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HomeKey Engineering MaterialsKey Engineering Materials Vol. 953Study of Humidity During Sand Dewatering Using a...

Study of Humidity During Sand Dewatering Using a Cone-Shaped Installation

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Abstract:

The issue of moisture content of sand, which is used in construction as an aggregate for asphalt concrete mixtures, in the production of silicate building materials, roofing roll materials, and various types of glass, is considered. The results of an experimental study of the process of dewatering construction sand samples in conical warehouses under the conditions of using vacuum systems, depending on the time and placement scheme of needle filters, are presented.

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Periodical:

Key Engineering Materials (Volume 953)

Pages:

43-51

DOI:

https://doi.org/10.4028/p-toG6wu

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Cite this paper

Online since:

August 2023

Authors:

Dmytro Beliuchenko*, Kateryna Tishechkina, Tetiana Hannichenko, Olga Salamatina

Keywords:

Cone-Shaped Installation, Dehydration, Sand, Vacuum System

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* - Corresponding Author

[1] What Is Sand. URL: https://dailycivil.com/types-of-sand-used-in-construction-works-daily-civil/ (date of access: 27.02.2023)

[2] O. Rybalova, S. Artemiev, M. Sarapina, B. Tsymbal, A. Bakhareva, O. Shestopalov, O. Filenko, Development of methods for estimating the environmental risk of degradation of the surface water state, Eastern-European Journal of Enterprise Technologies, 2 (10 (92)) (2018) 4–17.

DOI: 10.15587/1729-4061.2018.127829

[3] S. Vambol, V. Vambol, O. Kondratenko, Y. Suchikova, O. Hurenko, Assessment of improvement of ecological safety of power plants by arranging the system of pollutant neutralization, Eastern-European Journal of Enterprise Technologies, 3 (10 (87)) (2017) 63–73.

DOI: 10.15587/1729-4061.2017.102314

[4] O. Vambol, A. Kondratiev, S. Purhina, М. Shevtsova, Determining the parameters for a 3D-printing process using the fused deposition modeling in order to manufacture an article with the required structural parameters, Eastern-European Journal of Enterprise Technologies, 2/1 (110) (2021) 70–80.

DOI: 10.15587/1729-4061.2021.227075

[5] B. Pospelov, V. Andronov, E. Rybka, O. Krainiukov, N. Maksymenko, R. Meleshchenko, Y. Bezuhla, I. Hrachova, R. Nesterenko, A. Shumilova, Mathematical model of determining a risk to the human health along with the detection of hazardous states of urban atmosphere pollution based on measuring the current concentrations of pollutants, Eastern-European Journal of Enterprise Technologies, 4 (10) (2020) 37–44.

DOI: 10.15587/1729-4061.2020.210059

[6] O. Teslenko, A. Chernukha, O. Bezuglov, O. Bogatov, E. Kunitsa, V. Kalyna, A. Katunin, V. Kobzin, S. Minka, Construction of an algorithm for building regions of questionable decisions for devices containing gases in a linear multidimensional space of hazardous factors, EasternEuropean Journal of Enterprise Technologies, 5 (10 (101)) (2019) 42–48.

DOI: 10.15587/1729-4061.2019.181668

[7] Types of Sand used in Construction. URL: https://constrofacilitator.com/types-of-sand-used-in-construction/ (date of access: 27.02.2023)

[8] V. Golovanevskiy, A. Kondratiev, Elastic properties of steel-cord rubber conveyor belt, Experimental Techniques, 45, 2 (2021) 217–226.

DOI: 10.1007/s40799-021-00439-3

[9] Sand: Sources, Classification, Properties, Tests and Substitutes | Construction. URL: https://www.engineeringenotes.com/engineering-materials-2/sand/sand-sources-classification-properties-test-and-substitutes-construction/46490 (date of access: 27.02.2023)

[10] Y. Otrosh, A. Kovalov, O. Semkiv, I. Rudeshko,V. Diven, Methodology remaining lifetime determination of the building structures, MATEC Web of Conferences, 230 (02023) (2018).

