Aleksandr Elokhov scite author profile

Aleksandr Elokhov

3Publications

2Citation Statements Received

5Citation Statements Given

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Optimization of insulation in ventilated hinged facade systems

Maltseva¹,

Elokhov²,

Borisov³

et al. 2019

MATEC Web Conf.

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The system of hinged ventilated facades is available for a long time and is now widely used in the construction of new and reconstruction of existing buildings for various purposes. As practice shows, the problems associated with the operation of these facade systems are usually caused by mistakes in the design, selection of components and installation of the system. Ventilated facade is a multi-layered enclosing structure, which includes a layer of insulation. Mineral wool slabs are ideal for this facade system, as it has low thermal conductivity, resistance to temperature changes and excellent vapor permeability, which allows to fully open the potential of a ventilated air layer. In the article two ways of installation of thermal insulation are considered: single-layer and two-layer with different types of air interlayer: closed, weakly and strongly ventilated. In accordance with the requirements of Russian and European regulatory documents, the effect of gaps between the thermal insulation plates in a single-layer and two-layer design on the reduction of the heat transfer resistance of hinged facade systems with an air gap was estimated by calculating 2-dimensional temperature fields. The coefficient of thermotechnic uniformity was also defined. As a result, optimal variants of thermal insulation and types of bases for fixing thermal insulation are suggested.

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Design without thermal bridges

Maltseva

Elokhov²,

Tkachuk

et al. 2018

MATEC Web Conf.

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Abstract. The main focus of the article is on the quality design and implementation of the thermal insulation of buildings. Shells of buildings consist not only of conventional structures (wall, roof, ceiling), but also of edges, corners, joints and places of disruption of the outer thermal insulation shell integrity (due to through passage of pipelines, ventilation ducts and etc.). In all these places, heat losses are generally increased in comparison with conventional surfaces. Some of them are easily taken into account by calculation, using a special method proposed by the authors. Other thermal bridges due to unfavorable structural details can be avoided by observing the rules and recommendations that are classified and discussed in detail in this article.

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Сравнение Эффективности Схем Утепления В Системах Навесных Вентилируемых Фасадов

Elokhov¹,

Verkhovskiy²,

Borisov³

2018

aac

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В статье рассмотрены проблемы, связанные с качеством монтажа утепления навесных вентилируемых фасадов, и, в первую очередь, связанные с зазорами между теплоизоляционными плитами. В соответствии с СТО НОСТРОЙ 2.14.67-2012 «Навесные фасадные системы с воздушным зазором. Работы по устройству. Общие требования к производству и контролю работ» допустимая величина незаполненного шва составляет 2 мм. В реальности добиться требуемой ширины зазора между плитами просто невозможно, а на однослойных схемах утепления возникают дополнительные повышенные теплопотери. Произведена оценка влияния зазоров между плитами теплоизоляции на приведённое сопротивление теплопередаче наружной стены с системой навесного вентилируемого фасада с использованием российской и европейской методик расчёта. Расчёты проведены согласно СП 50.13330.2012, СП 230.1325800.2015 и EN ISO 6946. Для анализа приняты две конструкции наружной стены - из монолитного железобетона и кладки из газобетонных блоков - и три варианта утепления: однослойное и два двухслойных. Предложены оптимальные варианты теплоизоляции и типы оснований для крепления теплоизоляции. Рассмотрены три типа воздушных прослоек согласно EN ISO 6946 и взят в расчёты третий тип - сильно вентилируемая прослойка. Представлены результаты расчётов двухмерных температурных полей, линейных коэффициентов теплопередачи, коэффициентов теплотехнической однородности и приведённых сопротивлений теплопередачи для 16 вариантов сочетаний зазоров в теплоизоляции и оснований.

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