Econtechmod. – 2018. – Vol. 7, No. 4

Permanent URI for this collectionhttps://ena.lpnu.ua/handle/ntb/46280

Науковий журнал

An international quarterly journal on economics in technology, new technologies and modelling processes

Econtechmod : an international quarterly journal on economics in technology, new technologies and modelling processes. – Lublin, 2018. – Volum 7, number 4. – 68 p.

Зміст (том 7, № 4)


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Content (Vol. 7, No 4)


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    New data acquisition system for birch sap concentrate production using the reverse osmosis technology
    (Lublin, 2018-06-26) Wawer, J.; Bilek, M.; Sosnowski, S.; Gdańsk University of Technology; University of Rzeszów
    The work presents a simple electronic device that helps to monitor the basic parameters of the reverse osmosis (RO) system during the concentration of birch tree sap. The construction costs are low (around 150 Euro) but the functionality of the device is high. It has an in-build two channel conductometer and can measure the volumetric flow rate of two streams of liquids. The collected data are transmitted wirelessly via Bluetooth to a PC computer. The new data acquisition system can help to monitor the work of RO apparatus in standard conditions or in the research and development works. It provides essential data for the process modeling and economic aspects analysis of birch sap concentrate production.
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    New technologies for extending shelf life of birch tree sap
    (Lublin, 2018-06-26) Bilek, M.; Cebula, E.; Krupa, K.; Lorenc, K.; Adamowicz, T.; Sosnowski, S.; University of Rzeszów; MA, Białystok, Poland
    Three experiments were carried out to assess the effectiveness of the so-called new technologies in extending birch tree sap shelf life. In the first one, microfiltration of birch sap was carried out using 0.22 μm, 0.45 μm and 0.8 μm filters. In the second experiment, ultraviolet radiation was applied for 5, 15 and 45 minutes. In the third experiment ultrasound was applied with one-, two-, three- and four-fold use. Regardless of the pore diameter, all the microfiltered samples were nonperishable for at least a month at room temperature. The efficacy of ultrasound was also demonstrated. The four-fold use of ultrasound proved to be the most effective and prolonged the shelf life of birch sap from one to two days at room temperature and from four to twelve days in refrigeration conditions. In turn, the use of ultraviolet radiation did not extend the shelf life of birch sap, although in refrigeration conditions the clouding was significantly inhibited. However, there is no doubt that among the so-called new technologies, microfiltration is the most advantageous in extending shelf life of birch sap and has perspectives for use in food industry.