KE; Cassee FR; Schwarze PE and Namork E: Physicochemical characterisation of combustion particles from vehicle exhaust and residential wood smoke – Particle and Fibre Toxicology 2006, 3:1 doi:10.1186/1743-8977-3-1 J3-c24. Nienow AM; Roberts JT: Heterogeneous chemistry of carbon aerosols – Annual Review of Physical Chemistry, May 2006, Vol. 57, Pages 105-128 J3-c25. Yang JH; Cheng SH; Wang X; Zhang Z; Liu XR; Tang GH: Quantitative analysis of microstructure of carbon materials by HRTEM – Transactions of Nonferrous Metals Society of China (English Edition) 16 (SUPPL.), pp. s796-s803 J3-c26. Song JH; Alam M; Boehman AL; Kim U: Examination of the oxidation behavior of biodiesel soot – Combustion and Flame 146 (4): 589-604 SEP 2006


10/36

J3-c27. Abbot R. et al.: Evaluation of Ultra Clean Fuels from Natural Gas – Final report, US Department of Energy, Febr 28, 2006 J3-c28. Dhaubhadel R; Gerving CS; Chakrabarti A; Sorensen CM: Aerosol gelation: Synthesis of a novel, lightweight, high specific surface area material - Aerosol Science and Technology 41 (8): 804-810 2007 J3-c29. Sharma A; Mullins OC: Insights into molecular and aggregate structures of asphaltenes using HRTEM. In Asphaltenes, Heavy Oils, and Petroleomics. Springer New York (2007), pp. 205-229. http://link.springer.com/chapter/10.1007/0-38768903-6_8#page-1 J3-c30. Khalid O Al-Qurashi: The Impact of Carbon Dioxide and Exhaust Gas Recirculation on the Oxidative Reactivity of Soot from Ethylene Flames and Diesel Engines. A Thesis in Energy and Geo-Environmental Engineering. Dissertation. The Pennsylvania State University. The Graduate School Department of Energy and Geo-Environmental Engineering. The Penn State University, 2007. J3-c31. Al-Qurashi K and Boehman AL: Impact of exhaust gas recirculation (EGR) on the oxidative reactivity of diesel engine soot – Combustion and Flame 155 (4) 675-695, 2008 J3-c32. Dhaubhadel R: An experimental study of dense aerosol aggregations. PhD Thesis, Kansas State University, 2008. J3-c33. Seuk Cheun Choi: Measurement and Analysis of the Dimensionless Extinction Constant for Diesel and Biodiesel Soot: Influence of Pressure, Wavelength and FuelType. A Thesis Submitted to the Faculty of Drexel University for the degree of Doctor of Philosophy. Philadelphia: Drexel University, 2009 J3-c34. Малиновская, Ольга Сергеевна: Синтез многофункциональных углеродных нанотрубок и исследование их свойств с помощью микроскопии. тема диссертации и автореферата по ВАК 01.04.07, кандидат физико-математических наук. Москва, Мифи, 2009. URL: http://www.dissercat.com/content/sintezmnogofunktsionalnykh-uglerodnykh-nanotrubok-i-issledovanie-ikh-svoistv-spomoshchyu-m J3-c35. Ouf FX; Yon J; Ausset P; Coppalle A; Maille M.: Influence of Sampling and Storage Protocol on Fractal Morphology of Soot Studied by Transmission Electron Microscopy – Aerosol Science and Technology, 44 (11), pp. 1005-1017 2010 J3-c36. Carlos Andres Echavarria: Evolution of soot size distribution during soot formation and soot oxidation-fragmentation in premixed flames: experimental and modeling study. Dissertation. A dissertation submitted to the faculty of The University of Utah. Utah: University of Utah, 2010. J3-c37. Leschner, Jens: High-resolution electron tomography on beam-sensitive carbon materials [Elektronische Ressource]. Dissertation zur Erlangung des Doktorgrades Dr. rer. nat. der Fakultät für Naturwissenschaften der Universität Ulm. Ulm : Universität Ulm. Fakultät für Naturwissenschaften, 2011. J3-c38. Esangbedo C; Boehman AL; Perez JM: Characteristics of diesel engine soot that lead to excessive oil thickening - Tribology International 47, 2012, pp. 194-203 J3-c39. Artyushkova K.; Pylypenko S; Dowlapalli M; Atanassov P: Structure-to-property relationships in fuel cell catalyst supports: Correlation of surface chemistry and morphology with oxidation resistance of carbon blacks. Journal of Power Sources 214, 2012 pp. 303-313 J3-c40. Sakai M; Iguma H; Kondo K; Aizawa T: Nanostructure analysis of primary soot particles directly sampled in diesel spray flame via HRTEM. SAE Technical Papers 9, 2012


11/36

J3-c41. Mitchell JBA; LeGarrec JL; Saidani G; Lefeuvre F; Di Stasio S (2013). Synchrotron Radiation Studies of Additives in Combustion, III: Ferrocene. Energy & Fuels, 27(8), 4891-4898. J3-c42. Ghiassi H, Toth P, Lighty JS: Sooting behaviors of n-butanol and n-dodecane blends. Combust. Flame (ISSN: 0010-2180) 161: (3) pp. 671-679. (2014)

J4.

Á. B. Palotás; L. C. Rainey; A. F. Sarofim; J. B. Vander Sande; R. C. Flagan: Where did that Soot Come from? (Microstructural Analysis of Graphites) – Chemtech Vol. 28 No. 7. pp. 24-30 (1998) (IF = 1,017) J4-c1. Birkett D: The Lewis Bonfire Case – Chemical Innovation 30 (4): cover 3-3 APR 2000 J4-c2. Li S; Csontos AA; Gable BM, Passut CA; Jao T-C: Wear in cummins M-11/EGR test engines. SAE Technical Papers, 2002 J4-c3. Lima ALC; Farrington JW; Reddy CM: Combustion-Derived Polycyclic Aromatic Hydrocarbons in the Environment --A Review – Environmental Forensics, 6:109–131, 2005 J4-c4. Rodríguez-Fortea A; Iannuzzi M; Parrinello M.: Ab initio molecular dynamics study of heterogeneous oxidation of graphite by means of gas-phase nitric acid. Journal of Physical Chemistry B 110 (8): 3477-3484 2006 J4-c5. Dhaubhadel R; Gerving CS; Chakrabarti A; Sorensen CM: Aerosol gelation: Synthesis of a novel, lightweight, high specific surface area material - Aerosol Science and Technology 41 (8): 804-810 2007 J4-c6.

Rodriguez-Fortea, Antonio; Iannuzzi, Marcella; Parrinello, Michele: Ab initio molecular dynamics study of heterogeneous nitric acid decomposition reactions on graphite surfaces. In: Journal of Physical Chemistry C, 2007, Vol. 111, No. 5, pp. 2251-2258. DOI: 10.1021/jp066581h

J4-c7. Dhaubhadel R: An experimental study of dense aerosol aggregations. PhD Thesis, Kansas State University, 2008.

J5.

I. Szűcs; Á. B. Palotás; N. Hegman; I. Réz; M. Barth; L. Papp: Diagnostic Method for the Determination of Refractory Lining Thickness in High Temperature Equipment – Materials Science Forum Vols. 414-415 (2003) pp. 329-336 http://dx.doi.org/10.4028/www.scientific.net/MSF.414-415.329 J5-c1. Hasek P; Tvardek P; Molinek J; Václavik L; Jancar D: Full-scale research of ladle in new technological conditions of steelwork [7], (Provozní vyzkum pánve v novych technologickych podmínkách ocelárny); Proceedings „13th International Metallurgical and Materials Conference METAL 2004. 18-20. 05. 2004. Hradec nad Moravicí, Paper No. 196. p. 1-8. ISBN 80-85988-95-X

J6.

Shaddix, C. R.; Palotás, Á. B.; Megaridis, C. M.; Choi M. Y.; Yang N. Y. C.: Soot graphitic order in laminar diffusion flames and a large-scale JP-8 pool fire – Int. J. of Heat and Mass Transfer, Volume 48 (17), August 2005, pp. 3604-3614 (IF = 1,347) http://dx.doi.org/10.1016/j.ijheatmasstransfer.2005.03.006 J6-c1. Aggadi N; Arnas C; Bénédic F; Dominique C; Duten X; Silva F; Hassouni K; Gruen DM: Structural and chemical characterisation of soot particles formed in Ar/H2/CH4 microwave discharges during nanocrystalline diamond film synthesis. Diamond and Related Materials 15 (4-8): 908-912 Sp. Iss. SI APR-AUG 2006 J6-c2. Soewono A: Morphology and Microstructure of Diesel Particulates. MSc Diss., University of British Columbia, 2006 J6-c3. Bouvier Y: Caractérisation de Suies et de Précurseurs de Suies dans des Flammes par Incandescence Induite par Laser. PhD Diss., University of Lille, 2006


12/36

J6-c4. Ruiz MP; de Villoria RG; Millera A; Alzueta MU; Bilbao R: Influence of the temperature on the properties of the soot formed from C2H2 pyrolysis. Chemical Engineering Journal 127 (1-3): 1-9 MAR 1 2007 J6-c5. Steinhaus T; Welch S; Carvel R; Torero JL: Large-scale pool fires. Thermal Science Vol. 11 (2007), No. 2, pp. 101-118 J6-c6. Seul Hyun Park: Investigation of Sooting Behavior and Soot Nanostructures of Ethanol Droplet Flames in Microgravity. PhD Diss., Drexel University, 2007 J6-c7. Isil Ayranci Kilinc: A nonintrusive diagnostics technique for flame soot based on near-infrared emission spectroscopy. PhD Diss., Middle East Technical University J6-c8. Bladh H: On the Use of Laser-Induced Incandescence for Soot Diagnostics. PhD Diss., Lund University, 2007 J6-c9. Ring T; Sarofim A; Kelley K; Henriksen T; Call D; Eddings E: Effects of condensate layers on the light scattering of soot combustion aerosols, 2007, AIChE Annual Meeting, Conference Proceedings J6-c10. Henriksen T; Ring T; Call D; Eddings E; Sarofim AF: Determination of Soot Refractive Index as a Function of Height in an Inverse Diffusion Flame. 5th US Combustion Meeting, San Diego, March 25-27, 2007, Paper # D26 J6-c11. Khalid O Al-Qurashi: the impact of carbon dioxide and exhaust gas recirculation on the oxidative reactivity of soot from ethylene flames and diesel engines. A Thesis in Energy and Geo-Environmental Engineering. Dissertation. The Pennsylvania State University. The Graduate School Department of Energy and Geo-Environmental Engineering. The Penn State University, 2007. URL: https://etda.libraries.psu.edu/paper/7746/3034 J6-c12. Guillou E: Flame Characteristics and Applications of Flameless Combustion, MSc Diss., University of Cincinnati, 2008 J6-c13. Jans G.T.: Development of an experimental setup for soot volume fraction measurements in laminar diffusion flames of gaseous and liquid (bio)-fuels. MSc Diss., Eindhoven University of Technology, 2008 J6-c14. Desgroux P; Mercier X; Lefort B; Lemaire R; Therssen E and Pauwels JF: Soot volume fraction measurement in low-pressure methane flames by combining laserinduced incandescence and cavity ring-down spectroscopy: Effect of pressure on soot formation. Combustion and Flame, Vol. 155, Issue: 1-2, Pages: 289-301, 2008 J6-c15. Tregrossi A; Alfe M; Ciajolo A: UV-visible Spectra of Particulates caught on Quartz Plates in Rich Premixed Laminar Flames. Proceedings of the 31th Meeting on Combustion - Torino, June 17-20, paper VII-11 (2008) Torino J6-c16. Eastwood P: Particulate Emissions from Vehicles – John Wiley & Sons, ISBN 9780470724552, 2008 J6-c17. Choi SC: Measurement and Analysis of the Dimensionless Extinction Constant for Diesel and Biodiesel Soot: Influence of Pressure, Wavelength and Fuel-Type. PhD Diss., Drexel University, 2009 J6-c18. Ouf FX; Yon J; Ausset P; Coppalle A; Maille M: Influence of Sampling and Storage Protocol on Fractal Morphology of Soot Studied by Transmission Electron Microscopy. Aerosol Science and Technology, 44 (11), pp. 1005-1017 2010 J6-c19. Echavarria CA: Evolution of soot size distribution during soot formation and soot oxidation-fragmentation in premixed flames: experimental and modeling study. PhD Diss., University of Utah, 2010


