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The effects of particular factors connected with maritime transport on quality and safety of cereal as a cargo

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The article discusses the effect of conditions during maritime transport on particular quality and safety parameters of cereal, in relation to quality management and logistics management. Therefore, transport requirements for cereal as a cargo were identified, and furthermore, threats resulting from improperly conducted logistic proces of bulk material with strong sorption properties were described. The aim of this article was to compare the differences in sorption properties between four selected cereal species using the static desiccator method. This method is the standard reference method. As a result of the conducted research, the existence of significant variability in the sensitivity to the effect of maritime transport conditions among cereal as a product group was identified. The most resistant to water vapor was rye grain. The differences between each cereal species should be associated with variability in the physical structure and chemical composition of grains of each individual cereal species. Further works in this area should take into consideration not only the diversity but also the variability of cereal sensitivity owing to the combined effect of relative humidity of the atmosphere and ambient temperature with use of the indepth thermodynamic analysis of sorption.
Czasopismo
Rocznik
Strony
19--32
Opis fizyczny
Bibliogr. 47 poz.
Twórcy
  • Gdynia Maritime University, 81-87 Morska, Gdynia, 81-225, Poland
  • Gdynia Maritime University, 81-87 Morska, Gdynia, 81-225, Poland
autor
  • Gdynia Maritime University, 81-87 Morska, Gdynia, 81-225, Poland
  • WSB Gdańsk 35/37 Śląska, Gdynia, 81-310, Poland
Bibliografia
  • 1. Atkins, P.W. Chemia fizyczna. Warsaw: PWN. 2003. [In Polish: Physical chemistry].
  • 2. Bizot, H. Using the “G.A.B.” model to construct sorption isotherms. In: Physical Properties of Foods. Jowitt, R. & Escher, F. & Hällström, B. & Meffert, H.F.T. & Spiess, W.E.L. & Vos, G. (eds.). Applied Science Publishers. New York. 1983. 43-54 p.
  • 3. Boiko, Y. & Ishchenko, O. & Barabanova, Y. Organizational and managerial aspects of economic efficiency of enterprises (for example, seaports). Baltic Journal of Economic Studies. 2019. Vol. 5. No. 5. P. 32-38.
  • 4. Braun, F. Untersuchungen über die löslichkeit fester körper und die den vorgang der lösung begleitenden volum - und energieänderungen. Zeitschrift für Physikalische Chemie. 2017. Vol 1U. No. 1. P. 259-272. [In German: Investigations into the solubility of solid bodies and the volume and energy changes accompanying the process of dissolution. Journal of Physical Chemistry].
  • 5. Brunauer, S. & Emmett, P.H. & Teller, E. Adsorption of gases in multimolecular layers. Journal of the American Chemical Society. 1938. Vol. 60. No. 2. P. 309-319.
  • 6. Central Statistical Office. Transport intermodalny w Polsce w 2018 r. Warsaw 2019. [In Polish: Intermodal transport in Poland in 2018].
  • 7. Central Statistical Office. Transport wyniki działalności w 2018 r. Warsaw 2019. [In Polish: Transport activity results in 2018].
  • 8. Danao, M-G.C. & Zandonadi, R.S. & Gates, R.S. Development of a grain monitoring probe to measure temperature, relative humidity, carbon dioxide levels and logistical information during handling and transportation of soybeans. Computers and electronics in agriculture. 2015. Vol. 119. P. 74-82.
  • 9. Fuller, S. & Puimsomboon, P. & Paggi, M. & Phillips, D. Modeling an intermodal transfer system – the case of export grain terminals. Logistics and transportation review. 1983. Vol. 19. No. 3. P. 195-210.
  • 10. Gal, S. The need for and practical applications of sorption data. In: Physical Properties of Foods. Jowitt, R. & Escher, F. & Hällström, B. & Meffert, H.F.T. & Spiess, W.E.L. & Vos, G. (eds.). Applied Science Publishers. New York. 1983.
