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Niektóre aspekty monitorowania różnych procesów w rolnictwie z wykorzystaniem zjawisk emisji akustycznej
Języki publikacji
Abstrakty
The technique of acoustic emission has been shown to be useful for monitoring and measurement of transportation and mixing of feed concentrates and other ingredients. This method is ideally suited for flow/no flow alarm indicators, requiring no calibration and only basic electronic support. If the method is to be used for analysis of mixtures, the components must be sufficiently different in particle size or density. Besides that, the detection of particle breakdown and damage should be possible.
Wykazano, że technika emisji akustycznej jest przydatna do monitorowania i pomiaru transportu oraz mieszania koncentratów paszowych i innych składników. Metoda ta idealnie nadaje się do wskaźników alarmowych przepływu/braku przepływu, nie wymagając kalibracji i jedynie podstawowego wsparcia elektronicznego. Jeżeli metoda ma być stosowana do analizy mieszanin, składniki muszą różnić się dostatecznie wielkością cząstek lub gęstością. Poza tym powinno być możliwe wykrywanie rozkładu i uszkodzeń cząstek.
Wydawca
Czasopismo
Rocznik
Tom
Strony
23--27
Opis fizyczny
BIbliogr. 35 poz., fig
Twórcy
autor
- Institute of Technology and Life Sciences, National Researach Institute, Falenty
autor
- Institute of Technology and Life Sciences, National Researach Institute, Falenty
autor
- Institute of Technology and Life Sciences, National Researach Institute, Falenty
Bibliografia
- [1] Barwicki J.: Acoustic emission related to a different agricultural products during mixing and transportation. (Unpublished). Silsoe Research Institute, England (1992).
- [2] Barwicki J., Phillips V.R, Stafford J.V.: Methods for determining the end point of processes for mixing agricultural and food mate rials. A literature review and some concepts for the future. Silsoe Research Institute, England (1990).
- [3] Leatherhead Food Research Association – research materials, England (2003).
- [4] Romaniuk W.: Technological influence of milk production con cerning energy and costs of investment of family farms. Post doctoral dissertation, IBMER, Warsaw (1996).
- [5] Stress Wave Technology – research materials, England (2004).
- [6] Barwicki J., Mazur K., Kierończyk M., Borek K., Wardal W.J., Roman K.K.: Wpływ zakwaszania gnojowicy kwasem siarko wym na wybrane właściwości fizykochemiczne gleb na przy kładowych uprawach. Przem. Chem. 11 (99) (2020) 1600, DOI: 10.15199/62.2020.11.2.
- [7] Barwicki J., Mazur K., Borek K.: Some aspects of using automa ted electronic systems in development of modern agriculture. Inż. Mat. 4 (2020) 13, DOI: 10.15199/28.2020.4.
- [8] Barwicki J.: General aspects and international regulations con cerning soil tillage conservation from the point of view of agricul tural crop production and environment protection. ITP, Falenty (2011) 7.
- [9] Barwicki J.: Some aspects of plants cultivation using precision agriculture. ITP, Falenty (2011) 127.
- [10] Barwicki J., Kuboń M., Marczuk A.: New developments of solar energy utilization in the aspect of EU directives. Agric. Eng. 2 (21) (2017) 15.
- [11] Chlebowski J., Nowakowski T., Barwicki J., Gach S., Jaremczuk M.: Ensilaging of beet pulp use of wrapping press. J. Res. Appl. Agric. Eng. 4 (63) (2018) 38.
- [12] HELCOM. 2013. Revised nutrient targets. http://www.helcom. fi/baltic-sea-action-plan/nutrient-reductionscheme/targets.
- [13] Gach S., Ivanovs S., Barwicki J., Karwowski B.: Expenditure for harvesting and ensiling of low stalk green fodder using press and pickup trailer. J. Res. Appl. Agric. Eng. 2 (61) (2016) 21.
- [14] Roman K., Borek K., Mazur K.: Comparison of cracks criteria MPS, S-Criterion, T-Criterion using a computer program to obtain the angle of fracture propagation. Inż. Mat. 6 (40) (2019) 32, DOI: 10.15199/28.2019.6.5.
- [15] Wardal W., Kierończyk M., Barwicki J., Borek K., Mazur K., Konieczna A.: Legal conditions for the use of sulfuric acid in liquid manure to reduce nitrogen losses. Przem. Chem. 8 (98) (2019) 1179.
- [16] Wardal W.J., Mazur K.E., Roman K., Roman M., Majchrzak M.: Assessment of cumulative energy needs for chosen techno logies of cattle feeding in barns with conventional (CFS) and automated feeding systems (AFS). Energies 14 (2021) 8584, https://doi.org/10.3390/en14248584.