13/36

J6-c20. Ring TA; Sarofim A; Kelly K; Eddings E: Effect of soot chemistry and structure on the uncertainty in the atmospheric aerosols irradiative forcing component - AIChE Annual Meeting, Conference Proceedings, 2010 J6-c21. Soewono Arka; Rogak Steven: Morphology and Raman Spectra of Engine-Emitted Particulates - Aerosol Science and Technology, 45 (10), 2011, pp. 1206-1216 J6-c22. Fernandez-Alos V; Watson JK; Van der Wal R; Mathews JP: Soot and char molecular representations generated directly from HRTEM lattice fringe images using Fringe3D - Combustion and Flame. 158 (9), 2011, pp.1807-1813 J6-c23. Al-Qurashi K; Lueking AD; Boehman AL: The deconvolution of the thermal, dilution, and chemical effects of exhaust gas recirculation (EGR) on the reactivity of engine and flame soot - Combustion and Flame, 158 (9), 2011, pp.1696-1704 J6-c24. Teini PD; Karwat DMA; Atreya A: Observations of nascent soot: Molecular deposition and particle morphology - Combustion and Flame, 158 (10), 2011, pp 2045-2055 J6-c25. Teini PD: Soot formation, composition, and morphology. PhD Diss. The University of Michigan, 2011. J6-c26. Bhowmick H; Biswas SK: Tribology of ethyleneair diffusion flame soot under dry and lubricated contact conditions - Journal of Physics D: Applied Physics 44 (48), art. no. 485401 J6-c27. Nathan GJ; Kalt PAM; Alwahabi ZT; Dally BB; Medwell PR; Chan QN: Recent advances in the measurement of strongly radiating, turbulent reacting flows – Progress in Energy and Combustion Science 38 (1), pp. 41-61 J6-c28. Bhowmick H, Majumdar SK, Biswas SK: Dry tribology and nanomechanics of gaseous flame soot in comparison with carbon black and diesel soot - Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 226 (2) , pp. 394-402 J6-c29. Esarte C; Callejas A; Millera Á; Bilbao R; Alzueta MU: Characterization and reactivity with NO/O2 of the soot formed in the pyrolysis of acetylene-ethanol mixtures - Journal of Analytical and Applied Pyrolysis 94, pp. 68-74 J6-c30. Karataş AE; Gülder OL: Soot formation in high pressure laminar diffusion flames Progress in Energy and Combustion Science 38 (6), 2012, pp. 818 – 845 J6-c31. Hauptmanns U; Shatzmann M; Schönbucher A; Schalike S; Plant and Process Safety, 6. Risk Analysis. Ullmann's Encyclopedia of Industrial Chemistry (2012). J6-c32. Colin Healey Smith: Studies of Rich and Ultra-Rich Combustion for Syngas Production. Dissertation Presented to the Faculty of the Graduate School of the University of Texas at Austin in Partial Fulfillment of the Requirements for the Degree of Doctor of Philosophy. The University of Texas at Austin, 2012 . URL: http://repositories.lib.utexas.edu/bitstream/handle/2152/19578/smith_dissertation_201 29.pdf J6-c33. Andrade Oliveira, M.H. de: Development and application of a laminar coflow burner for combustion studies at high pressure. Dissertation. Eindhoven: Technische Universiteit Eindhoven. X, 141 p. ISBN 978-90-386-3130-1 URL: http://alexandria.tue.nl/extra2/732108.pdf J6-c34. Smith CH; Pineda DI; Zak CD; Ellzey JL: Conversion of jet fuel and butanol to syngas by filtration combustion – International Journal of Hydrogen Energy 38 (2) , pp. 879-889 J6-c35. Mitchell JBA, LeGarrec JL, Saidani G, Lefeuvre F, di Stasio S: Synchrotron Radiation Studies of Additives in Combustion, III: Ferrocene, ENERGY & FUELS 27: (8) 48914898 (2013)


14/36

J6-c36. Manin J, Pickett LM, Skeen SA: Two-Color Diffused Back-Illumination Imaging as a Diagnostic for Time-Resolved Soot Measurements in Reacting Sprays. SAE International Journal of Engines 6: (4) (2013) J6-c37. Skeen, S. A., Manin, J., Dalen, K., & Pickett, L. M.: Extinction-based Imaging of Soot Processes over a Range of Diesel Operating Conditions. To be submitted to Combustion & Flame., 2013 J6-c38. Hayashida, K., Nagaoka, S., Ishitani, H.: Growth and oxidation of graphitic crystallites in soot particles within a laminar diffusion flame. In: Fuel, volume 128, 2014, pp. 148 – 154 J6-c39. Skeen S, Manin J, Pickett L, Dalen K, Ivarsson A: Quantitative spatially resolved measurements of total radiation in high-pressure spray flames. SAE Techni. Paper. 1: (2014) J6-c40. Ghiassi H, Toth P, Lighty JS: Sooting behaviors of n-butanol and n-dodecane blends. Combust. Flame (ISSN: 0010-2180) 161: (3) pp. 671-679. (2014) J6-c41. Xu, Z., Li, X., Guan, C., Huang, Z.: Effects of injection timing on exhaust particle size and nanostructure on a diesel engine at different loads . Journal of Aerosol Science volume 76, issue (2014) pp. 28 – 38 J6-c42. Apicella, B., Pré, P., Alfè, M., Ciajolo, A., Gargiulo, V., Russo, C., Tregossi A., Deldique D., Rouzaud, J. N.: Soot nanostructure evolution in premixed flames by high resolution electron transmission microscopy (HRTEM). Proceedings of the Combustion Institute., 2014. J6-c43. Ma, B., Cao, S., Giassi, D., Stocker, D. P., Takahashi, F., Bennett, B. A. V., M. D. Smooke & Long, M. B. (2014). An experimental and computational study of soot formation in a coflow jet flame under microgravity and normal gravity. Proceedings of the Combustion Institute., 2014

J7.

Yan, S.; Eddings, E. G.; Palotás, Á. B.; Pugmire, R. J.; Sarofim A. F.: Prediction of Sooting Tendency for Hydrocarbon Liquids in Diffusion Flames – Energy and Fuels, 19 (6), 2005, pp. 2408-2415 (IF = 1,494) http://dx.doi.org/10.1021/ef050107d J7-c1. McEnally CS, Pfefferle LD – Improved sooting tendency measurements for aromatic hydrocarbons and their implications for naphthalene formation pathways – Combustion and Flame 148 (4): 210-222 MAR 2007 J7-c2. Allan Kathryn Mead: Laminar Smoke Points of Candle Flames (MS Thesis) – University of Maryland Theses and Dissertations: http://hdl.handle.net/1903/6938 J7-c3. Sunderland PB: Laminar Smoke Points of Condensed Fuels - International Workshop on Combustion-Generated Fine Carbon Particles - Anacapri, Italy, May 13-16, 2007. pp. 71-74 J7-c4. Phuong TM; Crossley S; Santikunaporn M and Resasco DE: Catalytic strategies for improving specific fuel properties – Catalysis, 2007, 20, 33–64 J7-c5. Eastwood P: Particulate Emissions from Vehicles – John Wiley & Sons, ISBN 9780470724552, 2008 J7-c6. Pepiot-Desjardins P; Pitsch H; Malhotra R; Kirby SR; Boehman AL: Structural group analysis for soot reduction tendency of oxygenated fuels – Combustion and Flame 154 (1-2): 191-205 JUL 2008 J7-c7. Crossley SP; Alvarez WE; Resasco DE: Novel micropyrolyis index (MPI) to estimate the sooting tendency of fuels – Energy & Fuels 22 (4): 2455-2464 JULAUG 2008. J7-c8. Perrine Pepiot: Automatic strategies to model transportation fuel surrogates. A dissertation submitted to the department of mechanical engineering and the


15/36

committee on graduate studies of Stanford University in partial fulfillment of the requirements for the degree of Doctor of Philosophy. Cornell University, 2008. URL: http://pepiot.mae.cornell.edu/pdf/Pepiot_Thesis.pdf J7-c9. Pitsch H: Chemical Modeling of Large-Eddy Simaulation of Turbulent Combustion. Final report. Stanford University, 2009 J7-c10. Allan KM; Kaminski JR; Bertrand JC; Head J; Sunderland PB: Laminar Smoke Points of Wax Candles – Combustion Science and Technology 181 (5): 800-811, 2009 J7-c11. Lyon RE; Takemori MT; Safronava N; Stoliarov SI; Walters RN: A molecular basis for polymer flammability – Polymer 50 (12): 2608-2617, JUN 5 2009 J7-c12. Lecoustre VRF: Numerical Investigations of Gaseous Spherical Diffusion Flames – PhD Thesis, University of Maryland. http://hdl.handle.net/1903/9966 J7-c13. Mensch A; Santoro RJ; Litzinger TA; Lee S-Y: Sooting characteristics of surrogates for jet fuels – 47th AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition , art. no. 2009-1525 J7-c14. Amy Mensch: A study on the sooting tendency of jet fuel surrogates using the threshold soot index. A Thesis in Mechanical Engineering. The Pennsylvania State University, The Graduate School, College of Engineering. 2009. URL: https://etda.libraries.psu.edu/paper/9540/4823 J7-c15. Mensch A; Santoro, RJ; Litzinger TA; Lee S-Y: Sooting characteristics of surrogates for jet fuels – Combustion and Flame 157 (6), 2010, pp. 1097-1105 J7-c16. Barrientos EJ; Boehman AL: Examination of the Sooting Tendency of Three-Ring Aromatic Hydrocarbons and Their Saturated Counterparts – Energy and Fuels 24 (6), 2010, pp. 3479-3487 J7-c17. Bruno TJ; Smith BL: Evaluation of the Physicochemical Authenticity of Aviation Kerosene Surrogate Mixtures. Part 1: Analysis of Volatility with the Advanced Distillation Curve – Energy and Fuels 24 (8), 2010, pp. 4266-4276 J7-c18. Dooley S; Won SH; Chaos M; Heyne J; Ju Y; Dryer FL; Kumar K; Sung C-J; Wang H; Oehlschlaeger MA; Santoro RJ; Litzinger TA: A jet fuel surrogate formulated by real fuel properties Combustion and Flame, 157 (12), 2010, pp. 2333 – 2339 J7-c19. Gerasimov IE; Knyazkov DA; Shmakov AG; Paletsky AA; Shvartsberg VM; Bolshova TA; Koronbenichev OP: Inhibition of hydrogen-oxygen flames by iron pentacarbonyl at atmospheric pressure – Proc. of the Comb. Inst. Vol. 33, 2011, 2523-2529 J7-c20. Armas O; Gomez MA; Barrientos EJ; Boehman AL: Estimation of Opacity Tendency of Ethanol- and Biodiesel-Diesel Blends by Means of the Smoke Point Technique - Energy & Fuels 25 (7) SI, 2011, pp.: 3283-3288 J7-c21. Mehl M; Chen JY; Pitz WJ; Sarathy, S.M.; Westbrook, C.K.: An approach for formulating surrogates for gasoline with application toward a reduced surrogate mechanism for CFD engine modeling - Energy & Fuels 25 (11), 2011, pp. 52155223 J7-c22. Dooley S; Won SH; Heyne J; Farouk TI; Ju Y; Dryer FL; Kumar K; Hui X.; Sung CJ; Wang H; Oehlschlaeger MA; Iyer V; Iyer S; Litzinger TA; Santoro RJ; Malewicki T; Brezinsky K: The experimental evaluation of a methodology for surrogate fuel formulation to emulate gas phase combustion kinetic phenomena – Combustion and Flame 159 (4), 2012, pp. 1444-1466 J7-c23. Li L; Sunderland PB: An improved method of smoke point normalization. Combustion Science and Technology 184 (6), 2012, pp. 829-841


16/36

J7-c24. Iyer, V. R.: Effect of Aromatic Components in Surrogate Fuels on Soot in Co-flow Flames and a Model Gas Turbine Combustor. PhD dissertation, The Pennsylvania State University, 2012. J7-c25. Nasseri, S. A. Development of Surrogates for Aviation Jet Fuels PhD dissertation, University of Toronto, 2013 J7-c26. Joo PH; Wang Y; Raj A; Chung AH: Sooting limit in counterflow diffusion flames of ethylene/propane fuels and implication to threshold soot index. PROCEEDINGS OF THE COMBUSTION INSTITUTE 34, 2013, pp. 1803-1809 J7-c27. Ditch BD, de Ris JL, Blanchat TK, Chaos M, Bill RG, Dorofeev SB: Pool fires - An empirical correlation. Combustion and Flame 160: (12) 2964-2974 (2013) J7-c28. Li L, Sunderland PB: Smoke points of fuel-fuel and fuel-inert mixtures. Fire Safety Journal 61: 226-231 (2013) J7-c29. Narayanaswamy, K., Pepiot, P., & Pitsch, H.: Jet fuels and Fischer-tropsch fuels: surrogate definition and chemical kinetic modeling. In US National Combustion Meeting. (2013, May) J7-c30. Wang Y., Chung SH: Sooting limit of various gaseous hydrocarbon fuels in counterflow diffusion flames. Proceedings of the 9th Asia-Pacific Conference on Combustion, ASPACC 2013, Gyeongju; South Korea; May 19-22, 2013; Code 106598 J7-c31. Authors of Document Haas, F.M., Qin, A., Dryer, F.L.: “Virtual” smoke point determination of alternative aviation kerosenes by threshold sooting index (TSI) methods. 50th AIAA/ASME/SAE/ASEE Joint Propulsion Conference and exhibit 2014; Cleveland; United States; 28 July 2014 through 30 July 2014; Code 109509

J7-c32. Wang Y, Chung SH: Effect of strain rate on sooting limits in counterflow diffusion flames of gaseous hydrocarbon fuels: Sooting temperature index and sooting sensitivity index. Combustion and Flame 161: (5) pp. 1224-1234. (2014) J7-c33. Dryer FL, Jahangirian S, Dooley S, Won SH, Heyne J, Iyer VR, Litzinger TA, Santoro RJ: Emulating the combustion behavior of real jet aviation fuels by surrogate mixtures of hydrocarbon fluid blends: Implications for science and engineering. Energy Fuels (ISSN: 1520-5029) 28: (5) pp. 3474-3485. (2014) J7-c34. Betancourt, E. J. B. Impact of Oxygenated Fuels on Sooting Tendency and Soot Oxidative Reactivity with Application to Biofuels., PhD dissertation, The Pennsylvania State University, 2014.

