Sochan Agata

Sochan Agata

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PhD Eng Sochan Agata
Room: D103
E-mail: a.sochan@ipan.lublin.pl
Phone: (81) 744 50 61 w. 133

Department and laboratory

Department: Department of Natural Environment Biogeochemistry

Laboratory: Laboratory of Applied Optical Measurement Techniques

Publications

  1. 2020, Determination of the effectiveness of high-speed cameras for identifying ejection particles during splash with regard to the sticky paper method, Konferencja EGU General Assembly 2020: 4-8.05.2020, Wiedeń, Austria, EGU2020-16225
  2. 2020, Drop impact onto saturated glass beads bed – analysis of ejection of bed elements and deformation of surfaces, 19th International Workshop for Young Scientists BioPhys Spring 2020, May 19-21, 2020, Prague, Czech Republic, str. 22
  3. 2020, Particle displacement due to splash – analysis based on glass bead deposits, Konferencja EGU General Assembly 2020: 4-8.05.2020, Wiedeń, Austria, EGU2020-20742
  4. 2020, Methodological aspects of using high-speed cameras to quantify soil splash phenomenon, Geoderma, 378, 114592, str. 1-13, DOI: 10.1016/j.geoderma.2020.114592
  5. 2019, Pomiary rozbryzgu gleby w mikro skali, 30. Kongres Polskiego Towarzystwa Gleboznawczego GLEBA ŹRÓDŁEM ŻYCIA, 2-7.09.2019 Lublin, str. 93
  6. 2020, Surface deformation and displacement of bed elements during splash – Model tests, Catena, vol 185; DOI: 10.1029/2018JF004993
  7. 2019, Splash of Solid Particles as a Stochastic Point Process, Journal of Geophysical Research: Earth Surface, DOI: 10.1029/2018JF004993
  8. 2019, Influence of leaf surface wettability on the drop splash phenomenon, Agricultural and Forest Meteorology, 279(107762), str. 1-11, DOI: 10.1016/j.agrformet.2019.107762
  9. 2019, Analysis of the ways of using glass beads as a soil model material in splash research, 4 Th International Symposium of Soil Physics, BOOK OF ABSTRACTS, Lublin 13-14.02.2019, str. 27
  10. 2019, The mass proportions of ejected material during soil splash phenomenon, EGU General Assembly 2019, Wiedeń, Austria 7-12.04.2019 r, Vol. 21, EGU2019-14721-1
  11. 2019, Laser diffraction as an alternative method of measuring aggregate stability, EGU General Assembly 2019, Wiedeń, Austria 7-12.04.2019 r, Vol. 21, EGU2019-13922
  12. 2019, The mass ratio of splashed particles during raindrop splash phenomenon on soil surface, Geoderma, 347, str. 40-48, DOI: 10.1016/j.geoderma.2019.03.028
  13. 2018, Device optimization of the Mastersizer 3000 in the measurements of soil and sediment particle size distribution, Biennial Meeting of Hungarian Soil Science Society, Pécs, Hungary, 29.08-01.09.2018 r.,
  14. 2018, Modern Methods in Splash Erosion Research, Geophysical Research Abstracts, EGU 2018-19567-1, 2018, vol. 20
  15. 2018, Optimize the Settings of Mastersizer 3000 when Measuring the Particle-Size Distribution of Soils, 25th International Poster Day Transport of Water, Chemicals and Energy in the Soil-Plant-Atmosphere System", Bratysława, Słowacja, 7.11.2018 r., str. 9
  16. 2018, Laboratory measurement methods of splash erosion in micro scale, 12th International Conference on Agrophysics: Soil, Plant & Climate, Lublin 17-19.09.2018 r., str. 28
  17. 2018, Discrete element method simulations and experimental study of interactions in 3D granular bedding during low-velocity impact, Powder Technology, 340: 52-67
  18. 2018, Chapter Five – Laser Diffractometry in the Measurements of Soil and Sediment Particle Size Distribution, DOI: 10.1016/bs.agron.2018.04.003, Advances in Agronomy,
  19. 2018, An improved method for determination of aggregate stability using laser diffraction, Land Degradation & Development, DOI: 10.1002/ldr.2941
  20. 2018, The shape and dynamics of the generation of the splash forms in single-phase systems after drop hitting, Physics of Fluids, 30; DOI: 10.1063/1.4998675
  21. 2018, Parameterization of the crown based on the analysis of splash on the soil and model surface, 3rd International Symposium of Soil Physics “The common people doing the unusual things", Kraków, Poland 14-15.02.2018, str. 26-27
  22. 2018, The use of X-ray computed microtomography for soil craters created after the raindrop splash, 3rd International Symposium of Soil Physics “The common people doing the unusual things", Kraków, Poland 14-15.02.2018 , str. 14-15
  23. 2017, Comparison of the shape and dynamics of various splash forms in liquid single-phase systems, EGU General Assembly, Wiedeń, Austria 8-13.04.2017, EGU2017-12396, 2017
  24. 2017, The effectiveness of detection of splashed particles using a system of three integrated high-speed cameras, EGU General Assembly, Wiedeń, Austria 8-13.04.2017, Vol. 19, EGU2017-12281, 2017
  25. 2017, A system for recording of the mechanical impulse of the water drop’s impact on a soil surface, 2nd International Symposium of Soil Physics, Zabrze 8.02.2017, str. 27
  26. 2017, Single raindrop impact on soil surface as a sound wave source, 2nd International Symposium of Soil Physics, Zabrze 8.02.2017 , str. 26
  27. 2018, Application of X-ray computed microtomography to soil craters formed by raindrop splash, Geomorphology, 303: 357-361
