Determination of the functional state of the fruits by parameters of the electric impedance
DOI:
https://doi.org/10.20535/RADAP.2014.56.102-111Keywords:
food quality control, functional state, electric impedance, modeling, two–terminal, phase, module, frequency response, phase responseAbstract
Introduction. To assess the freshness of various products are often used measuring impedance module. But due to the structure of plant foods diagnostic value should have exactly a complex component of impedance. Article tasked with developing criteria for assessing the functional state of the products subject to a comprehensive component of the impedance. Research methodology. To determine the functional status of the fruit were measured module and phase of impedance at the three frequencies of 20, 100 and 500 kHz. Criteria for recognition of functional status deter-mined by the dynamics of changes in the parameters of the complex impedance due to destructive processes caused by dehydration and putrefaction processes.Data processing and analysis. On the basis of experimental data obtained at three frequencies modeled frequency and phase response and their changes during losing of freshness and appear-ance of destructive processes.
Discussion and conclusions. In fresh and stale fruit modulus and phase of the impedance at low and high frequencies have characteristic differences. But this is especially evident on the phase–frequency characteristic, which can be seen that the value of the phase with the loss of freshness at low frequency decreases and increases at high more than twice during one week. Therefore, to assess the functional state of fresh and stale products we suggest use phase portraits of phase response.
References
Перелік посилань
Голев И. М. Температурная зависимость электрического импеданса паренхим-ных тканей овощей / И. М. Голев, Е. Ю. Бобкина // Теоретические и практиче-ские аспекты естественных и математических науки : межд. заочн. научн.–практ. конф., 24 декабря 2012 г. : тез. докл. – г. Новосибирск, 2012. – Режим доступа http://sibac.info/index.php/2009–07–01–10–21–16/5819–2013–01–17–11–50–05.
Авторськое свидетельство №899005, СРСР, МКВ G01N29/04, Способ определе-ния степени зрелости арбузов / В.В. Чаленко, Н.В. Руденко. – 2680160/30–15; заявка. 30.08.78 ; опубл. 23.01.82, Бюл.№ 3, 1982 г.
Пат. 55417U Україна, МПК9 G01N29/04. Спосіб реєстрації виходу плодів карто-плі зі стану спокою / С.М. Осінов, В.Ф. Заворотний, М.В. Чапний, Т.М. Чапний ; Національний університет біоресурсів і природокористування України. – u201007709 ; заявка. 18.06.10 ; опубл. 10.12.10, Бюл.№ 23, 2010 р.
Чаленко В.В. Технологические основы ресурсосберегающей системы машин для производства арбуза : автореф. дис. на соискание ученой степени докт. сельско–хозяйственных наук. – Астрахань, 2007. – 38с.
Шарпан О.Б., Безякіна Д.В. Оцінка впливу неоднорідності біотканини на чутли-вість частотного розподілу комплексного електричного імпедансу // Наукові вісті НТУУ «КПІ». – 2005. – № 6. – С.14–18.
Дворский В.Я. Измеритель параметров электрического импеданса биологиче-ских тканей и органов / В.Я. Дворский, В.Э. Синанов, О.Б. Шарпан, В.Т. Ярошенко // Известия вузов. Радиоэлектроника. – 1998. – № 7. –С. 75–77.
Шарпан О., Зудов О., Магльована Н., Павлов О., Сінанов В. Мікропроцесорний монітор комплексного електричного біоімпедансу // Труди 5–ї Міжнар. НТК „Досвід розробки і застосування САПР в мікроелектроніці”. – Львів: – 1999. – С. 192–193.
Тимошенко Г. В. О возможности применения трехчастотной импедансометрии неоднородных биологических объектов / Г.В. Тимошенко // Вестник НТУУ «КПИ». Серия Радиотехника. Радиоаппаратостроение. – 2013. – № 54. – с. 144–150.
Toy S.M., Melbin J., Noordergraaf A. Reduced Models of Atrerial System // IEEE Trans. of Biomedical Engineering. – 1985. – Vol. BME–32. – No.2. – P.174–176.
References
Golev I. M., Bobkina E. Yu. (2012) Temperaturnaya zavisimost' elektricheskogo impedansa parenkhimnykh tkanei ovoshchei [The temperature dependence of the electrical impedance of parenchymal tissue of vegetables]. Teoreticheskie i prakticheskie aspekty estestvennykh i matematicheskikh nauk [Proc. Conf. “ Theoretical and practical aspects of the natural and mathematical sciences”]. Novosibirsk.
Chalenko V.V., Rudenko N.V. (1982) Sposob opredeleniya stepeni zrelosti arbuzov [A method for determining degree of ripeness of watermelons] Patent SU, no 2680160/30–15.
Osinov S.M. e.a. (2010) Sposib reiestratsii vykhodu plodiv kartopli zi stanu spokoiu [Registration method of awake fruit potatoes from rest state] Patent UA, no. 55417U.
Chalenko V.V. (2007) Tekhnologicheskie osnovy resursosberegayushchei sistemy mashin dlya proizvodstva arbuza. Diss. dokt. nauk [Technological bases of resource system of machines for the production of watermelon. Dr. Agricultural Sci. Diss.]. Astrakhan', 38 p.
Sharpan O.B., Bezyakina D.V. (2005) Estimation of the effect of biologic tissue het-erogeneity on sensitivity of frequency distribution of a complex electric impedance. Naukovi Visty NTUU KPI, No. 6. pp. 14–18 (in Ukrainian)
Dvorskyi V.Ya., Synanov V.E., Sharpan O.B., Yaroshenko V.T. (1998) Izmeritel' pa-rametrov elektricheskogo impedansa biologicheskikh tkanei i organov [Measuring instrument the electrical impedance parameters of biological tissues and organs]. Izvestiya Vuzov. Radio-elektronika, vol. 53, no. 7, pp. 75–77.
Sharpan O., Zudov O., Magl'ovana N., Pavlov O., Sіnanov V. (1999) Mіkroprocesornij monіtor kompleksnogo elektrichnogo bіoіmpedansu [Microprocessor monitor of complex electrical bioimpedance]. Dosvіd rozrobki і zastosuvannja SAPR v mіkroelektronіcі [Experi-ence in the development and application of CAD systems in microelectronics].L'vіv: pp. 192–193.
Timoshenko G. V. (2013) Using the three–frequency bioimpedance measurement for inhomogeneous biological objects. Visn. NTUU KPI, Ser. Radioteh. radioaparatobuduv. no. 54, pp. 144–150. (in Russian)
Toy S.M., Melbin J., Noordergraaf A. (1985) Reduced Models of Atrerial System. IEEE Trans. of Biomedical Engineering. Vol. BME–32, No. 2, pp. 174–176.
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