J8.

Marsh, N. D.; Preciado, I.; Eddings, E. G.; Sarofim, A. F.; Palotas, A. B.; Robertson, J. D.: Evaluation of Organometallic Fuel Additives for Soot Suppression – Combustion Science and Technology, 179 (5), pp. 987-1001, 2007. (IF = 0,984) http://dx.doi.org/10.1080/00102200600862497 J8-c1. Kim KB; Masiello KA; Hahn DW: Reduction of soot emissions by iron pentacarbonyl in isooctane diffusion flames – Combustion and Flame 154 (1-2): 164-180 JUL 2008 J8-c2. Laws DR; Chong DS; Nash K; Rheingold AL; Geiger WE: Cymantrene radical cation family: Spectral and structural characterization of the half-sandwich analogues of ferrocenium ion – Journal of the American Chemical Society 130 (30): 9859-9870 JUL 2008 J8-c3. Allan KM; Kaminski JR; Bertrand JC; Head J; Sunderland PB: Laminar Smoke Points of Wax Candles – Combustion Science and Technology 181 (5): 800-811, 2009 J8-c4.

Teo Shihui: Syntheses and catalysis of transition-metal complexes with hemilabile ligands. A Thesis submitted for the Degree Of Doctor Of Philosophy Department Of Chemistry National University Of Singapore. University of Singapore, 2010. URL: http://scholarbank.nus.sg/handle/10635/21121

Dr. Palotás Árpád Bence – részletes publikációs jegyzék (2015. 03 12. 13:40) J8-c5.

17/36

Part V: Emerging Uses. In: Distillers grains: Production, Properties, and Utilization / ed. by KeShun Liu and Kurt A. Rosentrater. - Boca Raton: AK Peters/CRC Pres, 2012. ISBN-13: 978-1439817254. pp. 428-504.

J8-c6. Gerasimov IE; Knyazkov DA; Shmakov AG; Paletsky AA; Shvartsberg VM; Bolshova TA; Korobeinichev OP: Structure of an atmospheric-pressure H2/O2/N 2 flame doped with iron pentacarbonyl - Combustion, Explosion and Shock Waves 47 (1), pp. 1-11 J8-c7. Gerasimov IE; Knyazkov DA; Shmakov AG; Paletsky AA; Shvartsberg VM; Bolshova TA, Korobeinichev OP: Inhibition of hydrogen-oxygen flames by iron pentacarbonyl at atmospheric pressure. Proceedings of the Combustion Institute 33 (2), 2011, pp. 2523 – 2529 J8-c8.

I. E. Gerasimov, D. A. Knjaz'kov, A. G. Smakov, A. A. Paleckij, V. M. Svarcberg, T. A. Bol'sova, O. P. Korobejnicev: Struktura plameni H2/O2/N2 s dobavkoj pentakarbonila zseleza pri atmoszfernom davlenii [in Russian]. In: Fizika gorenija i vzryva: naučno-teoretičeskij žurnal = The physics of combustion and explosion (Novosibirsk), 2011, Vol. 47, No. 1, pp. 3-14. URL: http://www.kinetics.nsc.ru/comp/comp2011/shvarts2.pdf

J8-c9. Dotson KT; Sunderland PB; Yuan Z-G; Urban DL: Laminar smoke points of coflowing flames in microgravity, Fire Safety Journal 46 (8) , pp. 550-555 J8-c10. Wu ZP; Butler IS: Investigation on the synthesize reaction possibility of M(CO) 2CYPh 3XR(M=Cr, Mn; X=Sn, Ge; Y=S, Se; R= N(C 4H 4), N(C 8H 6), C 6H 5) Advanced Materials Research 396-398 , pp. 56-65 J8-c11. Romanov AS; Angles GF; Antipin MY; Timofeeva TV: Tricarbonyl(η 5-formylcyclopentadienyl)manganese(I) and tricarbonyl(η 5-formylcyclopentadienyl) rhenium(I) containing short π(CO)⋯π(CO) and π(CO)⋯π interactions, Acta Crystallographica Section C: Crystal Structure Communications, 68 (3), pp. m69-m72 J8-c12. Ma Y; Zhu M; Zhang D: The effect of a homogeneous combustion catalyst on exhaust emissions from a single cylinder diesel engine – Applied Energy 102 (2013), pp. 556562 J8-c13. Zhang D; Ma Y; Zhu M: Nanostructure and oxidative properties of soot from a compression ignition engine: The effect of a homogeneous combustion catalyst, Proceedings of the Combustion Institute 34 (1), 2013, pp. 1869-1876 J8-c14. Herring MP; Potter PM; Wu HY; Lomnicki S; Delinger B.: Fe2O3 nanoparticle mediated molecular growth and soot inception from the oxidative pyrolysis of 1methylnaphthalene. PROCEEDINGS OF THE COMBUSTION INSTITUTE 34, 2013, pp. 1749-1757 J8-c15. Herring P; Khachatryan L; Lomnicki S and Dellinger B: Paramagnetic centers in particulate formed from the oxidative pyrolysis of 1-methylnaphthalene in the presence of Fe(III)2O3 nanoparticles. Combustion and Flame, 2013 J8-c16. Lenin MA, Swaminathan MR, Kumaresan G: Performance and emission characteristics of a DI diesel engine with a nanofuel additive. Fuel 109: 362-365 (2013) J8-c17. Fard MA, Khalili Najafabadi B, Hesari M, Workentin MS, Corrigan JF: New

polydentate trimethylsilyl chalcogenide reagents for the assembly of polyferrocenyl architectures. Chem. Eur. J. (ISSN: 1521-3765) 20: (23) pp. 7037-7047. (2014)

J9. Szemmelveisz, K.; Szűcs, I.; Palotás, Á. B.; Winkler, L.; Eddings, E. G.: Examination of the combustion conditions of herbaceous biomass, Fuel Processing Technology 90 (2009), pp. 839-847 (IF: 2,781, 2010-es adat) http://dx.doi.org/10.1016/j.fuproc.2009.03.001


18/36

J9-c1.

TONG Wei, LIU Bai-qian: Study of combustion process and kinetic characteristics of biomass pellet fuels. [in Chinese] In: Renewable Energy Resources, 2009, Vol. 27, No. 6. pp. 58-62.

J9-c2.

Niu Y; Tan H; Wang X, Liu Z; Liu Y; Xu T: Study on deposits on the surface, upstream, and downstream of bag filters in a 12MW biomass-fired boiler – Energy and Fuels 24 (3), 2010, pp. 2127-2132

J9-c3.

Fouilland T; Grace JR; Ellis N: Recent advances in fluidized bed technology in biomass processes, Biofuels 1 (3), 2010, pp. 409-433

J9-c4.

Arromdee P; Kuprianov VI; Kaewklum R; Sirisomboon K: Experimental Study on Combustion of Sunflower Shells in a Pilot Swirling Fluidized-Bed Combustor Energy and Fuels 24 (7), 2010, pp. 3850-3859

J9-c5.

Liu Z; Tan H; Niu Y; Liu, Y; Wang X; Zhen H; Song H; Yu J: Analysis of effect of NH4Cl in soil on the slagging in biomass boiler – Proceedings of the Chinese Society of Electrical Engineering 30 (26), 2010, pp. 82-85

J9-c6.

Niu Y; Tan H; Ma L; Pourkashanian M; Liu Z; Liu Y; Wang X; (...), Xu T: Slagging characteristics on the superheaters of a 12 MW biomass-fired boiler, Energy and Fuels 24 (9), 2010, pp. 5222-5227

J9-c7.

Ribeiro AM; Santos JC; Rodrigues AE: PSA design for stoichiometric adjustment of bio-syngas for methanol production and co-capture of carbon dioxide. Chemical Engineering Journal 163 (3) 2010, pp. 355-363

J9-c8.

Niu Y; Tan H; Wang X; Liu Z; Liu H; Liu Y; Xu T: Study on fusion characteristics of biomass ash – Bioresource Technology, 101 (23), 2010, pp. 9373-9381

J9-c9.

Healy M; Toupin K: Biofuel Conversions: First Step – Fuel Selections. Clean Coal Conference, Clearwater, FL, USA, 2010, T-216

J9-c10. Virani T: The economic feasibility of bioenergy production from Miscanthus for the Ontario greenhouse industry. PhD Diss. The University of Guelph, 2011. J9-c11. Fajman M; Cerkal R; Kamler J; Mareček V: Sunflower - Bioenergy utilization International Journal of Energy, Environment and Economics 19 (6), 2011, pp. 653698 J9-c12. Fajman M, Cerkal R, Kamler J, Mareček V: Sunflower - bioenergy utilization. In: Sunflowers: Cultivation, Nutrition, and Biodiesel Uses. Nova Science Publishers, Inc., 2011. (ISBN 9781617613098) pp. 1-45. J9-c13. Fang X; Jia L: Experimental study on ash fusion characteristics of biomass. Bioresource Technology 104, 2012, pp. 769-774 J9-c14. Li Z; Zhai H; Zhang Y; Yu L: Cell morphology and chemical characteristics of corn stover fractions – Industrial Crops and Products 37 (1), 2012 , pp. 130-136 J9-c15. Long J; Song H; Jun X; Sheng S; Lun-Shi S; Kai X; Yao Y: Release characteristics of alkali and alkaline earth metallic species during biomass pyrolysis and steam gasification process. Bioresource Technology 116, 2012, pp. 278-284 J9-c16. Fernández RG; García CP; Lavín AG; Bueno De Las Heras JL: Study of main combustion characteristics for biomass fuels used in boilers. Fuel Processing Technology 103, 2012, pp. 16-26 J9-c17. Wang L; Becidan, M.; Skreiberg, O.: Sintering behavior of agricultural residues ashes and effects of additives – Energy and Fuels 26 (9), 2012, pp. 5917-5929 J9-c18. Fang X; Jia LO; Yin L: A weighted average global process model based on twostage kinetic scheme for biomass combustion – Biomass and Bioenergy 48, pp. 4350


19/36

J9-c19. Niu Y; Liu Y; Tan H; Xiong Y; Xu T: Origination and formation of NH4Cl in biomass-fired furnace – Fuel Processing Technology 106, pp. 262-266 J9-c20. Vassilev SV; Baxter D; Andersen LK; Vassileva CG: An overview of the composition and application of biomass ash. Part 1. Phase-mineral and chemical composition and classification, Fuel 105, pp. 40-76 J9-c21. Vassilev SV, Baxter D, Vassileva CG: An overview of the behaviour of biomass during combustion: Part I. Phase-mineral transformations of organic and inorganic matter. In: FUEL 112: pp. 391-449. (2013) J9-c22. Woolcock PJ; Brown RC: A review of cleaning technologies for biomass-derived syngas. Biomass and Bionergy, 52, 2013, pp. 54-84 J9-c23. Cardozo E; Erlich C; Alejo L and Fransson TH: Combustion of agricultural residues: An experimental study for small-scale applications. Fuel 115, 2014, pp. 778-787 J9-c24. Niu Y, Zhu Y, Tan H, Hui S, Jones JM, Liu Y: A calculation method of biomass slagging rate based on crystallization theory. Asia-Pac. J. Chem. Eng. (ISSN: 19322143) 9: (3) pp. 456-463. (2014) J9-c25. Fagerström J, Näzelius I-L, Gilbe C, Boström D, Öhman M, Boman C: Influence of peat ash composition on particle emissions and slag formation in biomass grate cocombustion. Energy Fuels (ISSN: 1520-5029) 28: (5) pp. 3403-3411. (2014) J9-c26. Febrero, L., Granada, E., Pérez, C., Patiño, D., & Arce, E. Characterisation and comparison of biomass ashes with different thermal histories using TG-DSC. Journal of Thermal Analysis and Calorimetry, 1-12. J9-c27. Said, N; Daiem, MMA; Garcia-Maraver,; Zamorano, M: Reduction of Ash Sintering Precursor Components in Rice Straw by Water Washing. Bioresources, 9 (4) pp 6756-6764

J10. Tóth, P.; Palotás, Á. B.; Lighty, J.; Echavarria C.A.: Quantitative differentiation of poorly ordered soot nanostructures: a semi-empirical approach, Fuel 99, 2012, p. 1-6 (IF: 3,357) http://dx.doi.org/10.1016/j.fuel.2012.04.013 J10-c1.

