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<article xmlns:xlink="http://www.w3.org/1999/xlink" xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xmlns="https://jats.nlm.nih.gov/publishing/1.1/" xml:lang="ru" article-type="research-article" dtd-version="1.1" specific-use="eps-0.1">
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				<journal-id journal-id-type="publisher-id">asa</journal-id><journal-title-group>
			<journal-title xml:lang="ru">Строительство и техногенная безопасность</journal-title></journal-title-group>			<issn pub-type="ppub">2413-1873</issn>			<publisher><publisher-name>КФУ им. В.И. Вернадского</publisher-name></publisher>
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			<article-id pub-id-type="publisher-id">154</article-id>
			<article-categories><subj-group xml:lang="en"><subject>Engineering support</subject></subj-group><subj-group xml:lang="ru"><subject>Инженерное обеспечение</subject></subj-group></article-categories>
			<title-group><article-title xml:lang="ru">ИССЛЕДОВАНИЕ РАБОТЫ УЗЛА СОРБЦИОННОЙ ДООЧИСТКИ СТОЧНЫХ ВОД   С ИСПОЛЬЗОВАНИЕМ НАМЫВНЫХ СОРБЦИОННЫХ ФИЛЬТРОВ</article-title><trans-title-group xml:lang="en"><trans-title>INVESTIGATION OF THE OPERATION OF THE SORPTION WASTEWATER  TREATMENT UNIT USING ALLUVIAL SORPTION FILTERS</trans-title></trans-title-group></title-group>
			<contrib-group content-type="author">
				<contrib contrib-type="author">
<name-alternatives>					<name>
						<surname>Урецкий</surname>
						<given-names>Е. А.</given-names>
					</name>
					<name xml:lang="en">
						<surname>Uretskiy</surname>
						<given-names>E. A.</given-names>
					</name>
</name-alternatives>					<xref ref-type="aff" rid="aff-1"/>
				</contrib>
				<contrib contrib-type="author">
<name-alternatives>					<name>
						<surname>Николенко</surname>
						<given-names>И. В.</given-names>
					</name>
					<name xml:lang="en">
						<surname>Nikolenko</surname>
						<given-names>I. V.</given-names>
					</name>
</name-alternatives>					<xref ref-type="aff" rid="aff-2"/>
				</contrib>
				<contrib contrib-type="author">
<name-alternatives>					<name>
						<surname>Мороз</surname>
						<given-names>В. В.</given-names>
					</name>
					<name xml:lang="en">
						<surname>Moroz</surname>
						<given-names>V. V.</given-names>
					</name>
</name-alternatives>					<xref ref-type="aff" rid="aff-3"/>
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			<aff id="aff-1">
			<institution content-type="orgname">Белорусский государственный проектный институт “БелГПИ”  210602, Республика Беларусь, г. Витебск, ул. Пушкина, 6, e-mail: euretsky@yandex.by </institution>
			<institution content-type="orgname" xml:lang="en">Republican Unitary Enterprise Belarusian State Design Institute "BelSPI" 210602, Republic of Belarus, Vitebsk, st. Pushkin, 6, e-mail: euretsky@yandex.by</institution>
			</aff>
			<aff id="aff-2">
			<institution content-type="orgname">Академия строительства и архитектуры, ФГАОУ ВО «КФУ им. В.И. Вернадского» 295493, Республика Крым, г. Симферополь, ул. Киевская 181 e-mail: energia-09@mail.ru</institution>
			<institution content-type="orgname" xml:lang="en">V.I. Vernadsky Crimean Federal University 295493, Republic of Crimea, Simferopol, st. Kievskaya 181 e-mail: energia-09@mail.ru</institution>
			</aff>
			<aff id="aff-3">
			<institution content-type="orgname">Брестский государственный технический университет 224017 Республика Беларусь г. Брест, ул. Московская, 267</institution>
			<institution content-type="orgname" xml:lang="en">Brest State Technical University 224017 Republic of Belarus Brest, st. Moscow, 267</institution>
			</aff>
			<pub-date date-type="pub" publication-format="electronic">
				<day>18</day>
				<month>12</month>
				<year>2021</year>
			</pub-date>
				<issue seq="6">23(75)</issue><issue-id>71</issue-id><fpage>67</fpage>
				<lpage>78</lpage>
			<permissions>
				<copyright-statement>Copyright (c) 2022 Строительство и техногенная безопасность</copyright-statement>
				<copyright-year>2022</copyright-year>
				<copyright-holder>Строительство и техногенная безопасность</copyright-holder>
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			<self-uri>https://www.stroyjurnal-asa.ru/index.php/asa/article/view/154</self-uri>
			<abstract><p>В статье показано, что возрастающая антропогенная нагрузка на водные объекты, неадекватность используемых технологий водоочистки с дополнительно загрязняющими компонентами обусловливают приоритетную значимость экологических аспектов, в том числе с применением технологических процессов адсорбции на природных сорбентах и их аналогах. Применение природных минералов в очистке сточных вод приемлемо с экологической и экономической точки зрения, но для уточнения их сорбционных свойств необходимо проведение дополнительных исследований. Обосновано применение пылевидного сорбента в практике доочистки сточных вод, которое позволяет максимально реализовать сорбционный резерв материала при минимальном его расходе. Разработаны лабораторная и опытно-производственная установки для исследования технологического процесса сорбционной очистки с использованием намывных сорбционных фильтров. Для сточных вод машиностроительного предприятия проведены экспериментальные исследования работы узла сорбционной доочистки с использованием намывных сорбционных фильтров на основе использования пылевидного торфа, а также определены оптимальные параметры их работы. Проведен анализ полученных результатов, а также даны рекомендации по возможности использования пылевидного торфа в качестве амфотерного ионообменного материала без специальной предварительной подготовки.