- [17] Martin T., Gasselin P., Hostiou N., Feron G., Laurens L., Purseigle F., Ollivier G.: Robots and transformations of work in farm. A systematic review of the literature and a research agenda. Agron. Sustain. Dev. 42 (2022) 66, https://doi.org/10.1007/s13593-022- 00796-2.
- [18] Common Agricultural Policy 2022–2027, European Commission, https://agriculture.ec.europa.eu/common-agricultural-policy/ cap-overview/cap-glance_en, accessed 15.11.2023.
- [19] From farm to fork strategy, European Commission, https://food. ec.europa.eu/horizontal-topics/farm-fork-strategy_en, accessed 15.11.2023.
- [20] O’Connor S., Ehimen E., Pillai S.C., Lyons G., Bartlett J.: Econo mic and environmental analysis of small-scale anaerobic dige stion plants on Irish dairy farms. Energies 13 (2020) 637, doi. org/10.3390/en13030637.
- [21] Borek K., Romaniuk W., Roman K., Roman M., Kuboń M.: The analysis of a prototype installation for biogas production from chosen agricultural substrates. Energies 14 (2021) 2132, https:// doi.org/10.3390/en14082132.
- [22] Hryniewicz M., Roman K.: Simulations of fuels consumption in the CHP system based on modernised GTD-350 turbine engine. J. Water Land Develop. 51 (2021) 250, DOI: 10.24425/ jwld.2021.139036.
- [23] Skibko Z., Tymińska M., Romaniuk W., Borusiewicz A.: Impact of the wind turbine on the parameters of the electricity, supply to an agricultural farm. J. Water Land Develop. 53 (2021) 73, DOI: 10.24425/jwld.2022.140782.
- [24] Aerts J., Kolenda M., Piwczyński D., Sitkowska B., Önder H.: Fore - casting milking efficiency of dairy cows milked in an automatic milking system using the decision tree technique. Animals 12 (2022) 1040, https://doi.org/10.3390/ani12081040 13.
- [25] Shine P., Upton J., Sefeedpari P., Murphy M.D.: Energy consump - tion on dairy farms. A review of monitoring, prediction, modelling, and analyses. Energies 13 (2020) 1288.
- [26] Bernhardt H., Höhendinger M., Stumpenhausen J.: Development of the technical structure of the “cow energy” concept. Agronomy 11 (10) (2021) 1915, DOI: 10.3390/agronomy11101915.
- [27] Da Borso F., Chiumenti A., Sigura M., Pezzuolo A.: Influence of automatic feeding systems on design and management of dairy farms. J. Agric. Eng. 48 (s1) (2017) 48.
- [28] Cogato A., Brščić M., Guo H., Marinello F., Pezzuolo A.: Challenges and tendencies of automatic milking systems (AMS). A 20-years systematic review of literature and patents. Animals 11 (2021) 356, https://doi.org/10.3390/ani11020356.
- [29] Bhoj S., Tarafdar A., Singh M., Gaur G.K.: Smart and automatic milking systems. Benefits and prospects. In Sehgal S., Singh B., Sharma V. (eds): Smart and sustainable food technologies. Springer, Singapore (2022), https://doi.org/10.1007/978-981-19- 1746-2_4.
- [30] Alhomoch F.: Influence of different technical elements and settings in automatic milking systems on the quality of dairy cows’ milk.2021. PhD dissertation, Humboldt University, Germany (2021), https://edoc.hu-berlin.de/bitstream/han - dle/18452/24337/dissertation_alhomoch_fadi.
- [31] Hogeveen H., Klaas I.C., Dalen G., Honig H., Zecconi A., Kelton D.F., Sánchez Mainar M.: Novel ways to use sensor data to impro - ve mastitis management. J. Dairy Sci. 104 (2021) 11317.
- [32] Martin T., Gasselin P., Hostiou N., Feron G., Laurens L., Purseigle F., Ollivier G.: Robots and transformations of work in farm: a sys - tematic review of the literature and a research agenda. Agron. Sustain. Dev. 42 (2022) 66, https://doi.org/10.1007/s13593-022- 00796-2.
- [33] Barwicki J., Borek K., Mazur K., Kierończyk M.: New develop - ments in methane fermentation and ammonia emission to obtain better environmental conditions for living in country side area. Pol. Tech. Rev. 1 (2023) 13, DOI: 10/15 199/180.2023.1.3.
- [34] Borowski P.F., Barwicki J.: Efficiency of utilization of wastes for green energy production and reduction of pollution in rural areas. Energies 16 (2023) 13, https//doi.org/10.3390/en16010013.
- [35] Mazur K., Barwicki J., Tseiko V.: Comparison of mechanized and automated technologies in the scope of cumulative energy in sustainable milk production. Sustainability 16 (2) (2024) 906, https://doi.org/10.3390/su16020906.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-05fbef00-f920-4053-a683-9f094cd9d36f