J11. P. Tóth; Á. B. Palotás; E. G. Eddings; R. T. Whitaker and J. S. Lighty: A novel framework for the quantitative analysis of high resolution transmission electron micrographs of soot I. - improved measurement of interlayer spacing. Combustion and Flame, 160 (5), 2013, pp. 909-919 (IF: 3,708) http://dx.doi.org/10.1016/j.combustflame.2013.01.002 J11-c1. Apicella B; Alfè M; Ciajolo A; Gargiulo V; Pré P; Rouzaud JN: Soot structure by high resolution electron transmission microscopy (HR-TEM) image analysis: current potentialities and perspectives, XXXVI Meeting of the Italian Section of the Combustion Institute, Isola di Procida, June 13-15, 2013 J11-c2. Apicella, B., Pré, P., Alfè, M., Ciajolo, A., Gargiulo, V., Russo, C., Tregossi A., Deldique D., Rouzaud, J. N.: Soot nanostructure evolution in premixed flames by high resolution electron transmission microscopy (HRTEM). Proceedings of the Combustion Institute, 2014. J11-c3. Farbos, B; Weisbecker, P; Fischer, HE; Da Costa, JP; Lalanne, M; Chollon, G; Germain, C; Vignoles, GL; Leyssale, JM: Nanoscale structure and texture of highly anisotropic pyrocarbons revisited with transmission electron microscopy, image processing, neutron diffraction and atomistic modeling. CARBON 80, pp 472-489


20/36

J12. P. Tóth; Á. B. Palotás; E. G. Eddings; R. T. Whitaker and J. S. Lighty: A novel framework for the quantitative analysis of high resolution transmission electron micrographs of soot II. - robust multiscale nanostructure quantification. Combustion and Flame, 160 (5), 2013, pp. 920-932 (IF: 3,708) http://dx.doi.org/10.1016/j.combustflame.2013.01.003 J12-c1. T. Torvela, J. Tissari, O.Sippula, T. Kaivosoja, J. Leskinen, A. Virén, A. Lahde, J. Jokiniemi: Effect of wood combustion conditions on the morphology of freshly emitted fine particles . In: Atmospheric Environment 87: pp. 65-76. 2014 J12-c2. Apicella, B., Pré, P., Alfè, M., Ciajolo, A., Gargiulo, V., Russo, C., Tregossi A., Deldique D., Rouzaud, J. N.: Soot nanostructure evolution in premixed flames by high resolution electron transmission microscopy (HRTEM). Proceedings of the Combustion Institute, 2014.

J13. P. Tóth; J. K. Farrer; Á. B. Palotás; J. S. Lighty and E. G. Eddings: Automated analysis of heterogeneous carbon nanostructures by high-resolution electron microscopy and on-line image processing. Ultramicroscopy 129 (2013), pp. 53-62 (IF: 2.745) http://dx.doi.org/10.1016/j.ultramic.2013.02.017 J14. Á. B. Palotás: Scanning Transmission Electron Microscopy Analysis of Diesel Soot Particles for Source Attribution. Materials Science Forum, Vol 752 (2013), pp. 304313 http://dx.doi.org/10.4028/www.scientific.net/MSF.752.304 J15. H. Kovács; K. Szemmelveisz and Á. B. Palotás: Solubility analysis and disposal options of combustion residues from plants grown on contaminated mining area. Environmental Science and Pollution Research. 20 (11), pp. 7917-7925 (2013) (IF: 2,757) http://dx.doi.org/10.1007/s11356-013-1673-2 J16. P Tóth, Z. Zhan, Z. Fu, Á B. Palotás, E. G. Eddings, T. A. Ring: The potential of online optical flow measurement in the control and monitoring of pilot-scale oxy-coal flames. Experiments in Fluids, Volume: 55, Issue: 5, Article Number: 1727 (2014). (IF: 1,907) http://dx.doi.org/10.1007/s00348-014-1727-3 J17. Z. Dobó, H. Kovács, P. Tóth, Á. B. Palotás: Investigation of natural gas theft by magnetic remanence mapping - FORENSIC SCIENC INTERNATIONAL 245: pp. 16. (2014) (IF: 2.115* )

OJ. Egyéb folyóiratcikkek OJ1.

Palotás Á. B.: Boltozatiégős kemencék hőmérsékletviszonyainak vizsgálata – Borsodi Műszaki–Gazdasági Élet, 1990/3. pp. 44-45

OJ2.

Palotás Á. B.: Modell toló- és léptetőgerendás szimulációjára – BKL Kohászat, 1992/7-8. pp. 257-264

OJ3.

Szűcs I.; Palotás Á. B.; Hegman N.: A sugárzási tényező inhomogenitásának hatása a felületi hőmérséklet eloszlására tűzálló falazatok termovíziós vizsgálatánál – Anyagés Kohómérnöki Tudományok (A Miskolci Egyetem közleményei), Miskolc, 28. (2000) pp. 77-86

OJ4.

R. Makó; Á. B. Palotás; I. E. Sajó.: The effect of the source of amorphous carbon upon its structure – Anyagok Világa (független elektronikus szakmai folyóirat), ISSN 15860140, II. évf. 1. szám, 2001. január

kemencék hőmunkájának


21/36

OJ5.

R. Makó; Á. B. Palotás: Study of the Structure of Carbon Black and Soot Particulates – Acta Mechanica Slovaca, Kosice, Slovakia, 3/2001. ISSN 1335-2393, pp. 279-283

OJ6.

Makó R.; Palotás Á. B.: Szénalapú környezetszennyezők és műkormok röntgendiffrakciós elemzése – Labinfó, X. 2001/6, pp. 39-42

OJ7.

Makó R.; Palotás Á. B.: Amorf szénrészecskék röntgendiffrakciós vizsgálata – Miskolci Egyetem közleményei, Anyag- és Kohómérnöki Tudományok, Miskolc, 29 (2001), pp. 49-57

OJ8.

Palotás Á. B.; Sarofim, A. F.; Montgomery, C. J.; Eddings, E. G.; Dunn, B.: Adalékok hatása az üzemanyag korompontjára – Miskolci Egyetem közleményei, Anyag- és Kohómérnöki Tudományok, 31. kötet (2003) pp. 55-63

OJ9.

Szemmelveiszné H. K.; Szűcs I.; Palotás Á. B.; Winkler L: Biomasszák és hulladékok erőműi hasznosítása – Mechatronika, Anyagtudomány, Miskolc, Vol 1, No. 3 (2007), HU ISSN 1589-827X, pp.51-62

OJ10. Winkler L.; Hegman N.; Raffay Cs.; Palotás Á. B.: Földgáztüzelés szabályozása ionáram felhasználásával – Mechatronika, Anyagtudomány, Miskolc, Vol 1, No. 3 (2007), HU ISSN 1589-827X, pp.121-128 OJ11. Palotás Á. B.: Honnan származik a korom? – OTKA Magazin, 2007. június, http://www.otka.hu/index.php?akt_menu=3564 OJ12. K. Valler; Á. Wopera; Á. B. Palotás: Staged Combustion of High H2 Content Synthesis Gas with Natural Gas – University of Miskolc Proceedings, Material Sciences and Engineering, vol. 33 (2007) pp. 49-61 OJ13. L. Winkler; K. Szemmelveisz; Á. B. Palotás: Combustion of Alternative Fuels in Power Plants – University of Miskolc Proceedings, Material Sciences and Engineering, vol. 33 (2007) pp. 63-71 OJ14. Winkler L.; Raffay Cs.; Á. B. Palotás: Kísérleti tüzelésszabályozás megvalósítása – A Miskolci Egyetem közleményei, Anyagmérnöki tudományok.. 34 I. (2008) pp. 15-24 OJ15. P. Tóth; K. Szemmelveisz; Á. B. Palotás: Co-combustion of Sewage Sludge with Wood Chips – University of Miskolc Proceedings, Material Sciences and Engineering, vol. 34 II. (2009) pp. 69-76 OJ16. Nagy G.; Szemmelveisz Tné.; Szűcs I.; Á. B. Palotás: Lakossági célú biomassza tüzelés elterjesztésének időszerűsége és korlátai – e-Tudomány (2009) – Zöld különszám, pp. VII 1-28 OJ17. Palotás Á. B.: Beszámoló az Energia- és Minőségügyi Intézetről (2006-2011) – BKL Kohászat, 2011 144 (2) pp. 52-54 OJ18. Vass L. Nagy J., Béres L., Palotás Á. B.: Decentralizált, közösségi, megújuló energiatermelés a hazai vidékfejlesztésben – Energiagazdálkodás 52 (4) (2011) pp. 36 OJ19. Szűcs I.; Nagy G.; Palotás Á. B.; Csőke B.; Nagy S. - Boros É.: Biomassza és szilárd települési hulladék alapú másod tüzelőanyag kifejlesztésének időszerűsége - Miskolci Egyetem Közleményei Anyagmérnöki Tudományok II. sorozat, 36. kötet 2011, Miskolc, pp.69-78, ISSN 1789-7661 OJ20. Kovács H., Szemmelveisz K., Palotás Á. B.: Nehézfémekkel szennyezett bányaterületről származó nyír, fenyő és akác eltüzelésekor keletkező hamu deponálásának lehetőségei – Energiagazdálkodás 53 (1) (2012) pp. 3-6


22/36

OJ21. Dúl R.; Palotás Á. B.; Jármai K. – Barkóczy P.: Primer és szekunder égési levegőt előmelegítő hőcserélő fejlesztése kandallóhoz - Gép, 63 (2) (2012), pp. 19-22 OJ22. Béres L.; Palotás Á. B.: A „London Terv” Klímaváltozás-enyhítési és Energia Stratégiája – Magyar Energetika 19 (2) (2012) pp. 20-23 OJ23. Dobó Zs.; Palotás Á. B.: Vizsgálatok lakossági gázmérők mágneses manipulálásának utólagos kimutathatóságára – Magyar Energetika 19 (2) (2012) pp. 44-47 OJ24. Nemes A.; Palotás Á. B.: A szilárd tüzelés és a közlekedés együttes hatása okozta szmog csökkentésére irányuló módszer – Magyar Energetika 19 (2) (2012) pp. 10-11 OJ25. Dobó Zs.; Palotás Á. B.: Lakossági gázmérők mágneses manipulálásának utólagos kimutathatósága – Víz, gáz, fűtéstechnika 13 (5) (2012) pp. 42-45 OJ26. Nemes A.; Palotás Á. B.: A szmog csökkentésére irányuló módszer – Víz, gáz, fűtéstechnika 13 (5) (2012) pp. 58-60 OJ27. Palotás Á. B.: Biomassza tüzeléstől a maradó mágnesesség vizsgálatáig. Magyar Energetika, különszám (2012)., pp. 2-7 OJ28. Dobó Zs., Palotás Á. B.: Lakossági gázmérők mérőszerkezetében kialakuló bemaródások vizsgálata. Magyar Energetika, 20 (1) (2013), pp. 28-31. OJ29. Dobó Zs.; Palotás Á. B.: Lakossági gázmérők mérőszerkezetében kialakuló bemaródások vizsgálata. – Víz, gáz, fűtéstechnika, 14 (3) (2013) pp. 30-36.

JP. Folyóiratcikkek tudomány- és oktatás-politikáról, ismeretterjesztés, stb JP1. Palotás Á. B.: Fiatal műszaki kutatók helyzete itthon és külföldön – Hivatás és hitvallás, Budapest, Mundus kiadó, 1998. pp. 481-486.

P. Nemzetközi konferencia kiadványokban publikált cikkek P1.

Á. B. Palotás – L. C. Rainey – A. F. Sarofim – J. B. Vander Sande: Quantification of Soot Structure – Proceedings of the 1995 A&WMA/U.S. EPA International Symposium on the Measurement of Toxic and Related Air Pollutants, 1995.

P2.

