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Skuteczność ogrzewania dielektrycznego częstotliwością radiową w hamowaniu rozwoju grzybów w sadzonkach trzciny cukrowej: badanie zrównoważonych praktyk rolniczych
Języki publikacji
Abstrakty
This study explores the efficacy of radio frequency (RF) dielectric heating as a non-chemical alternative for controlling fungal infections in sugarcane cuttings. Utilizing an innovative experimental setup, the research investigates the impact of various electric field intensities (115 kV/m, 150 kV/m, and 225 kV/m) and temperatures (70°C, 90°C, and 110°C) on fungal growth inhibition. The methodology involves exposing sugarcane cuttings placed between parallel electrode plates to controlled RF heating, with the goal of determining optimal conditions for fungal suppression without compromising the integrity of the plant tissue. The results indicate that higher temperatures combined with increased electric field strengths significantly enhance the inhibitory effects on fungal growth. The findings suggest that RF heating could be a viable method for sustainable fungal management in agriculture, reducing reliance on chemical fungicides and minimizing environmental impact. The study not only confirms the potential of RF dielectric heating in agricultural settings but also sets the stage for further research into scalable applications and long-term effects on plant health.
W niniejszej pracy zbadano skuteczność ogrzewania dielektrycznego częstotliwości radiowej (RF) jako niechemicznej alternatywy do zwalczania infekcji grzybiczych w sadzonkach trzciny cukrowej. Wykorzystując innowacyjną konfigurację eksperymentalną, badanie omawia wpływ różnych natężeń pola elektrycznego (115 kV/m, 150 kV/m i 225 kV/m) i temperatur (70°C, 90°C i 110°C) na hamowanie wzrostu grzybów. Metodologia obejmuje wystawianie sadzonek trzciny cukrowej umieszczonych między równoległymi płytkami elektrod na kontrolowane ogrzewanie RF, w celu określenia optymalnych warunków do tłumienia grzybów bez narażania integralności tkanki roślinnej. Wyniki wskazują, że wyższe temperatury w połączeniu ze zwiększonymi natężeniami pola elektrycznego znacznie wzmacniają hamujące działanie na wzrost grzybów. Wyniki sugerują, że ogrzewanie RF może być wykonalną metodą zrównoważonego zarządzania grzybami w rolnictwie, zmniejszając zależność od chemicznych fungicydów i minimalizując wpływ na środowisko. Badanie nie tylko potwierdza potencjał ogrzewania dielektrycznego RF w zastosowaniach rolniczych, ale także przygotowuje grunt pod dalsze badania nad skalowalnymi zastosowaniami i długoterminowym wpływem na zdrowie roślin
Wydawca
Czasopismo
Rocznik
Tom
Strony
157--163
Opis fizyczny
Bibliogr. 26 poz., rys., tab.
Twórcy
autor
- School of Electronic Engineering, Suranaree University of Technology, Nakhon Ratchasima, Thailand
autor
- School of Electronic Engineering, Suranaree University of Technology, Nakhon Ratchasima, Thailand
autor
- School of Electronic Engineering, Suranaree University of Technology, Nakhon Ratchasima, Thailand
autor
- School of Electronic Engineering, Suranaree University of Technology, Nakhon Ratchasima, Thailand
autor
- School of Electronic Engineering, Suranaree University of Technology, Nakhon Ratchasima, Thailand
autor
- School of Electronic Engineering, Suranaree University of Technology, Nakhon Ratchasima, Thailand
autor
- School of Electronic Engineering, Suranaree University of Technology, Nakhon Ratchasima, Thailand
autor
- School of Electronic Engineering, Suranaree University of Technology, Nakhon Ratchasima, Thailand
autor
- School of Electronic Engineering, Suranaree University of Technology, Nakhon Ratchasima, Thailand
autor
- School of Electronic Engineering, Suranaree University of Technology, Nakhon Ratchasima, Thailand
Bibliografia
- [1] Anderson, R., et al., Environmental impacts of fungicide use. Environmental Science & Technology, 52, (2018), 833-844.
- [2] Firacative C., Invasive fungal disease in humans: are we aware of the real impact, Mem Inst Oswaldo Cruz, 2020 Oct 9, 115 200430.
- [3] Bennett, L., et al., Economic and ecological benefits of non-chemical pest control. Journal of Cleaner Production, 221 (2019), 112-120.
- [4] Fisher, M., et al., Threats Posed by the Fungal Kingdom to Humans, Wildlife, and Agriculture. mBio. 2020 May 11 no.3, 00449-20.
- [5] Lee, M. H., Kim, J. T., and Patel, D. K., Advances in thermal treatment techniques for pest control in foods. Food Control, 76, (2017), 10-19.
- [6] Hong, L., Zhenyu, Z., Christos, X., Georgios, D., Stefanidis, X. L., Xin, G., Fundamentals and applications of microwave heating to chemicals separation processes, Renewable and Sustainable Energy Reviews, 114, (2019), 109316.
- [7] Sun, J., Wang, W., Yue, Q., Review on Microwave-Matter Interaction Fundamentals and Efficient Microwave-Associated Heating Strategies. Materials (Basel). 9 (2016), no.4, 231.
