Using of thermosiphon solar collector in an air heating system of passive house

Zhelykh, Vasyl; Kozak, Khrystyna; Savchenko, Olena

doi:10.1556/606.2016.11.2.11

Cited by 18 publications

(8 citation statements)

References 3 publications

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“…8, b to determine relative excess temperature in premises h t . Δ Under these conditions, the examples of solution of one direct and four inverse problems were examined [15].…”

Section: Results Of Research Into Resulting Air Flow At the Interactimentioning

confidence: 99%

Examining a device for air distribution by the interaction of counter non-coaxial jets under alternating mode

Korbut

Voznyak

Myroniuk

et al. 2017

EEJET

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Вирішено актуальну задачу підвищення ефективності повітророзподілу взаємодією зустрічних неспіввісних струмин для забез-печення нормативних параметрів повітря у приміщеннях. Показано, що для досягнення максимальної ефективності повітророзподі-лу необхідно подавати повітря струминами, що інтенсивно затухають ще до входу в робо-чу зону. Показано економічну ефективність використання повітророзподільника порівня-но з альтернативними варіантами, наведе-но питомі показники ефективності повітро-розподілу Ключові слова: повітророзподіл, зустрічні неспіввісні плоскі струмини, швидкість, над-лишкова температура, змінний режим Решена актуальная задача повышения эффективности воздухораспределения вза-имодействием встречных несоосных струй для обеспечения нормируемых параметров воздуха в производственных помещениях. Показано, что для достижения максималь-ной эффективности воздухораспределения необходимо подавать воздух струями, интен-сивно затухающими еще до входа в рабочую зону. Показана экономическая эффектив-ность использования воздухораспределителя в сравнении с альтернативными варианта-ми, приведены удельные показатели эффек-тивности воздухораспределения Ключевые слова: воздухораспределение, встречные несоосные плоские струи, ско-рость, избыточная температура, перемен-ный режим UDC 697.922.565; 697.921.47

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“…8, b to determine relative excess temperature in premises h t . Δ Under these conditions, the examples of solution of one direct and four inverse problems were examined [15].…”

Section: Results Of Research Into Resulting Air Flow At the Interactimentioning

confidence: 99%

Examining a device for air distribution by the interaction of counter non-coaxial jets under alternating mode

Korbut

Voznyak

Myroniuk

et al. 2017

EEJET

View full text Add to dashboard Cite

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“…Therefore, the optimal height of the air channel of the air solar collector with the installed turbulators of the air flow with an outer diameter of 0.05 m is 0.08 m. According to the received data, the thermal power of the improved air solar collector has increased by an average of 23% compared to a solar collector with a flat heat absorbing plate. In an additional experimental way (Zhelykh, 2016), the value of the pressure loss in the air solar collector with turbulators of the flow was determined . To this end, a digital manometer, connected at the entrance and exit from the solar collector, was used.…”

Section: Methodsmentioning

confidence: 99%

Analysis of the Influence of the Heat-Absorbing Surface of an Air-Cooled Solar Collector on its Thermal and Mechanical Properties

Zhelykh

Ulewicz

Kozak

et al. 2019

System Safety: Human - Technical Facility - Environment

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This paper presents the analysis of existing forms of heat absorbing surfaces of air solar collectors, which gained the greatest popularity in the world. The obtained data allowed to conclude that there is a need for the development of solar collectors with air as a coolant with an improved form of heat absorber, which will reduce the operational and capital costs of solar systems and allow the efficient use of such structures in a moderate climate without additional mechanisms for the transfer of coolant. The use of computer simulation helped to compare the thermal characteristics of air-borne solar collectors of a different design. The substantiation of the expediency of installing as a heat absorber of flow turbulators in the form of a screw has been fulfilled, as well as the height of the air channel of the solar collector has been determined, in which the maximum heating of the transfer medium is observed. In addition, the loss of pressure in the air channel of the solar collector with flow turbulators was determined and the comparison of the obtained data with the values of pressure losses in the air collector of the matrix type and the air collector with V-shaped ribs was made.

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“…Depending on the engineering implementation, SHSS can be presented in a monofunctional or multifunctional form and provide necessities such as hot water and heating. Furthermore, solar heat supply systems are divided into: active and passive; individual and centralized; seasonal and year-round; single, double, and multi-circuit; with circulation (gravitational and forced) and without circulation of the coolant; with and without a thermal double [18]. According to the heat carrying medium temperature, they are classified as low-temperature (up to 100 • C), medium-temperature (100-500 • C), and high-temperature (more than 500 • C).…”

Section: Solar Heat Supply Systems and Building Aspectsmentioning

confidence: 99%

Efficiency Improvement of Eco-Friendly Solar Heat Supply System as a Building Coating

et al. 2023

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The background of this article is the potential energy savings of solar heat supply systems due to the use of the renewable energy of solar radiation. The motivation is to create a solar collector design that would combine the functions of both a building cover and a solar collector. It is necessary to investigate and compare different types of solar collector coatings (traditional and modern) and pipe diameters. The purpose of the article is to solve aspects of energy efficiency for new eco-friendly solar collectors. The most effective result occurred with the solar collector covered with the rubber–graphite composition of Grafplast PDA, and when using Prandelli/Tuborama pipes with a diameter of 0.016 m. Their efficiency increased by 8% compared to the second version of the collector made using a more traditional solution. The influence of the distance between the pipes and the flow rate of the heat carrier on the efficiency of the solar collectors was evaluated.

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Using of thermosiphon solar collector in an air heating system of passive house

Cited by 18 publications

References 3 publications

Examining a device for air distribution by the interaction of counter non-coaxial jets under alternating mode

Examining a device for air distribution by the interaction of counter non-coaxial jets under alternating mode

Analysis of the Influence of the Heat-Absorbing Surface of an Air-Cooled Solar Collector on its Thermal and Mechanical Properties

Efficiency Improvement of Eco-Friendly Solar Heat Supply System as a Building Coating

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