  28. 2017, The noise of the soil splash, Conference "Degradation and Revitalization of Soil and Landscape" (Soil Science Days 2017), Olomouc, Czech Republic 10-13.09.2017 , str. 44
  29. 2017, The differences in crown formation during the splash on the thin water layers formed on the saturated soil surface and model surface, Plos One, DOI: 10.1371/journal.pone.0181974
  30. 2017, Use of the dynamic pressure sensor for recording of the mechanical impulse occurring in the soil after the water drop impact, 16th International Workshop for Young Scientists „BioPhys Spring 2017”, Lublin, Poland, 1-3.06.2017, str. 61
  31. 2017, Acoustic wave propagated in the air after the raindrop impact on soil surface, 16th International Workshop for Young Scientists „BioPhys Spring 2017”, Lublin, Poland, 1-3.06.2017, str. 26-27
  32. 2016, Effect of sand grain shape on root and shoot growth of wheat seedlings, Geoderma, 265: 1-5
  33. 2015, The Reasons for Incorrect Measurements of the Mass Fraction Ratios of Fine and Coarse Material by Laser Diffraction., Soil Science Society of America Journal, 79(1): 30-36
  34. 2015, Use of the Laser Diffraction Method for Assessment of the Pipette Method., Soil Science Society of America Journal, 79(1): 37-42
  35. 2015, Selection of shape parameters that differentiate sand grains, based on the automatic analysis of two-dimensional images., Sedimentary Geology, 327: 14-20
  36. 2015, Badanie siły uderzenia kropli wody z wykorzystaniem dynamicznego czujnika siły, 2015, 92-92
  37. 2014, Assessment of the usefulness of particle size distribution measured by laser differaction for soil water retention modelling., Journal of Plant Nutrition and Soil Science, 2014, 177(5): 803-813
  38. 2014, Impact of optical indices on particle size distribution of activated sludge measured by laser diffraction method., Ecological Chemistry and Engineering S, 2014, 21(1): 137-145
  39. 2014, Influence of the sand particle shape on particle size distribution measured by laser diffraction method., International Agrophysics, 2014, 28(2): 195-200
  40. 2014, Metody badania zjawiska rozbryzgu powodowanego pojedynczą kroplą symulowanego opadu, 2014, 131-131
  41. 2014, Numerical modelling of the impact of a liquid drop on the surface of a two-phase fluid system., 2014, Vol. 16, EGU2014-12447
  42. 2014, The issue of precision in the measurement of soil splash by a single drop using a high speed camera, 2014, Vol. 16, EGU2014-5134
  43. 2013, Methodological aspects of fractal dimension estimation on the basis of particle size distribution, Vadose Zone Journal, 2013, 12(1): 1-9
  44. 2013, A simple method for estimating particle numbers using a laser diffractometer, Polish Journal of Environmental Studies, 2013, 22(1): 213-218
  45. 2013, Influence of Optical Indices on PSD of Activated Sludge Measured by LDM, 2013, 129
  46. 2013, Numerical model of the splash crown shape in single fluid system (a drop water falling on the surface of water) using the finite volume method depending on the geometry of the system, 2013, 267-267
  47. 2013, Ładunki, jony, elektrony – z pasją o energii, 2013
  48. 2013, The use of microscopic images in soil spalsh measurements, 2013, 247-247
  49. 2013, Calculation of fractal dimension of soil on the basis of particle size distribution measured with the laser diffraction method, 2013, 112-112
  50. 2013, Use of the laser diffraction method for analysis of spatial variation of particle size distribution as exemplified by sediments within pocket infills in the Chełm chalk quarry (E Poland), 2013, 51-51
  51. 2013, The use of microscopic images in soil splash measurements, 2013, 247-247
  52. 2013, Numerical model of the spalsh crown shape in single fluid system (a drop of water falling on the surface of water) using the finite volume method depending in the geometry of the system, 2013, 267-267
  53. 2012, Comparison of soil texture determined by two dispersion units of Mastersizer 2000., International Agrophysics, 2012, 26(1): 99-102
  54. 2012, Measurement of activated sludge particle diameters using laser diffraction method / Pomiary średnicy cząstek osadu czynnego za pomocą metody dyfrakcji laserowej, Ecological Chemistry and Engineering S, 2012, 19(4): 597-608
  55. 2012, Ultrasonic stabilization of the activated sludge samples for particle size distribution PSD measurements using laser diffraction method, Proceedings of ECOpole, 2012, 6(2): 475-479
  56. 2012, Metoda określania liczebności cząstek z wykorzystaniem wzorca wewnętrznego przy zastosowaniu dyfrakcji laserowej., 2012, 77-77
  57. 2012, Wpływ związków żelaza na kształt cząstek frakcji piaszczystej wyznaczany za pomocą mikroskopii optycznej, 2012, 32-33
  58. 2012, Eksperymenty fizyczne z wykorzystaniem odnawialnych źródeł energii, 2012
  59. 2012, Mikroskopia optyczna – obiektywna metoda wyznaczania kształtu cząstek, 2012, 23-23
  60. 2012, Źródła energii na przykładzie wiatru, wody oraz przemian elektrochemicznych, 2012
  61. 2011, Wyznaczanie rozkładu granulometrycznego metodą dyfrakcji laserowej, 2011
  62. 2011, Kształt i wielkość cząstek w obiektywie mikroskopu morphologi G3, 2011, 8-8
  63. 2010, Characteristaion of particle shape, 2010, 36-37
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