D. C. Bell – L. C. Rainey – Á. B. Palotás – J. B. Vander Sande: Microanalysis of Soot Particulates Using STEM – Materials Research Society Symposium proceedings (1998) 502 p.281-286 P2-c1. De Gregorio, B. T. (2006). Structure, bonding, and composition of carbonaceous material in Precambrian cherts (Vol. 67, No. 11).

P3.

Á. B. Palotás – I. Szűcs – N. Hegman – I. Réz: Modeling the Heat Transport Processes in the Refractory Lining o a Pig Iron Mixer – XIII. Conference on Refractories, Prága, 2000. március 28-29. pp. 163-171

P4.

I. Szűcs – Á. B. Palotás – N. Hegman – J. Mikó: Investigation of the Refractory Lining Wearing Process of a Steel Plant Mixer Furnace – 1st Industrial Furnaces and Refractory Materials Conference, Kosice, Nov 7-8, 2000. pp. 110-114

P5.

I. Szűcs – Á. B. Palotás – N. Hegman: Determination of the Refractory Lining Thickness of a Steel Plant Mixer Furnace Using Thermovision – Metal 2000, 9th Metallurgical Conference, Ostrava, 2000. május 16-18. pp. 134-141.


P6.

23/36

I. Szűcs – Á. B. Palotás – N. Hegman – J. Mikó – Z. Zubács: Method for the determination of dangerously thinned areas of a steel plant mixer furnace lining – Metal 2001, 10th Metallurgical Conference, Ostrava, May 15-17, 2001. Symposium A, Session 3. No. 222/32, Paper no 114. pp. 1-8. ISBN 80-85988-56-9. P6-c1. Hašek, P., Tvardek, P., Molínek, J., Václavík, L., & Jancar, D.: Models for automatized control system of steelwork and optimization of thermal work of ladle. - Proceedings „13th International Metallurgical and Materials Conference METAL 2004. 18-20. 05. 2004. Hradec nad Moravicí, Abstract p.34., Paper No. 197. p. 1-6., ISBN 80-85988-95-X

P7.

Á. B. Palotás – R. Makó – E. I. Sajó: Comparative analysis of soots based on XRD measurements – Silezian University Scientific Conference, Katowice, Poland, May 10, 2001. pp. 1-8

P8.

R. Makó R. – Á. B. Palotás – E. I. Sajó: X-Ray Diffraction Analysis of Amorphous Carbon Particulates – 12th Int. Conf. on Thermal Engineering and Thermogrammetry, Budapest, 2001. június 13-15, pp. 230-235

P9.

Á. B. Palotás – I. Szűcs – N. Hegman: Investigation and mathematical modeling of a furnace wall deterioration – 52th Berg- und Hüttenmannischen Tag, Freiberg, Germany, June 21-22, 2001, Freiberger Forschungshefte, A 865 Energie (ISBN 3-86012-146-4), 2001. pp. 75-84

P10. I. Szűcs – Á. B. Palotás – L. Papp: Determination of Refractory Lining thickness of High Temperature Equipment Using Thermovision – 13th International Conference on Thermal Engineering and Thermogrammetry, Budapest, 2003. június 18-20. pp. 427432 P11. Á. Wopera – I. Szűcs – E. Wagnerová – Á. B. Palotás: Two-Stage Firing of BiogasNatural Gas Fuel Mixture – European Combustion Meeting 2003, Orléans, Franiaország, 2003. október 25-28., CD proceedings Vol. 1 pp. 1-5 P12. I. Szűcs – Á. Wopera – K. Szemmelveisz – J. Mikó – Á. B. Palotás: Effect of Biomass Burning on the Environment – European Combustion Meeting 2003, Orléans, Franciaország, 2003. október 25-28., CD proceedings, pp. 1-5 P13. K. Szemmelveisz – I. Szűcs – Á. B. Palotás – L. Winkler: Biomass Co-firing Issues in Power Plants – European Combustion Meeting 2007, Crete, Greece, April 11-13, 2007, CD Proceedings, pp 1-6 P14. L. Winkler – N. Hegman – C. Raffay – Á. B. Palotás: Ion Current Measurements in Natural Gas Flames – European Combustion Meeting 2007, Crete, Greece, April 11-13, 2007, CD Proceedings, pp. 1-4 P15. K. Valler – Á. Wopera – Á. B. Palotás: Co-combustion of Synthesis Gas and Natural Gas – European Combustion Meeting 2007, Crete, Greece, April 11-13, 2007, CD Proceedings, pp. 1-4 P16. I. Szűcs – K. Szemmelveisz – Á. B. Palotás – L. Winkler: Determination of the Combustion Conditions and Slag Characteristics of Herbaceous Biomass in Electric Power Generation – 15th European Biomass Conference, 7-11 May 2007, Berlin, Germany, pp. 1520-1524 P17. K. Szemmelveisz – I. Szűcs – Á. B. Palotás – L. Winkler: Ash Characteristics of Biomass, Biofuel Side-product and Waste Material Combustion – 16th European Biomass Conference, 2-6 June 2008, Valencia, Spain, CD Proceedings, VP2-4-2 pp. 1-5


24/36

P18. I. Szűcs – K. Szemmelveisz – Á. B. Palotás – L. Winkler: Analysis of Alternative Fuels for Power Plant Usage – 16th European Biomass Conference, 2-6 June 2008, Valencia, Spain, CD Proceedings, VP2-4-3, pp. 1-4 P19. K. Szemmelveisz – I. Szűcs – Á. B. Palotás – B. Juhász: Characterization of the Combustion Properties of Solid Biofuels – European Combustion Meeting, 14-17 April 2009, Vienna, Austria, CD Proceedings, P-810157 pp. 1-5 P20. K. Valler – Á. Wopera – Á. B. Palotás – K. J. Whitty: NOx Formation by Synthesis Gas – Natural Gas Co-firing – European Combustion Meeting, 14-17 April 2009, Vienna, Austria, CD Proceedings, P-810158, pp. 1-4 P20-c1. Liu, K., & Sanderson, V. (2013). The influence of changes in fuel calorific value to combustion performance for Siemens SGT-300 dry low emission combustion system. Fuel, 103, 239-246. P20-c2. Liu, K., Martin, P., Sanderson, V., & Hubbard, P. (2014). Effect of Change in Fuel Compositions and Heating Value on Ignition and Performance for Siemens SGT-400 Dry Low Emission Combustion System. Journal of Engineering for Gas Turbines and Power, 136(3), 031203. P21. L. Winkler – B. Gyarmati – Zs. Dobó – Á. B. Palotás: Emission Measurements in Natural Gas Flames – European Combustion Meeting, 14-17 April 2009, Vienna, Austria, CD Proceedings, P-810159, pp. 1-4 P22. K. Szemmelveisz; I. Szűcs; Á. B. Palotás; P. Tóth: Combustion of Industrial Sewage Sludge in a Fluidized Bed Boiler – 17th European Biomass Conference, 29 June – 3 July 2009, Hamburg, Germany, CD Proceedings, pp. 1-6 P23. P. Toth, K. Szemmelveisz, A. B. Palotas, The effect of sewage sludge blending on the properties of precipitator ash generated in a coal or biomass fired boiler, 18th European Biomass Conference Proceedings, Lyon, France, May 3-7, 2010, pp. 1139–1145. P24. T. Koos, Z. Dobo, P. Toth, K. Szemmelveisz and A.B. Palotas: Analysis of solid and gaseous emissions for coal-biomass co-combustion – 36th International Technical Conference on Clean Coal & Fuel Systems, Clearwater, FL, USA, 2011. június 5-9., CD proc. P25. I. Szűcs, K. Horváth, L. Gyulai, K. Szemmelveisz, A.B. Palotas, T. Koós: NOx and CO Emission of a Coke Oven – European Combustion Meeting, Cardiff, Ireland, 2011. CD proc. P26. Nemes A., Palotás Á.B.: Utilization of Renewable Energy Sources for District Heating in Villages and Small Towns; 10th International Conference on Heat Engines and Environmental Protection; 2011. 05. 23-25 CD proc. P27. P. Toth; A. B. Palotas; T. A. Ring; E. G. Eddings; R. Vander Wal and J. S. Lighty: Detailed investigation of soot nanostructure: effect of pressure. 8th US National Combustion Meeting, Salt Lake City, USA, May 19-22, 2013 p. 11.

OP. Egyéb konferencia kiadványokban publikált cikkek OP1. Palotás Á. B.: Modell toló és léptetőgerendás kemencék hőmunkájának szimulációjára – microCAD 92' Nemzetközi Számítástechnikai találkozó, Miskolc, 1992. pp. 1-4


25/36

OP2. Á. B. Palotás – L. C. Rainey – A. F. Sarofim – J. B. Vander Sande: Investigation of Soot Microstructure Using Image Analysis – microCAD ’95, Miskolc, Hungary, 1995. február 23., pp. 1-5 OP3. Á. B. Palotás – L. C. Rainey – A. F. Sarofim – J. B. Vander Sande: Változatok a koromszerkezetben – microCAD ’96, Miskolc, Hungary, 1996. február 28., pp. 1-5 OP4. Á. B. Palotás: Source Assignment of Soot Particles based on Image Analysis – Int. Conf. on Heat Engines and Environmental Protection, Tata, Hungary, 1997. május 2528., pp. 167-173 OP5. Á. B. Palotás – D. C. Bell – L. C. Rainey – J. B. Vander Sande: Examination of Graphite Structure Using Computer Aided Image Analysis – microCAD '99, Miskolc, 1999. február 24-26. pp. 1-5 OP6. N. Hegman – Á. B. Palotás – I. Szűcs: Analysis of Wall Temperature Using a Finite Element Method – microCAD '2000, Miskolc, 2000. február 23-24. pp. 45-50 OP7. H. Tóth – T. Szarka – Á. B. Palotás: Computer Aided System of Thermo Energy Balance – microCAD '2000, Miskolc, 2000. február 23-24., pp. 125-130. OP8. R. Makó – Á. B. Palotás: Comparison of Soots Produced from Different Fuels – microCAD '2000, Miskolc, 2000. február 23-24., pp. 87-90. OP9. R. Makó – Á. B. Palotás – E. I. Sajó: Examination of Carbon Black and Soot Particulates by X-Ray Diffraction Method – microCAD '2001, Miskolc, 2001. március 1-2., pp. 91-95 OP10. Makó R. – Palotás Á. B.: Röntgen alapú korommorfológiai vizsgálatok – Tüzeléstechnika 2001 – XXXVII. Ipari Szeminárium, Miskolc, 2001. július 4-5., pp. 121-128 OP11. Á. B. Palotás: Effect of Fuel Additives on the Smoke Point – microCAD '2003, Miskolc, 2003. március 6-7. pp. 91-96 OP12. E. G. Eddings – Á. B. Palotás – I. Preciado – N. D. Marsh – A. F. Sarofim: Development of a Methodology for Screening Multi-functional Fuel Additives – microCAD '2005, Miskolc, 2005. március 10-11. pp. 7-12 OP13. L. Gyulai – Á. B. Palotás – A. Bíró: Numerical Modeling of Burning in an Industrial Furnace – 5th Int. Conf. of PhD Students, Miskolc, 2005. augusztus 14-20. pp. 73-78 OP14. Palotás Á. B. – Szűcs I. – Wopera Á. – Szemmelveisz K. – Mikó J.: A Miskolci Egyetem Tüzeléstani és Hőenergia Tanszékén folyó főbb kutatási témák – Tüzeléstechnika 2005 – 40. Ipari Szeminárium, Dunaújváros, 2005. november 3-4., CD proceedings, p. 1-12 OP15. N. Hegman – Á. B. Palotás – G. Szirmai: Investigation of Ion Current in Natural gas Flame – microCAD '2006, Miskolc, 2006. március 16-17. pp. 33-37 OP16. Winkler L. – Szemmelveisz T.né – Palotás Á. B.: Biomassza tüzelőanyagok energetikai és tüzeléstechnikai jellemzői – Miskolci Egyetem - Doktoranduszi Fórum, Miskolc, 2006. november 9., pp. 1-6 OP17. Palotás Á. B. – Szemmelveisz T.né – Szűcs I. – Winkler L.: Erőműi faapríték tüzelőanyag nedvességtartalmának vizsgálata – Tüzeléstechnika 2006, Dunaújváros, 2006. november 22-23., pp. 1-12 OP18. Szemmelveisz T.né – Szűcs I. – Palotás Á. B. – Winkler L.: Biomassza tüzelésekor keletkező hamu vizsgálata – Tüzeléstechnika 2006, Dunaújváros, 2006. november 2223. pp. 1-15.


