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Purpose: of this paper was a practical approval whether fringe field interdigit dielectrometry (FFID) can be useful for sensible monitoring of water molecules behavior within granular-starch-population sample during it’s humidification process. Design/methodology/approach: used was to design methodology and perform series of measurements involving calibration of a measuring system, sample preparation and to record initial stage of starch-granules population samples humidification process as dielectric parameters response on the step of ambient atmosphere relative humidity (~0 to ~100%) at room temperature. Findings: it was found that FFID enables to follow and isolate new features and characteristic stages of water vapors behavior during humidification of vacuum- dried starch granules population. The measurement of dielectric properties of freely stacked granules population with unperturbed inter-granular contacts areas differs from the one, during which this contacts are being broken. Research limitations/implications: the possibility of new insight into humidification of micro-granular matter sample (starch granules population). It implies the necessity of collective (of global scale) model of dielectric properties creation. The evolution of dielectric permittivity is correlated with mass increase (water dipoles number) and adsorption rate as well as with absorption of water molecules within the granules population. Dielectric energy losses are correlated with evolution of interaction between water molecules and bio-polymeric matrix. Practical implications: huge amounts starch granules are produced transported and stored so proper understanding of wheat response on humidity change is also of great practical importance. Originality/value: of this paper relays on the fact that FFID was applied for the first time to starch granules population and it turned out to be effective tool in monitoring and modeling of dielectric properties of microgranular matter population and for granular starch in particular. It is important in modeling of collective dielectric properties of this kind of matter as well as of practical reasons specified above.
Wydawca
Rocznik
Tom
Strony
30--35
Opis fizyczny
Bibliogr. 19 poz.
Twórcy
autor
- Institute of Physics, Technical University, ul. Podchorążych 1, 30-084 Kraków, Poland, fstarzyk@ifpk.pk.edu.pl
Bibliografia
- [1] Y.K. Sheiretov, M. Zahn, Dielectrometry measurements of moisture dynamics in oil - impregnated presbord, IEEE Transactions on Dielectrics and Electrical Insulation 2 (1995) 329-351.
- [2] K. Sundara-Rajan, L. Byrd, A.V. Mamishev, Moisture content estimation in paper pulp using fringing field impedance spectroscopy, IEEE Sensors Journal (2004) 378-383
- [3] G. Schaumburg, Novocontrol introduces high quality low cost interdigitated comb electrodes, Dielectric Newsletter 12 (2006) 5-7.
- [4] N.F. Shepard Jr, S.L. Garveric, D.R. Day, S.D. Senturia, Microdielectrometry: a new method for in situ cure monitoring, Proceedings of the 26th SAMPLE Symposium Los Angeles CA, 1981, 65-76.
- [5] K.D. Haris, A. Huizinga, M.J. Brett, High-speed porous thin film humidity sensors, Electrochemical and Solid-State Letters 5 (2002) H27-H29.
- [6] Wah On Ho, S. Krause, C.J. Mc Neil, Electrochemical sensor for measurement of urea and creatinine in serum based on ac impedance measurement of enzyme-catalyzed, polymer transformation, Analytical Chemistry 71 (1999) 1940-1946.
- [7] A. Gusepi-Elie, G.G. Wallace, T. Matsue, Chemical and biological sensors based on electrically conducting polymers, Handbook of Conductive Polymers 2nd Edition, Marcel Dekker, NY 1998.
- [8] C. Berggren, B. Bjarnason, G. Johanson, Capacitive biosensors, Electroanalysis 13 (2001) 173-180.
- [9] M. Žitnanský, L.. Caplovic, l.. Rehák, F. Makai, Investigation and implantation of endo-prosthesis in biological experiment on animals, Journal of Achievements in Materials and Manufacturing Engineering 24/1 (2007) 146-152.
- [10] T. Nemoto, Z. Isogai, K. Koide, Y. Itoh, F. Nogata, A. Shimamoto, H. Matsuura, Viscoelasticity measurement of skin in vivo by rheometer, Journal of Achievements in Materials and Manufacturing Engineering 21/2 (2007) 33-36.
- [11] A.N. Donald, P.A. Perry, T.A. Waigh, The impact of internal granule structure on processing and properties in starch advances in structure and function, The Royal Society of Chemistry (2001) 45-52.
- [12] J. Einfeldt, D. Meißner, A. Kwasniewski, Contributions to the molecular origin of dielectric relaxation processes in polysaccharides-the high temperature range, Journal of Non-Crtstalline Solids 320 (2003) 40-55.
- [13] D. Meißner, J. Einfeldt, Dielectric relaxation analysis of strach oligomers and polymers with respect to their chain length, Journal of Polymer Science: Part B: Polymer Physics 42 (2004) 188-197.
- [14] T.P. Majumdev, D. Meißner, C. Schick, Dielectric processes of wet and well-dried wheat starch, Carbohydrate Polymers 65 (2004) 361-366.
- [15] J. Einfeldt, D. Meißner, A. Kwasniewski, L. Einfeldt, Dielectric spectroscopic analysis of wet and well dried starches in comparison with other polysaccharides, Polymer 42 (2001) 7049-7062.
- [16] F. Starzyk, L. Chengy-yi, P. Tomasik, Novel details of the structure of starch granule, IX International Starch Convention, Cracow, 2000, L-1, 51.
- [17] F. Starzyk, L. Cheng-yi, P.Tomasik, Visible light absorption, transmission and scattering by potato starch granules, Journal of Food Science 10 (2001) 27-24.
- [18] L. Czepirski, E. Komorowska-Czepirska, J. Szymońska, Fitting of different models for water vapour sorption on potato starch granules, Applied Science 196 (2002) 150-153.
- [19] P. Chinachoti, M.P. Steinberg, D.A. Payne, Measurement of dielectric constant to quantitate solute water in sucrosestarch- water system, Journal of Food Science 52 (1988) 580-583.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BSL9-0029-0006