DOI: 10.1051/matecconf/201823002023

[11] V. Loboichenko, A. Vasyukov, T. Tishakova, Investigations of Mineralization of Water Bodies on the Example of River Waters of Ukraine, Asian Journal of Water, Environment and Pollution, 14 (4) (2017) P. 37–41.

DOI: 10.3233/ajw-170035

[12] V. Loboichenko, V. Strelec, The natural waters and aqueous solutions express-identification as element of determination of possible emergency situation, Water and Energy International, 61RNI (9) (2018) 43–50

[13] D. Dubinin et al., Investigation of the effect of carbon monoxide on people in case of fire in a building Testing action ugličnog monoxide on people in case fire in the building Safety, 62 (4) (2020) 347–357.

DOI: 10.31306/s.62.4.2

[14] V. Sadkovyi, V. Andronov, O. Semkiv, A. Kovalov, E. Rybka, Yu. Otrosh, et. al.; Sadkovyi, V., Rybka, E., Otrosh, Yu. (Eds.) Fire resistance of reinforced concrete and steel structures. Kharkiv: РС ТЕСHNOLOGY СЕNTЕR, 180 (2021).

DOI: 10.15587/978-617-7319-43-5

[15] A. Chernukha, A. Сhernukha, K. Ostapov, T. Kurska, Investigation of the Processes of Formation of a Fire Retardant Coating, Materials Science Forum, 1038 (2021) 480–485.

DOI: 10.4028/www.scientific.net/msf.1038.480

[16] A. Kovalov, Y. Otrosh, S. Vedula, O. Danilin, T. Kovalevska, Parameters of fire-retardant coatings of steel constructions under the influence of climatic factors, Naukovyi Visnyk Natsionalnoho Hirnychoho University, 3 (2019) 46–53.

DOI: 10.29202/nvngu/2019-3/9

[17] O. Kondratenko, S. Vambol, O. Strokov, A. Avramenko, Mathematical model of the efficiency of diesel particulate matter filter, Naukovyi Visnyk Natsionalnoho Hirnychoho University, 6 (2015) 55–61.

[18] A. Panchenko, A. Voloshina, O. Boltyansky, I. Milaeva, I. Grechka, S. Khovanskyy, M. Svynarenko, O. Glibko, M. Maksimova, N. Paranyak, Designing the flow-through parts of distribution systems for the PRG series planetary hydraulic motors, Eastern-European Journal of Enterprise Technologies, 3 (1 (93)) (2018) 67–77.

DOI: 10.15587/1729-4061.2018.132504

[19] A. Pilipenko, H. Pancheva, A. Reznichenko, O. Myrgorod, N. Miroshnichenko, A. Sincheskul, The study of inhibiting structural material corrosion in water recycling systems by sodium hydroxide, Eastern-European Journal of Enterprise Technologies. 2 (1 (85)) (2017) 21–28.

DOI: 10.15587/1729-4061.2017.95989

[20] Yu. Otrosh, O. Semkiv, E. Rybka, A. Kovalov, About need of calculations for the steel framework building in conditions of temperature influences, IOP Conference Series: Materials Science and Engineering, 708 (1 (012065)) (2019).

DOI: 10.1088/1757-899x/708/1/012065

[21] K.V. Korytchenko et al., Enhancing the Fire Resistance of Concrete Structures by Applying Fire-Retardant Temperature-Resistant Metal Coatings , Materials Science Forum, 1038 (2021) 500–505.

DOI: 10.4028/www.scientific.net/msf.1038.500

[22] A. Chernukha, O. Teslenko, P. Kovaliov, O. Bezuglov, Mathematical Modeling of Fire-Proof Efficiency of Coatings Based on Silicate Composition, Materials Science Forum, 1006 (2020) 70.

DOI: 10.4028/www.scientific.net/msf.1006.70

[23] K.V. Korytchenko et al., Advanced detonation gun application for aluminum oxide coating , Multidisciplinary journal "Functional Materials", 27 (1) (2020) 224–229.