  • 11. Garg, M. & Goh, M. & Gupta, S. & Lei, L. Multimodal transport: A framework for analysis of issues facing a regional organization. In: IMECS 2007: International Multiconference of Engineers and Computer Scientists. Vols. I and II. China, 2007. P. 2297-2302.
  • 12. Giaccone, V. & Ferri, M. Microbiological quantitative risk assessment and food safety: an update. Veterinary research communications. 2004. Vol. 29. P. 101-106.
  • 13. Janes, A. & Vignes, A. & Dufaud, O. Ignition temperatures of dust layers and bulk storages in hot environments. Journal of loss prevention in the process industries. 2019. Vol. 59. P. 106-117.
  • 14. Jencek, P. & Twrdy, E. Development of regional transport Logistics terminal – Transport Logistics approach. PROMET - traffic & transportation. 2008. Vol. 20. No. 4. P. 239-249.
  • 15. Kalogeraki, E-M. & Apostolou, D. & Polemi, N. & Papastergiou, S. Knowledge management methodology for identifying threats in maritime/logistics supply chains. Knowledge management research & practice. 2018. Vol. 16. No. 4. P. 508-524.
  • 16. Karel, M. Water activity and food preservation. In: Karel, M. & Fennema, O.R. & Lund, D.B. (eds.). Psychical principles of food preservation. Principles of food science. Part 2. New York. Marcel Dekker. P. 237-263.
  • 17. Kędzierska, K. & Pałacha, Z. The effect of temperature on the sorption properties of dried apples. Acta Agrophysica. 2012. Vol. 19. No. 3. P. 575-586.
  • 18. Le Chatelier, H. Recherches sur les équilibres chimiques. Paris. 1888. [In French: Research on chemical equilibria].
  • 19. Lewicki, P.P. The applicability of the GAB model to food water sorption isotherms. International Journal of Food Science Technology. 1997. Vol. 32. No. 6. P. 553-557.
  • 20. Liu, G. & Guo, L. Developing strategic cooperative relationship in the food supply chain: a food safety perspective. In: Proceedings of the First International Conference Economic and Business Management 2016. 2016. Vol. 16. P. 264-268. China.
  • 21. Los, A. & Ziuzina, D. & Bourke, P. Current and future technologies for microbiological decontamination of cereal grains. Journal of food science. 2018. Vol. 83. No. 6. P. 1484-1493.
  • 22. Meng, XR. Analysis of the operation mode of combined transport of railway and water on containers. In: 2018 First international conference on environment prevention and pollution control technology (EPPCT 2018). Japan. 2018. Vol. 199. No. 032017. P. 1-7.
  • 23. Mersin, K. & Bayirhan, I. & Gazioglu, C. Review of CO2 emission and reducing methods in maritime transportation. Thermal science. 2019. Vol. 23. P. S2073-S2079.
  • 24. Musil, M. Risk management in logistics. In: Crisis management and solutions of the crisis situations 2015. Czech Republic. 2015. P. 223-229.
  • 25. Ocieczek, A. Comparison of sorption properties of semolina and farina. Acta Agroph. 2007. Vol. 9. No. 1. P. 135-145.
  • 26. Ocieczek, A. Comparison of the sorption properties of milk powder with lactose and without lactose. Acta Agrophysica. 2014. Vol. 21. No. 4. P. 457-467.
  • 27. Ocieczek, A. & Schur, J. Ocena wpływu wybranych dodatków na właściwości sorpcyjne miękiszu pieczywa pszennego. Żywność. Nauka. Technologia. Jakość. 2015. Vol. 1. No. 98. P. 143-154. [In Polish: Assessment of the impact of selected additives on the sorption properties of wheat bread crumb].
  • 28. Ocieczek, A. & Pukszta, T. & Chilumbo, V. Comparison of sorption properties of black pepper of different fineness levels using selected models. International Agrophysics. 2020. Vol. 34. P. 161-171.
  • 29. Paderewski, M. Procesy adsorpcyjne w inżynierii chemicznej. Warsaw: WNT. 1999. [In Polish: Adsorption processes in chemical engineering].