26/36

OP19. K. Valler – Á. Wopera – Á. B. Palotás: Combustion of Various Compound Synthesis Gases with Natural Gas – 8th International Conference on Heat Engines and Environmental Protection, Balatonfüred, 2007. május 28 – 30., pp. 57-62 OP20. K. Szemmelveisz – I. Szűcs – Á. B. Palotás – L. Winkler – K. Valler: Ligneous, Herbaceous Biomass Fuels and Wastes Problems at Biomass Combustion – 8th International Conference on Heat Engines and Environmental Protection, Balatonfüred, 2007. május 28 – 30., pp. 63-68 OP21. L. Winkler – N. Hegman – Cs. Raffay – Á. B. Palotás: Ion Current Based Air Factor Control – 8th International Conference on Heat Engines and Environmental Protection, Balatonfüred, 2007. május 28 – 30., pp. 69-74 OP22. A. Bíró – Á. B. Palotás: Complex Designing of Industrial Furnaces – 8th International Conference on Heat Engines and Environmental Protection, Balatonfüred, 2007. május 28 – 30., pp. 109-116 OP23. Palotás Á. B.; Winkler L.: Ionáram alapú tüzelésszabályozás tapasztalatai laboratóriumi körülmények között – Tüzeléstechnika 2008, Dunaújváros, 2008. október 15-16., pp. 1-8 OP24. R. Dúl; K. Jármai; Á. B. Palotás: CFD Simulation of a Fireplace – XXIV. microCAD Section F (Fluid and Heat Engineering), Miskolc, 2010. március 18-21. pp. 13-18 OP25. Zs. Dobó; Á. B. Palotás: Measurement of Ion Current Kinetics in Natural Gas Flames – XXIV. microCAD Section A (Energy Management), Miskolc, 2010. március 18-21. pp. 7-12 OP26. P. Tóth; K. Szemmelveisz; Á. B. Palotás: A SEM and EDX Study of Solid Combustion Residues from Co-combustion of Sewage Sludge and Coal – XXIV. microCAD Section B (Waste Processing and Recycling), Miskolc, 2010. március 1821. pp. 25-30 OP27. Palotás Á. B.; Szűcs I.; Szemmelveisz K.; Nagy G.: Kommunális és ipari hulladékok energetikai hasznosítása – Tüzeléstechnika 2010, Dunaújváros, 2010. novmber 3. ISBN 978-963-89147-0-5 OP28. Palotás Á. B.; Csőke B.; Szűcs I.; Szemmelveisz K.; Nagy G.: Másod tüzelőanyag pellettálásával nyerhető szilárd tüzelőanyag hasznosításának lehetősége földgáz alapú tüzelés kiváltására – X. Környezettudományi Tanácskozás, Győr, 2010. november 12. OP29. R. Dúl; K. Jármai; Á. B. Palotás: Heat Exchanger Development for Domestic Fireplaces via CFD Simulation – XXV. microCAD, Miskolc, 2011. március 30-31. pp. OP30. A. Nemes; K. Szemmelveisz; Á. B. Palotás: Self Sustaining City – The City of the Future – XXV. microCAD, Miskolc, 2011. március 30-31. pp. OP31. Palotás Á. B.: Az Energia- és Minőségügyi Intézet K+F+I tevékenysége a GOP-1.1.208/1-2008-002 projekt keretében - K+F eredmények összefoglalása, GOP-1.1.2-08/12008-002, ISBN 978-963-89509-0-1, (2012), pp. 268-294 OP32. Dobó Zs.; Palotás Á. B.; Felhős D.: Illetéktelen gázvételezés kimatathatósága remanens mágnesesség vizsgálatával - K+F eredmények összefoglalása, GOP-1.1.208/1-2008-002, ISBN 978-963-89509-0-1, (2012), pp. 294-301 OP33. Dúl R. – Palotás Á. B. – Jármai K. – Barkóczy P.: Kandalló hatásfokának javítása füstgáz-levegő hőcserélő alkalmazásával - K+F eredmények összefoglalása, GOP1.1.2-08/1-2008-002, ISBN 978-963-89509-0-1, (2012), pp. 302-309


27/36

OP34. A. Nemes, Á.B. Palotás, I. Szűcs, G. Nagy, Z. Dobó: Potential solution for venting urban contaminated air. XXVI. microCAD International Scientific Conference, Miskolc, 2012. 03. 29-30. pp. OP35. Z. Dobó, Á. B. Palotás, D. Felhős: Magnetic Measurements on Residential Gas Meters. XXVI. microCAD International Scientific Conference, Miskolc, 2012. 03. 2930. pp.

C. Nemzetközi konferencia előadások C1. Á. B. Palotás: Cavitation erosion in Copper–based alloys – Nemzetközi TDK Konferencia, Lvov (SZU), 1991. szept. C2. Á. B. Palotás – L. C. Rainey – A. F. Sarofim – J. B. Vander Sande: Markers for emission from combustion sources – Prioritizing Hazardous Air Pollutants: Establishing A Scientific Basis – Summer Symposium, Dedham, MA, USA, 1994. július 5-7 C3. Á. B. Palotás – C. J. Feldermann – L. C. Rainey – A. F. Sarofim – J. B. Vander Sande: Characterization of soot structure using HRTEM image analysis – WIP – 25th Int. Symposium on Combustion, Irvine, CA, USA, 1994. júl. 31-aug. 5. C4. L. C. Rainey – Á. B. Palotás – P. Bolsaitis – J. B. Vander Sande – A. F. Sarofim: Application of high–resolution electron microscopy for the characterization and source assignment of diesel particulates – 4th Symposium on Respirable Dust, Pittsburgh, USA, 1994. november 8-10. C5. Á. B. Palotás – L. C. Rainey – A. F. Sarofim – J. B. Vander Sande: Quantification of Soot Structure – 1995 A&WMA/U.S. EPA International Symposium on the Measurement of Toxic and Related Air Pollutants, Research Triangle Park, NC, USA 1995. május 5-7. C6. Á. B. Palotás – L. C. Rainey – A. F. Sarofim – J. B. Vander Sande: Markers for emission from combustion sources – Prioritizing Hazardous Air Pollutants: Establishing A Scientific Basis – Summer Symposium, Dedham, MA, USA, 1995. július 20. C7. Á. B. Palotás – L. C. Rainey – A. F. Sarofim – J. B. Vander Sande: Effect of Oxidation on the Internal Structure of Carbon Black Particles – 14th Annual Meeting of the American Association of Aerosol Research, Pittsburgh, PA, USA, 1995. október 9-13. C8. A. Kandas – Á. B. Palotás – L. C. Rainey – A. F. Sarofim: Radial Distribution of Soot Pore Spacing obtained with High Resolution Transmission Electron Microscopy – WIP – 26th Int. Symposium on Combustion, Nápoly, Olaszország, 1996. július 28. - aug. 2. C9. A. Kandas – Á. B. Palotás – L. C. Rainey – A. F. Sarofim: Structural Evolution of Soot on a Combustion Resistant TEM Grid – WIP – 26th Int. Symposium on Combustion, Nápoly, Olaszország, 1996. július 28. - aug. 2. C10. J. B. Vander Sande – A. F. Sarofim – L. C. Rainey – Á. B. Palotás – D. C. Bell: Markers for emission from combustion sources – Microscopy and Microanalysis, Minnesota, MN, USA, 1996 C11. Á. B. Palotás – L. C. Rainey – A. F. Sarofim – J. B. Vander Sande – R. C. Flagan: Effect of Fuel Origin on the Structure of Graphites – 15th Annual Meeting of the American Association of Aerosol Research, Orlando, FL, USA, 1996. október 14-18.,


28/36

C12. Á. B. Palotás: Source Assignment of Soot Particles based on Image Analysis – Int. Conf. on Heat Engines and Environmental Protection, Tata, Hungary, 1997. május 2528. C13. A. W. Kandas – Á. B. Palotás – L. C. Rainey – A. F. Sarofim – J. B. Vander Sande: Markers for emission from combustion sources – Prioritizing Hazardous Air Pollutants: Establishing A Scientific Basis – Summer Symposium, Dedham, MA, USA, 1997. július 12. C14. D. C. Bell – L. C. Rainey – Á. B. Palotás – J. B. Vander Sande: Microanalysis of Soot Particulates Using STEM – Materials Research Society Symposium 1997 Fall Meeting, Boston, MA, USA, 1997. december 1-5. C15. Á. B. Palotás: Who is responsible for the air pollution or what does the structure of soot tell us – VII. Intl. Scientific Conference on Combustion and Heat Technics, Miskolc, 1998. május 27-29. C16. J. B. Vander Sande – J. B. Howard – D. Bell – L. C. Rainey – Á. B. Palotás: Microanalysis of Airborne Particulates Using Electron Microscopy – ILP Research Director’s Conference, Cambridge, MA, USA, 1998. május 6. C17. Á. B. Palotás – D. C. Bell – L. C. Rainey – J. B. Vander Sande: Structural Changes of Soot Particulates as Shown by HRTEM and Image Analysis – Microscopy and Microanalysis ’98, Atlanta, GA, USA, 1998. július 12-16. C18. D. C. Bell – L. C. Rainey – Á. B. Palotás – J. B. Vander Sande: The Morphology and Composition of Environmental Soots – MRS Fall 1998 Meeting, Boston, MA, USA, 1998. november 30. - december 4. C19. Á. B. Palotás – I. Szűcs – N. Hegman – I. Réz: Modeling the Heat Transport Processes in the Refractory Lining o a Pig Iron Mixer – XIII. Conference on Refractories, Prága, 2000. március 28-29. C20. I. Szűcs – Á. B. Palotás – N. Hegman: Determination of the Refractory Lining Thickness of a Steel Plant Mixer Furnace Using Thermovision – Metal 2000, 9th Metallurgical Conference, Ostrava, 2000. május 16-18. C21. Á. B. Palotás – R. Makó – I. E. Sajó: X-Ray Diffraction Analysis of Carbon Black and Soot Particulates – 28th Int. Symposium on Combustion, Edinburgh, 2000. július 30. augusztus 4. C22. I. Szűcs – Á. B. Palotás – N. Hegman – J. Mikó: Investigation of the Refractory Lining Wearing Process of a Steel Plant Mixer Furnace – 1st Industrial Furnaces and Refractory Materials Conference, Kosice, Nov 7-8, 2000 C23. Á. B. Palotás – R. Makó – E. I. Sajó: Comparative analysis of soots based on XRD measurements – Silezian University Scientific Conference, Katowice, Poland, May 10, 2001. C24. I. Szűcs – Á. B. Palotás – J. Mikó – N. Hegman: Method for the determination of dangerously thinned areas of a steel plant mixer furnace lining – Metal 2001, 10th Metallurgical Conference, Ostrava, May 15-17, 2001. C25. R. Makó – Á. B. Palotás: Study of the Structure of Carbon Black and Soot Particulates – 3rd Int. Conf. on the Effective Production, Transmission and Consumption of Energy, Kosice, Slovakia, 2001. június 11-13.


29/36

C26. R. Makó R. – Á. B. Palotás – E. I. Sajó: X-Ray Diffraction Analysis of Amorphous Carbon Particulates – 12th Int. Conf. on Thermal Engineering and Thermogrammetry, Budapest, 2001. június 13-15 C27. Á. B. Palotás – I. Szűcs – N. Hegman: Investigation and mathematical modeling of a furnace wall deterioration – 52th Berg- und Hüttenmannischen Tag, Freiberg, Germany, June 21-22, 2001, Freiberger Forschungshefte, A 865 Energie C28. C. R. Shaddix – Á. B. Palotás – C. M. Megaridis – M. Z. Choi – N. Y. C. Yang: Comparison of Soot Graphitic Order in Laminar Dissuion Flames and a Large Scale JP8 Pool Fire – 2002 Spring Meeting of the Western State Section of the Combustion Institute, La Jolla, CA, USA March 25-26, 2002 C29. I. Szűcs – Á. B. Palotás – L. Papp: Determination of Refractory Lining thickness of High Temperature Equipment Using Thermovision – 13th International Conference on Thermal Engineering and Thermogrammetry, Budapest, 2003. június 18-20. C30. Á. Wopera – I. Szűcs – E. Wagnerová – Á. B. Palotás: Two-Stage Firing of BiogasNatural Gas Fuel Mixture – European Combustion Meeting 2003, Orléans, Franiaország, 2003. október 25-28. C31. I. Szűcs – Á. Wopera – K. Szemmelveisz – J. Mikó – Á. B. Palotás: Effect of Biomass Burning on the Environment – European Combustion Meeting 2003, Orléans, Franciaország, 2003. október 25-28. C32. Á. B. Palotás – N. Marsh – I. Preciado –A. F. Sarofim – E. G. Eddings – K. Kelly – D. Wagner – G. F. Huffman: The Role of Fuel Additives in Soot Suppression – AFRC 2004 Spring Meeting, Salt Lake City, USA, 2004. március 18-19. C33. K. Szemmelveisz – I. Szűcs – Á. B. Palotás – L. Winkler: Biomass Co-firing Issues in Power Plants – European Combustion Meeting 2007, Crete, Greece, April 11-13, 2007 C34. L. Winkler – N. Hegman – C. Raffay – Á. B. Palotás: Ion Current Measurements in Natural Gas Flames – European Combustion Meeting 2007, Crete, Greece, April 11-13, 2007 C35. K. Valler – Á. Wopera – Á. B. Palotás: Co-combustion of Synthesis Gas and Natural Gas – European Combustion Meeting 2007, Crete, Greece, April 11-13, 2007 C36. I. Szűcs – K. Szemmelveisz – Á. B. Palotás – L. Winkler: Determination of the Combustion Conditions and Slag Characteristics of Herbaceous Biomass in Electric Power Generation – 15th European Biomass Conference, 7-11 May 2007, Berlin, Germany C37. K. Szemmelveisz – I. Szűcs – Á. B. Palotás – L. Winkler: Ash Characteristics of Biomass, Biofuel Side-product and Waste Material Combustion – 16th European Biomass Conference, 2-6 June 2008, Valencia, Spain C38. I. Szűcs – K. Szemmelveisz – Á. B. Palotás – L. Winkler: Analysis of Alternative Fuels for Power Plant Usage – 16th European Biomass Conference, 2-6 June 2008, Valencia, Spain C39. K. Szemmelveisz – I. Szűcs – Á. B. Palotás – L. Winkler: Ash Characteristics of Biomass, Biofuel Side-Product and Waste Material Combustion – Austrian-CroatianHungarian Combustion Meeting, October 3, 2008, Sopron, Hungary C40. L. Winkler – Cs. Raffay – Á. B. Palotás, L. Béres: Combustion Control Using Flame Ionization Measurements – Austrian-Croatian-Hungarian Combustion Meeting, October 3, 2008, Sopron, Hungary