- [8] Jakkarin, S., Thanaset, T., Santalunai, S., Thongsopa, C., Experiment of Induction Heating Application for Heating Multilayer Metallic Hollow Altered Cylinder, The 5th International Conference on Industrial Engineering and Applications (ICIEA), National University of Singapore, April 26-28, 2018.
- [9] Santalunai, S., Thosdeekoraphat, T., Thongsopa, C., Thermal Analysis of Inductive Coils Array against Cylindrical Material Steel for Induction Heating Applications. Applied Mechanics and Materials, 330, (2013) 754-759.
- [10] Poungprakhon, N., Thongsopa, C., Santalunai, S., Thosdeekoraphat, T., Santalunai, N., Chaipanya, P., The Study of Water Reconditioning using Magnetic Field for Plant Industry, Przegląd Elektrotechniczny, 99, (2023), No. 7, 59-64.
- [11] Kotchapradit, S., Thosdeekoraphat, T., Santalunai, S., Thongsopa, C., Improvement of Electric Field Focusing for Deep Hyperthermia in Breast Cancer Treatment by Using Microwave Dielectric Heating with Curved Plate Applicator, Asia-Pacific Microwave Conference, (2018), 1474-1476.
- [12] Kotchapradit, S., Thosdeekoraphat, T., Santalunai, S., Thongsopa, C., Analysis of High Frequency Curved Plate Applicator for Deep Hyperthermia in Breast Cancer Treatment by Using Dielectric Heating, International Symposium on Antennas and Propagation, (2018), 8627807.
- [13] Santalunai, S., Thongsopa, C., Thosdeekoraphat, T., The efficiency of dielectric heating by using symmetrically electric power ports on electrode plate for pest control, 2015 12th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology, (2015), 1-4.
- [14] Seehanan, T., Fhafhiem, N., Santalunai, S., Krachodnok, P., Analysis of electric fields distribution by using EBG structure for dielectric heating applications, 4th International Conference on Engineering, Applied Sciences and Technology: Exploring Innovative Solutions for Smart Society, (2018), 1-4.
- [15] Santalunai, N., Santalunai, S., Meesawad, P., Tongsopa, C., Santalunai, S., Plus-Shape of Mushroom-Like EBG with Square Microstrip Emitter to Expand the Working Space in Dielectric Heating Applications, International Journal of Intelligent Engineering and Systems, 14 (2021), No. 3, 189-200.
- [16] Santalunai, N., Santalunai, S., Adisak, R., Pichaya C., Meesawad, P., Tongsopa, C., Tajchai, P., Investigation on Characteristics of Metamaterials by Using Metallic Rod Structure for Antenna Engineering, Przegląd Elektrotechniczny, 98, (2022), No. 5, 103-109.
- [17] N. Santalunai, S. Santalunai, W. Naktong, P. Chaipanya, P. Mesawad and P. Krachodnok, Advancements in Mobile Communication: A Novel Sectoral Antenna Design Incorporating Magneto-Electric Curved Strip Dipoles and PRS Superstrate, IEEE Access, 12 (2024), 29837-29849.
- [18] Sutacha, C., Santalunai, S., Thongsopa, C., Thosdeekoraphat, T., Penkhrue, W., Inactivation of Contaminated Fungi in Rice Grains by Dielectric Heating, Applied Sciences, 12 (2022), no. 20, 10478.
- [19] Yodrot, T., Santalunai, S., Thongsopa, C., Thosdeekoraphat, T., Santalunai, N., Measurement of Dielectric Properties in Soil Contaminated by Biodiesel-Diesel Blends Based on Radio Frequency Heating, Applied Sciences, 13 (2023), no. 3, 1248.
- [20] Ratniyomchai, K., Santalunai, S., Thosdeekoraphat, T., Thongsopa, C., Optimization of capacitor copper plate for dielectric heating to eliminate insect, Applied Mechanics and Materials, 343 (2013), 101-105.
- [21] Srisuma, C., Santalunai, S., Thosdeekoraphat, T., Thongsopa, C., The Analysis and Design of Milk Pasteurization System by Using Radio Frequency Electric Fields, The 2017 Asia-Pacific International EMC Symposium, (2017), 158-160.
- [22] Martin, P., Zhang, Y., & Williams, A., RF heating technology in the agricultural industry: Current status and future directions. Agricultural Systems, 180, (2020), 102791.
- [23] Jamil, A., et al., Microwave chemistry: Effect of ions on dielectric heating in microwave ovens, Arabian Journal of Chemistry, 8, (2015) no 1, 100-104.
- [24] Patel, S., Anderson, M., & Clarkson, J., Enhancing sustainability in farming with RF dielectric heating systems. Sustainable Agriculture Reviews, 38, (2021), 45-63.
- [25] Zhang, H., Li, C., & Patel, K., Optimization of radio frequency heating for pest control in stored grains. Journal of Stored Products Research, 91, (2021), 101726.
- [26] Chen, G., et al. Reducing the carbon footprint in the food industry: Case studies from Japan. Environmental Management, 63, (2019). no.4, 465-482.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-25f4b546-799c-408f-a864-988e9dc99f85
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