  • 30. Pałacha, Z. & Sitkiewicz, I. Właściwości fizyczne żywności. Warsaw: WNT. 2010. [In Polish: Physical properties of food].
  • 31. Peleg, M. Assessment of a semi-empirical four parameter general model for sigmoid moisture sorption isotherms. Journal of Food Process Engineering. 1993. Vol. 16. No. 1. P. 21-37.
  • 32. Rahman, M.S. Food stability beyond water activity and glass transition: macro-micro region concept in the state diagram. International Journal of Food Properties. 2009. Vol. 12. P. 726-740.
  • 33. Rizvi, S.S.H. Thermodynamic properties of food in dehydration. In: Rao, M.A. & Rizvi, S.S.H. (eds.). Engineering Properties of Foods. Marcel Dekker Inc. New York-Basel-Hong Kong. 1995. P. 223-309.
  • 34. Sawinska, Z. & Świtek, S. & Głowicka-Wołoszyn, R. & Kowalczewski, P.L. Agricultural practic in Poland before and after mandatory IPM implementation by the European Union. Sustainability. 2020. Vol. 12. No. 3. P. 1-13.
  • 35. Scott, C. & Lundgren, H. & Thompson, P. Guide to supply chain management. Springer-Verlag Berlin, Germany 2001. P. 75-89.
  • 36. Seddiek, I.S. An overview: environmental and economic strategies for improving quality of ships exhaust gases. International Journal of Maritime Engineering. 2015. Vol. 157. No. A1. P. 53-64.
  • 37. Shollunayagam, R.M. & Thoo, AC. The evolution of logistics. Advanced Science Letters. 2018. Vol. 24. No. 6. P. 4455-4458.
  • 38. Stępień, A. & Witczak, M. & Witczak, T. Moisture sorption characteristics of food powders containing freeze dried avocado, maltodextrin and inulin. International Journal of Biological Macromolecules. 2020. Vol. 149. P. 256-261.
  • 39. Stępniewska, S & Cacak-Pietrzak, G. Pentozany – budowa, właściwości i znaczenie technologiczne. Przegląd Zbożowo-Młynarski. 2017. Vol. 61. No. 6. P. 8-12. [In Polish: Pentosans – structure, properties and technological significance].
  • 40. Timmermann, E.O. & Chirif, J. & Iglesias, H.A. Water sorption isotherms of foods and foodstuffs: BET or GAB parameters? Journal of Food Engineering. 2001. No. 48. P. 19-31.
  • 41. Timmermann, E.O. Multilayer Sorption parameters: BET or GAB Values? Colloids and Surface A: Physicochemial and Engineering Aspects. 2003. No. 220. P. 235-260.
  • 42. Vujic, M. & Skorput, P. & Mandzuka, B. Multimodal route planners in maritime environ Pomorctvo-Scientific Journal of Maritime Research. 2015. Vol. 29. No. 1. P. 1-7.
  • 43. Wierzejski, T. & Kędzior-Laskowska, M. Transport i spedycja. Olsztyn: EXPOL. 2014. Chapter 5. P. 97-115. [In Polish: Transport and forwarding].
  • 44. Wolf, W.R. & Spiess, W.E.L. & Jung, G. & Weisser, H. & Bizot, H. & Duckworth, R.B. The water vapour sorption isotherms of microcrystalline cellulose (MCC) and of purified potato starch: results of a collaborative study. Journal of Food Engineering. 1984. Vol. 3. No. 1. P. 51-72.
  • 45. Xiao, F. & Liu, XB. Pricing strategy of maritime transportation cost based on revenue management and empty container theory. Journal of Coastal Research. 2019. No. 98. P. 121-124.
  • 46. Yang, Z.L. & Qu, Z. Quantitative maritime security assessment: a 2020 vision. IMA Journal of Management mathematics. 2016. Vol. 27. No. 4. P. 453-470.
  • 47. Zheng, HL. & Lu, LL. A research on agricultural products supply chain and food safety. Applied economics, business and development. 2011. Vol. 208. P. 331-336.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d41ff10c-2557-4074-89cf-a0882006fa8e
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