</p></abstract><trans-abstract xml:lang="en"><p>The article shows that the increasing anthropogenic load on water bodies, the inadequacy of water treatment technologies used with additional polluting components determine the priority importance of environmental aspects, including the use of technological processes of adsorption on natural sorbents and their analogues. The use of natural minerals in wastewater treatment is acceptable from an ecological and economic point of view, but additional research is needed to clarify their sorption properties. The use of a pulverized sorbent in the practice of wastewater after treatment is justified, which makes it possible to maximize the sorption reserve of the material with minimal consumption. Laboratory and pilot production facilities have been developed to study the technological process of sorption purification using alluvial sorption filters. Experimental studies of the sorption after treatment unit using alluvial sorption filters based on the use of pulverized peat were carried out for wastewater of a machine-building enterprise, and the optimal parameters of their operation were determined. The analysis of the obtained results is carried out, and recommendations are given on the possibility of using pulverized peat as an amphoteric ion-exchange material without special preliminary preparation.</p></trans-abstract><kwd-group xml:lang="en"><title>Keywords</title><kwd>peat</kwd><kwd>pulverized sorbent</kwd><kwd>expanded clay</kwd><kwd>filtrate</kwd><kwd>filter loading</kwd><kwd>waste water</kwd><kwd>purification efficiency</kwd></kwd-group><kwd-group xml:lang="ru"><title>Ключевые слова</title><kwd>торф</kwd><kwd>пылевидный сорбент</kwd><kwd>керамзит</kwd><kwd>фильтрат</kwd><kwd>фильтрующая загрузка</kwd><kwd>сточная вода</kwd><kwd>эффективность очистки</kwd></kwd-group><counts><page-count count="12"/></counts>
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	<body><p>полный текст на сайте stroyjurnal-asa.ru</p></body>
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		<ref-list>
			<ref id="R1"><mixed-citation>Danilov-Danilyan V.I. Water consumption: ecological, economic, social and political aspects / V.I. Danilov-Danilyan, K.S. Losev; Institute of Water Problems of the Russian Academy of Sciences. – M.: Nauka, 2006. – 221 p.</mixed-citation></ref>
			<ref id="R2"><mixed-citation>Danilov-Danilyan V.I. Water resources of the world and prospects of the water management complex of Russia. – M.: OOO "Tipografiya Levko", Institute of Sustainable Development/Center for Environmental Policy of Russia, 2009. - 88 p.</mixed-citation></ref>
			<ref id="R3"><mixed-citation>Water strategy of the Russian Federation for the period up to 2020. Order of the Government of the Russian Federation of August 27, 2009 N 1235-R. Electronic resource: access mode http://government.ru/docs/10049 /(accessed 07.03.2021).</mixed-citation></ref>
			<ref id="R4"><mixed-citation>Decree of the Government of the Russian Federation of 19.04.2012 N 350 (ed. of 31.05.2017) "On the Federal target program "Development of the water management complex of the Russian Federation in 2012-2020". Electronic resource: access mode: http://government.ru/docs/37156 /(accessed 07.03.2021)</mixed-citation></ref>
			<ref id="R5"><mixed-citation>Tarasevich Yu.I. Natural, modified and semi-synthetic sorbents in water purification processes // Chemistry and technology of water. – 1994. – No. 6, vol. 16. – pp. 626-640.</mixed-citation></ref>
			<ref id="R6"><mixed-citation>Govorova Zh.M. Justification and development of technologies for the purification of natural waters containing anthropogenic impurities: Abstract. dis. ... doct. technical Sciences. – M., 2004.</mixed-citation></ref>
			<ref id="R7"><mixed-citation>Smirnov A.D. Sorption water purification. – L.: Chemistry, 1982. – 168 p.</mixed-citation></ref>
			<ref id="R8"><mixed-citation>Klimov E. S. Natural sorbents and complexes in wastewater treatment / E. S. Klimov, M. V. Buzaeva. - Ulyanovsk: UlSTU, 2011. – 201 p</mixed-citation></ref>
			<ref id="R9"><mixed-citation>. 9. Database of the "State Scientific and Production Association of the National Research and Production Center of the National Academy of Sciences of Belarus for bioresources Peatlands of BELARUS". Minsk.2019</mixed-citation></ref>
			<ref id="R10"><mixed-citation>Belkevich P.I. Chistova L.R. "Peat and the problem of environmental protection" Mn. Science and Technology, 1979, p. 3-61.</mixed-citation></ref>
			<ref id="R11"><mixed-citation>Klimkova V.F. "Prospects of using peat for cleaning surface runoff from urban areas" TSNIIKIVR, M.1989.</mixed-citation></ref>
			<ref id="R12"><mixed-citation>Brest Institute of Civil Engineering. NIR. Development of waste-free technology elements and their research at the BEM facilities. State registration no. 80028756. Brest. 1983</mixed-citation></ref>
			<ref id="R13"><mixed-citation>Uretsky E.A. Resource-saving technologies in water management of industrial enterprises. Monograph. – Brest, publishing house of BSTU, 2007, -396 p.</mixed-citation></ref>
			<ref id="R14"><mixed-citation>Е. Uretsky. Resource-saving technologies in the water sector of industrial enterprises. Monograph: LAP LAMBERT Academic Publishing, Germany, 2014 -360 p.</mixed-citation></ref>
		</ref-list>
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