30/36

C41. K. Valler – Á. Wopera – Á. B. Palotás: Laboratory Combustion Experiments with Synthesis Gas – Austrian-Croatian-Hungarian Combustion Meeting, October 3, 2008, Sopron, Hungary C42. K. Szemmelveisz – I. Szűcs – Á. B. Palotás – B. Juhász: Characterization of the Combustion Properties of Solid Biofuels – European Combustion Meeting, 14-17 April 2009, Vienna, Austria C43. K. Valler – Á. Wopera – Á. B. Palotás – K. J. Whitty: NOx Formation by Synthesis Gas-Natural Gas Co-firing – European Combustion Meeting, 14-17 April 2009, Vienna, Austria C44. L. Winkler – B. Gyarmati – Zs. Dobó – Á. B. Palotás: Emission Measurements in Natural Gas Flames – European Combustion Meeting, 14-17 April 2009, Vienna, Austria C45. K. Szemmelveisz – I. Szűcs – Á. B. Palotás – P. Tóth: Combustion of Industrial Sewage Sludge in a Fluidized Bed Boiler – 17th European Biomass Conference, 29 June – 3 July 2009, Hamburg, Germany C46. P. Toth, K. Szemmelveisz, A. B. Palotas, The effect of sewage sludge blending on the properties of precipitator ash generated in a coal or biomass fired boiler, 18th European Biomass Conference, Lyon, France, May 3-7, 2010 C47. I. Szűcs – Z. Dobó – A. B. Palotas: Hyteresis in the ion current characteristics of natural gas combustion. 33rd Int. Symposium on Combustion, Beijing, China, August 1-6, 2010 C48. A.B. Palotas, T. Koos, Z. Dobo, P. Toth, K. Szemmelveisz: Analysis of solid and gaseous emissions for coal-biomass co-combustion – 36th International Technical Conference on Clean Coal & Fuel Systems, Clearwater, FL, USA, 2011. június 2-6. C49. I. Szűcs, K. Horváth, L. Gyulai, K. Szemmelveisz, A.B. Palotas, T. Koós: NOx and CO Emission of a Coke Oven – European Combustion Meeting, Cardiff, Ireland, 2011. C50. Á. B. Palotás - R. Dúl – Z. Dobó: Efficiency improvement options for domestic fireplaces – Austrian–Croatian–Hungarian Combustion Meeting, Zagreb, Croatia, April 12-13, 2012. C51. A. Nemes - Á. B. Palotás: Equipment for diluting air pollution – Austrian–Croatian– Hungarian Combustion Meeting, Zagreb, Croatia, April 12-13, 2012. C52. Pal Toth, Arpad B. Palotas, JoAnn S. Lighty, Eric G. Eddings: Computer vision for advanced nanostructure characterization of soot, International Sooting Flame Workshop, 2012, MDM Hotel, Warsaw, Poland C53. A. B. Palotas and P. Toth: Recent Advances in HRTEM Soot Analysis. CM0901 – Detailed Chemical Models for Cleaner Combustion. COST Soot and PAH Joint Working Group Meeting, Sorrento, Italy, April 10-13, 2013 C54. P. Toth; A. B. Palotas; T. A. Ring; E. G. Eddings; R. Vander Wal and J. S. Lighty: Detailed investigation of soot nanostructure: effect of pressure. 8th US National Combustion Meeting, Salt Lake City, USA, May 19-22, 2013 p. 11.

OC. Egyéb konferencia előadások OC1. Palotás Á. B.: Hengerműi izzítókemencék modellezése számítógép segítségével – XIX. OTDK, Budapest, 1989. (második helyezés)


31/36

OC2. Á. B. Palotás: Computer aided simulation of annealing furnaces – Metallurgia '89, Kassa (Csehszlovákia), 1989. OC3. Palotás Á. B.: Néhány vizsgálat kavitációs erózióval kapcsolatban – XX. OTDK, Miskolc, 1991. OC4. Palotás Á. B.: Boltozati égős kemencék hőmérsékletviszonyainak vizsgálata – XX. OTDK, Miskolc, 1991. (első helyezés a két dolgozatért) OC5. Palotás Á. B.: Modell toló és léptetőgerendás kemencék hőmunkájának szimulációjára – microCAD 92' Nemzetközi Számítástechnikai találkozó, Miskolc, 1992. OC6. Á. B. Palotás – L. C. Rainey – A. F. Sarofim – J. B. Vander Sande: Korom eredetének meghatározása a mikroszerkezet alapján – Pro Scientia–érmesek második konferenciája, Budapest, 1994. november 17-19 OC7. Á. B. Palotás – L. C. Rainey – A. F. Sarofim – J. B. Vander Sande: Investigation of Soot microstructure Using Image Analysis – microCAD ’95, Miskolc, Hungary, 1995. február 23. OC8. Á. B. Palotás – L. C. Rainey – A. F. Sarofim – J. B. Vander Sande: Változatok a koromszerkezetben – microCAD ’96, Miskolc, Hungary, 1996. február 28. OC9. Palotás Á. B.: A korom morfológiája – PSAK IV Konferencia, Szeged, 1998. november OC10. Á. B. Palotás – D. C. Bell – L. C. Rainey – J. B. Vander Sande: Examination of Graphite Structure Using Computer Aided Image Analysis – microCAD '99, Miskolc, 1999. február 24-26. OC11. Makó R. – Palotás Á. B.: Ipari korom vizsgálata – Jubileumi Konferencia, Miskolc, 1999. szeptember 2. OC12. N. Hegman – Á. B. Palotás – I. Szűcs: Analysis of Wall Temperature Using a Finite Element Method – microCAD '2000, Miskolc, 2000. február 23-24. OC13. H. Tóth – T. Szarka – Á. B. Palotás: Computer Aided System of Thermo Energy Balance – microCAD '2000, Miskolc, 2000. február 23-24. OC14. R. Makó – Á. B. Palotás: Comparison of Soots Produced from Different Fuels – microCAD '2000, Miskolc, 2000. február 23-24., pp. 87-90. OC15. Palotás Á. B. – Szűcs I. – Hegman N.: Falvastagság vizsgálata termovízió segítségével – Pro Scientia Aranyérmesek V. Tudományos Konferenciája, Sopron, 2000. nov. 5-7. OC16. R. Makó – Á. B. Palotás – E. I. Sajó: Examination of Carbon Black and Soot Particulates by X-Ray Diffraction Method – microCAD '2001, Miskolc, 2001. március 1-2. OC17. Makó R. – Palotás Á. B.: Röntgen alapú korommorfológiai vizsgálatok – Tüzeléstechnika 2001 – XXXVII. Ipari Szeminárium, Miskolc, 2001. július 4-5., pp. 121-128 OC18. Szűcs I. – Palotás Á. B. – Hegman N. – Zubács N. – Mikó J. – Papp L.: Nyersvaskeverő kemence falazatvastagságának meghatározása a tartósság növelése céljából – IX. Anyag, energia- és környezetgazdálkodás a kohászatban c. konf., Balatonszéplak, 2001. szeptember 6-8., p. 325. OC19. Szűcs I. – Palotás Á. B. – Hegman N. – Szemmelveisz T-né – Papp L.: Diagnosztikai módszer nagyhőmérsékletű berendezések falazata vastagságának meghatározására –


32/36

III. Országos Anyagtudományi, Anyagvizsgálati és Anyaginformatikai Konferencia, Balatonfüred, 2001. október 14-17. OC20. Á. B. Palotás: Effect of Fuel Additives on the Smoke Point – microCAD '2003, Miskolc, 2003. március 6-7. pp. 91-96 OC21. E. G. Eddings – Á. B. Palotás – I. Preciado – N. D. Marsh – A. F. Sarofim: Development of a Methodology for Screening Multi-functional Fuel Additives – microCAD '2005, Miskolc, 2005. március 10-11. pp. 7-12 OC22. L. Gyulai – Á. B. Palotás – A. Bíró: Numerical Modeling of Burning in an Industrial Furnace – 5th Int. Conf. of PhD Students, Miskolc, 2005. augusztus 14-20. pp. 73-78 OC23. Palotás Á. B. – Szűcs I. – Wopera Á. – Szemmelveisz K. – Mikó J.: A Miskolci Egyetem Tüzeléstani és Hőenergia Tanszékén folyó főbb kutatási témák – Tüzeléstechnika 2005 – 40. Ipari Szeminárium, Dunaújváros, 2005. november 3-4. OC24. N. Hegman – Á. B. Palotás – G. Szirmai: Investigation of Ion Current in Natural gas Flame – microCAD '2006, Miskolc, 2006. március 16-17. pp. 33-37 OC25. I. Szűcs – Á. Wopera – K. Szemmelveisz – J. Mikó – Á. B. Palotás: Effect of Biomass Burning on the Environment – Hungarian Combustion Meeting 2006, Szeged, 2006. október 6. OC26. K. Valler – Á. Wopera – Á. B. Palotás: NOx and CO2 Formation by Co-firing Natural Gas with Synthesis Gas – Hungarian Combustion Meeting 2006, Szeged, 2006. október 6. OC27. L. Winkler – Á. B. Palotás: Ion Current Measurements in Natural Gas Flames – Hungarian Combustion Meeting 2006, Szeged, 2006. október 6. OC28. Winkler L. – Szemmelveisz T.né – Palotás Á. B.: Biomassza tüzelőanyagok energetikai és tüzeléstechnikai jellemzői – Miskolci Egyetem – Doktoranduszi Fórum, Miskolc, 2006. november 9. OC29. Palotás Á. B. – Szemmelveisz T.né – Szűcs I. – Winkler L.: Erőműi faapríték tüzelőanyag nedvességtartalmának vizsgálata – Tüzeléstechnika 2006, Dunaújváros, 2006. november 22-23. OC30. Szemmelveisz T.né – Szűcs I. – Palotás Á. B. – Winkler L.: Biomassza tüzelésekor keletkező hamu vizsgálata – Tüzeléstechnika 2006, Dunaújváros, 2006. november 2223. OC31. Szemmelveiszné H. K. – Szűcs I. – Palotás Á. B. – Winkler L: Biomasszák és hulladékok erőműi hasznosítása – MEAKKK III. tud. szemináriuma, Miskolc, 2007. febr. 15-16. OC32. Winkler L. – Hegman N. – Raffay Cs. – Palotás Á. B.: Földgáztüzelés szabályozása ionáram felhasználásával – MEAKKK III. tud. szemináriuma, Miskolc, 2007. febr. 1516. OC33. K. Valler – Á. Wopera – Á. B. Palotás: Combustion of Various Compound Synthesis Gases with Natural Gas – 8th International Conference on Heat Engines and Environmental Protection, Balatonfüred, 2007. május 28 – 30. OC34. K. Szemmelveisz – I. Szűcs – Á. B. Palotás – L. Winkler – K. Valler: Ligneous, Herbaceous Biomass Fuels and Wastes Problems at Biomass Combustion – 8th International Conference on Heat Engines and Environmental Protection, Balatonfüred, 2007. május 28 – 30.