[24] A. Kovalov, Y. Otrosh, O. Ostroverkh, O. Hrushovinchuk, O Savchenko, Fire resistance evaluation of reinforced concrete floors with fire-retardant coating by calculation and experimental method, E3S Web of Conferences, 60 (00003) (2018).

DOI: 10.1051/e3sconf/20186000003

[25] A.N. Pavlov, Yu.I. Gol'Tsov, L.R. Mailyan, A.S. Makh, E.M. Shcherban, Dehydration factor upon activation of building sand by ultraviolet radiation, Materials Science and Engineering, 896 (2020) 1–6.

DOI: 10.1088/1757-899x/896/1/012123

[26] G. Jordan, C. Eulenkamp, E. Calzada, B. Schillinger, M. Hoelzel, A. Gigler, H. Stanjek, W. Schmahl, Quantitative in situ Study of the Dehydration of Bentonite-Bonded Molding Sands, Clays and Clay Minerals, 61 (2) 133–140.

DOI: 10.1346/ccmn.2013.0610210

[27] S. Hong, W. Um, Decontamination of neutron-activated radioactive concrete waste by separating Eu, Co, Fe, and Mn -containing sand particles using dense medium separation, Journal of Hazardous Materials, 443 (A) (2023).

DOI: 10.1016/j.jhazmat.2022.130183

[28] Y. Qiu, H. Pan, Q. Zhao, J. Zhang, Y. Zhang, W. Guo, Carbon dioxide-hardened sodium silicate-bonded sand regeneration using calcium carbide slag, The design and feasibility study, Journal of Environmental Chemical Engineering, 10 (2022).

DOI: 10.1016/j.jece.2022.107872

[29] J. Zhao, Z. Tan, X. Wang, Z. Zhou, G. Li, Engineering characteristics of water-bearing weakly cemented sandstone and dewatering technology in tunnel excavation, Tunneling and Underground Space Technology, 121 (2022) 36–51.

DOI: 10.1016/j.tust.2021.104316

[30] F. Milhomem, J. Medeiros da Luz, Modeling of Dewatering in Screens, XIII th International Mineral Processing Symposium, (2012) 893–901.

[31] A. Pham, M. Sillanpää, J. Virkutyte, Sludge dewatering by sand-drying bed coupled with electro-dewatering at various potentials, International Journal of Mining, Reclamation and Environment, (2009) 151–162.

DOI: 10.1080/17480930903132620

[32] D. Padmalal, K. Maya, River Sand Mining and Mining Methods, Sand Mining, (2014) 23–30.

DOI: 10.1007/978-94-017-9144-1_3

[33] R.M. Bhatawdekar, T.N. Singh, E.T. Mohamad, R. Jha, D.J. Armagahni, D. Zulaika Abang Hasbollah, Best river sand mining practices vis-a-vis alternative sand making methods for sustainability, Risk, Reliability and Sustainable Remediation in the Field of Civil and Environmental Engineering, (2022) 285–313.

DOI: 10.1016/b978-0-323-85698-0.00007-1

[34] H. Susanto, H. Setyobudi, D. Faturachman, E. Yandri, A. Hendiarko Priyatna, A. Daryus, V. Gaile, S.K. Wahono, R.K. Mahaswa, Maizirwan Mel, Analysis of the Sand Drying Process in the Biomass-Energized Rotary Drying Machine, Mechanical Engineering and Renewable Energy, 58 93–100.

DOI: 10.53560/ppasa(58-sp1)741

[35] A. Torres, M. Simoni, J. Keiding, Daniel Müller, S. Ermgassen, J. Liu, J. Jaeger, M. Winter, E. Lambin, Sustainability of the global sand system in the Anthropocene, One earth 4 (2021) 639–650.

DOI: 10.1016/j.oneear.2021.04.011

[36] Solving the Biggest Issues with Washing and Dewatering Sand. URL: https://www.agg-net.com/resources/articles/materials-processing/solving-the-biggest-issues-with-washing-and-dewatering-sand