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Vpliv vrste medu na tokovno vedenje
ID Rovan, Sara (Author), ID Slemenik Perše, Lidija (Mentor) More about this mentor... This link opens in a new window

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Abstract
Raziskave o reološkem vedenju medu so pomembne, saj je reološko vedenje povezano s senzoričnimi lastnostmi in je bistvenega pomena za nadzorovanje kakovosti produkta. Te raziskave nam dajejo pomembne informacije, kako med pravilno pridelamo, pakiramo, skladiščimo in ravnamo z njim. Na reološke lastnosti medu vplivajo številni dejavniki, kot je sestava in temperatura. Sestava in lastnosti medu so odvisne od vrste rastlin, iz katerih čebele nabirajo nektar oziroma mano, od geografskega izvora medu in podnebnih razmer, v katerih med dozori. Viskoznost je ena izmed najpomembnejših reoloških lastnosti medu, saj vpliva na njegovo kakovost. Tokovno vedenje medu največkrat merimo z rotacijskimi reometri z nastavljivo strižno napetostjo. Večina vrst medu izkazuje newtonsko vedenje, nekatere vrste pa se vedejo nenewtonsko s strižno odvisnim upadanjem viskoznosti. Viskoznost pri teh vrstah je časovno odvisna, govorimo o tiksotropiji. Razlog za takšno tokovno vedenje pripišemo koloidnim snovem v medu, ki imajo visoko molekulsko maso, kot so dekstrani in proteini. Nenewtonsko vedenje lahko opišemo z Herschel-Bulkley-jevim modelom, tiksotropijo pa z Weltmann-ovim. Poleg koloidnih snovi, kristalov in vsebnosti vode v medu vpliva na viskoznost tudi temperatura. Z Arrhenius-ovim modelom lahko natančno in najenostavnejše opišemo vpliv temperature na viskoznost medu ter določimo aktivacijsko energijo, ki nam poda informacijo, kako je viskoznost določene vrste medu občutljiva na spremembo temperature. V svojem diplomskem delu sem s pomočjo ustrezne literature proučevala proizvodnjo in sestavo medu, modele, s katerimi opišemo newtonsko in nenewtonsko vedenje ter modele za opis vpliva temperature na viskoznost medu. S pomočjo meritev iz objavljenih raziskav, sem proučila, kaj vpliva na tokovno vedenje in kako je viskoznost različnih vrst medu glede na različni geografski izvor odvisna od temperature.

Language:Slovenian
Keywords:proizvodnja medu, sestava medu, tokovno vedenje, viskoznost, tiksotropija
Work type:Bachelor thesis/paper
Typology:2.11 - Undergraduate Thesis
Organization:FKKT - Faculty of Chemistry and Chemical Technology
Year:2022
PID:20.500.12556/RUL-139154 This link opens in a new window
COBISS.SI-ID:122500355 This link opens in a new window
Publication date in RUL:31.08.2022
Views:657
Downloads:112
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Secondary language

Language:English
Title:The influence of honey type on flow behaviour
Abstract:
Research on the rheological behavior of honey is important, as rheological behavior is related to sensorial properties and is essential for product quality control. This research provides important information on how honey is properly produced, packaged, stored, and handled. The rheological properties of honey are influenced by many factors, such as composition and temperature. The composition and properties of honey depend on the type of plants from which bees collect nectar or honeydew, from the geographical origin of the honey and the climatic conditions in which it matures. Viscosity is one of the most important rheological properties of honey, as it affects its quality. The flow behaviour of honey is most often measured by controlled stress rheometers. Most types of honey exhibit Newtonian behaviour, while some of them are non-Newtonian with shear thinning flow behaviour. The viscosity of these types is usually also time-dependent, i.e.; thixotropic. The reason for such flow behavior is attributed to high molecular weight colloidal substances such as dextran and proteins. Non-Newtonian behaviour can be described by the Herschel-Bulkley model, and thixotropy by the Weltmann model. In addition to colloidal substances, crystals and water content in honey, the viscosity is also affected by temperature. With the Arrhenius model, we can accurately and simply describe the effect of temperature on the viscosity of honey and determine the activation energy, which gives us the information on how sensitive the viscosity of a particular type of honey is to changes in temperature. With the help of reported studies in the literature, I studied the production and composition of honey, models to describe Newtonian and non-Newtonian behaviour, and models to describe the effect of temperature on the viscosity of honey. Using measurements from published research, I studied what influences flow behaviour and how the viscosity of different types of honey of different geographical origins depends on temperature.

Keywords:honey production, composition of honey, flow behaviour, viscosity, thixotropy

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