33/36

OC35. L. Winkler – N. Hegman – Cs. Raffay – Á. B. Palotás: Ion Current Based Air Factor Control – 8th International Conference on Heat Engines and Environmental Protection, Balatonfüred, 2007. május 28 – 30. OC36. A. Bíró – Á. B. Palotás: Complex Designing of Industrial Furnaces – 8th International Conference on Heat Engines and Environmental Protection, Balatonfüred, 2007. május 28 – 30. OC37. Winkler L. – Palotás Á. B. – Raffay Cs.: Földgáztüzelésnél előállított ionáram felhasználása a légfelesleg szabályozására – Miskolci Egyetem – Doktoranduszi Fórum, Miskolc, 2007. június 8. OC38. Palotás Á. B. – Szemmelveisz T. – Szűcs István: Erőműi tüzelőanyagok vizsgálata – Magyar Égéstudományi Bizottság ülése, Budapest, 2008. február 15. OC39. Palotás Á. B. – Winkler L., Béres L.: Ionáram alapú tüzelésszabályozás tapasztalatai laboratóriumi körülmények között – Tüzeléstechnika 2008, Dunaújváros, 2008. október 15-16. OC40. Dobó Zs. – Palotás Á. B.: Ionáram alapú égőszabályozó eszköz fejlesztése – Magyar Égéstudományi Bizottság ülése, 2009, Budapest, 2009. november 27. OC41. Szemmelveiszné H. K. – Palotás Á. B.: Fás és lágyszárú biomasszák tüzelhetőségi feltételeinek vizsgálata – A megújuló energiatermelés nyersanyagforrásai és használatuk, Miskolc, 2010. február 24. OC42. Palotás Á. B. – Szemmelveiszné H. K., Béres L.: Biomasszák és hulladékok tüzelhetőségi feltételeinek elemzése – A zöldenergiatermelés forrásai és használatának lehetőségei konferencia, Atkár, 2010. március 11. OC43. R. Dúl – K. Jármai – Á. B. Palotás: CFD Simulation of a Fireplace – XXIV. microCAD Section F (Fluid and Heat Engineering), Miskolc, 2010. március 18-21. pp. 13-18 OC44. Zs. Dobó – Á. B. Palotás: Measurement of Ion Current Kinetics in Natural Gas Flames – XXIV. microCAD Section A (Energy Management), Miskolc, 2010. március 18-21. pp. 7-12 OC45. P. Tóth – K. Szemmelveisz – Á. B. Palotás: A SEM and EDX Study of Solid Combustion Residues from Co-combustion of Sewage Sludge and Coal – XXIV. microCAD Section B (Waste Processing and Recycling), Miskolc, 2010. március 1821. pp. 25-30 OC46. Nemes A., Palotás Á.B.: Utilization of Renewable Energy Sources for District Heating in Villages and Small Towns; 10th International Conference on Heat Engines and Environmental Protection, 2011. Balatonfüred OC47. Palotás, Á. B.: Biomass Combustion – Uni-Flexys Summer Symposium, Miskolc, July 7, 2010 OC48. Palotás, Á. B. – Nemes, A., Béres L.: Solar energy utilization – overview and current trends – KnowBridge Conference, Miskolc, September, 2010 OC49. Nagy G. – Csőke B. – Palotás Á. B. – Szemmelveisz K. – Szűcs I.: Termikus eljárások fejlesztése a hulladékgazdálkodásban – Kecskemét, 2010. október 1. OC50. Palotás Á. B. – Szűcs I – Szemmelveisz K – Nagy G.: Kommunális és ipari hulladékok energetikai hasznosítása – Tüzeléstechnika 2010, Dunaújváros, 2010. november 3.


34/36

OC51. Palotás Á. B. – Csőke B. – Szűcs I. – Szemmelveisz K. – Nagy G.: Másod tüzelőanyag pellettálásával nyerhető szilárd tüzelőanyag hasznosításának lehetősége földgáz alapú tüzelés kiváltására – X. Környezettudományi Tanácskozás, Győr, 2010. november 12. OC52. Nagy G. – Csőke B. – Palotás Á. B. – Szűcs I. – Szemmelveisz K.: Hulladékok energetikai hasznosítása – MTA MAB 70. konf. Miskolc, 2010. november 18. OC53. R. Dúl – K. Jármai – Á. B. Palotás: Heat Exchanger Development for Domestic Fireplaces via CFD Simulation – XXV. microCAD, Miskolc, 2011. március 30-31. OC54. A. Nemes – K. Szemmelveisz – Á. B. Palotás: Self Sustaining City – The City of the Future – XXV. microCAD, Miskolc, 2011. március 30-31. OC55. Dúl R. – Palotás Á. B.: Hengerfej hűtősor optimalizálás CFD segítségével – UniFlexys GOP 1.1.2 konferencia, 2011. május 2. OC56. Nemes A. – Szemmelveisz K. – Szűcs I. – Palotás Á. B.: Városi távhőszolgáltatás energiaigényének alternatív lehetőségei – Energetikai Kutatási Eredmények konferencia TÁMOP-4.2.1-B-10/2/KONV-2010-0001 konferencia, 2011. május 2. OC57. Dobó Zs. – Palotás Á. B.: Adatgyűjtő mérőtáska fejlesztése – Energetikai Kutatási Eredmények konferencia TÁMOP-4.2.1-B-10/2/KONV-2010-0001 konferencia, 2011. május 2. OC58. Szűcs I., Nagy G., Csőke B., Palotás Á. B., Szemmelveisz K.: Hulladékból előállított másodlagos tüzelőanyagok tüzeléstechnikai jellemzői, a levegőtisztaság-védelemmel kapcsolatos szakmai megoldások – Fejér megyei Mérnöki Kamara Környezetvédelmi Szakcsoport konferenciája, Veszprém, 2011. május 24 OC59. Béres L. – Palotás Á. B.: Kistelepülések energiastratégiája – II. Környezet és Energia Konferencia, Debrecen, 2011. november. 26. OC60. Palotás Á. B. – Vécsi György: A szén mint alternatív tüzelőanyag Miskolc város komplex energetikai koncepciójának tükrében – A szénbányászat jövőképe az északmagyarországi régióban, Miskolc, 2011. december 9. OC61. Palotás Á. B.: „Szmogkémény” - Berendezés földfelszín közeli szennyezett levegő elvezetésére – Szmogszeminárium, Miskolc, 2011. december 14. OC62. A. Nemes, Á.B. Palotás, I. Szűcs, G. Nagy, Z. Dobó: Potential solution for venting urban contaminated air. XXVI. microCAD International Scientific Conference, Miskolc, 2012. OC63. Z. Dobó, Á. B. Palotás, D. Felhős: Magnetic Measurements on Residential Gas Meters. XXVI. microCAD International Scientific Conference, Miskolc, 2012. OC64. A. B. Palotas: Renewable energy sources: Biomass. 8th Int. Conf. of PhD Students, invited lecture, Miskolc, August 5-11, 2012 OC65. Palotás Á.B., Vécsi Gy, Kókai P.: Miskolc város komplex energetikai koncepciója – energiahordozó import-függőségünk csökkentése a megújulók és a szén részarányának növelésével. Fazola Napok 2012, Miskolc, 2012. OC66. Nagy G., Lovrity Z., Emmer J., Palotás Á. B.: Sorosan kapcsolt oszloppár kiépítése biogázok gázkromatográfiás vizsgálatára. Elválasztástudományi Vándorgyűlés, Hajdúszoboszló, 2012. nov. 7-9. OC67. Á. B. Palotás: Latest Developments in Soot Micro-structure Chareacterization (invited plenary lecture). XXVII. microCAD International Scientific Conference, Miskolc, March 21, 2013.


35/36

OC68. Palotás Á. B.: A földgáz eltüzelésének egyetemes alapismeretei és a modern tüzeléstechnikában elfoglalt szerepe. HUNGAROTHERM 2013 Épületenergetikai Napok, Budapest, 2013. május 11. OC69. Dobó Zsolt – Palotás Á. B.: Rezsicsökkentés „optimalizálásának” illegális módszerei – gázmérők. Miért pazaroljuk azt, amiben szűkölködünk? avagy Természeti és társadalmi erőforrásaink, Miskolc, 2013. június 6. OC70. Palotás Á. B.: Villamos hajtású járművek kialakítása az Energia- és Minőségügyi Intézetben: e-Zsiga és e-Bogár. V. Észak-magyarországi Műszaki Értelmiség Napja, Miskolc, 2013. június 24. OC71. Dobó Zsolt – Dr. Palotás Árpád: Állandó mágnes segítségével befolyásolt gázmérők vizsgálata az utólagos kimutathatóság szempontjából. Géptervezők és termékfejlesztők XXIX. szemináriuma, Miskolc, 2013. november 7-8. W. Egyéb előadások nem tudományos konferenciákon W1. Á. B. Palotás – L. C. Rainey – A. F. Sarofim – J. B. Vander Sande: Markers for emission from combustion sources – Cabot Corporation, Billerica, MA, USA, 1995. augusztus 23. W2. Á. B. Palotás – A. F. Sarofim – J. B. Vander Sande: Markers for emission from combustion sources – CAO – peer review, Cambridge, MA, USA, 1996. május 2. W3. Palotás Á. B.: Fiatal kutatók helyzete a műszaki tudományok területén – Befutás vagy kifutás (Pro Scientia Aranyérmesek a kutatói karrier lehetőségéről), Budapest, 1998. február 14. W4. Makó R. – Palotás Á. B.: Koromaggregátum vizsgálata transzmissziós elektronmikroszkóppal – ME AKK Tudományos ülésszak, Miskolc, 2000. augusztus 30-31. W5. Szűcs I. – Palotás Á. B. – Mikó J. – Hegman N. – Papp L.: Nagyhőmérsékletű tűzálló falazat vastagságának meghatározása üzem közben – ME AKK Tudományos ülésszak, Miskolc, 2000. augusztus 30-31. W6. Makó R – Palotás Á. B.: Koromtípusok összehasonlító vizsgálata röntgendiffrakciós mérések alapján – ME AKK Tudományos Konferencia, 2001. augusztus 31. W7. Szűcs I. – Hegman N. – Palotás Á. B. – Papp L. – Zubács R.: Kemencék tűzálló falazata vastagságának meghatározása felületi hőmérsékleteloszlásból – ME Anyag- és Kohómérnöki Karának Tudományos Ülésszaka, Kohászati szekció; Miskolc, 2002. aug. 29-30. W8. Palotás Á. B. – Cziráki Sz.: Tudományos Diákkörök – 60 év eredményei, a jövő lehetőségei – Miskolci Egyetem Műszaki Anyagtudományi Kar TDK konferenciája, Miskolc, 2011. november 24. W9. Palotás Á. B.: Az Energia- és Minőségügyi Intézett oktatási és kutatási tevékenysége – Magyar Égéstudományi Társaság ülése, Miskolc, 2011. december 2. W10. Palotás Á. B. – Gácsi Z.: A Műszaki Anyagtudományi Kar hozzájárulása a GOP-1.1.208/1-2008-0002 projekt sikeréhez – UniFlexys GOP-1.1.2 zárókonferencia, Miskolc, 2012. március 9. W11. Palotás Á. B., Szabó T.: A Műszaki Anyagtudmányi Kar képzései. OBMKE Választmányi Ülés, Miskolc, 2013. április 19.


W12. Palotás Á. B.: Nagyhőmérsékletű kémiai reakciók. Verseny dönző, Miskolc, 2013. május 19.

36/36

Irinyi János Országos Kémiai

M. Kéziratok M1. Mikó J – Palotás Á. B. – Sulyok A. – Szemmelveisz K. – Szűcs I. – Wopera Á.: Ipari tüzeléstechnikai, energiagazdálkodási és környezetvédelmi ismeretek – tanfolyami jegyzet, Orosháza, 2003 M2. Mikó J – Palotás Á. B. – Szunyog I.– Szűcs I. – Wopera Á. – Zupkó I.: Ipari tüzeléstechnikai, energiagazdálkodási és környezetvédelmi ismeretek – tanfolyami jegyzet, Salgótarján, 2003 M3. Mikó J – Palotás Á. B. – Szűcs I.: Ipari tüzeléstechnikai, energiagazdálkodási és környezetvédelmi ismeretek – üvegipari modul – tanfolyami jegyzet, Mosonmagyaróvár, 2006

O. Oltalmi formák O1.Dobó Zs – Palotás Á. B. – Szűcs I.: Mérőeszköz fizikai jellemzők pillanatnyi értékének megjelenítésére. 4191 lajstromsz. mintaoltalom. 2012. aug. 6. 2015. március 12. 13:40

Dr. Palotás Árpád Bence publikációinak részletes jegyzéke

Recommend Documents