Study of heat shielding qualities of brick wall angle with additional insulation located on the outside fences

Yurin, Oleg; Galinska, Tatiana

doi:10.1051/matecconf/201711602039

Cited by 15 publications

(3 citation statements)

References 4 publications

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“…The floor slab is located in a residential building, which is under construction in Poltava, Ukraine. Statistical characteristics of thermal resistance distribution of homogeneous areas of the floor slab are calculated by the formulas (13) and (14). Table 1 demonstrates the results of the calculation.…”

Section: Main Bodymentioning

confidence: 99%

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Standardization of Required Level Probability of No-Failure Operation of the Building Envelopes by the Criterion of Total Thermal Resistance

Semko¹,

Leshchenko²,

Cherednikova³

2018

IJET

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The paper provides analysis of the state of the building envelope thermal reliability issue in Ukraine. It has been found that ensuring the reliability of the building envelope results only in economic losses and is not related to human losses, and therefore the question of normalization of no-failure performance probability of the construction upon the criterion of insufficient value of the reduced total thermal resistance is purely economic. The paper develops normalization of the required level of building envelope no-failure performance probability upon the criterion of reduced total thermal resistance. The suggested method of the required level standardization of building envelope no-failure performance probability upon the criterion of insufficient value of the reduced total thermal resistance of building envelope is proposed for the developers of normative documents, state standards, company standards or technical specifications. Designers should use only the calculated and average values of the minimum permissible thermal resistance, specified in the above-mentioned documents.

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Section: Main Bodymentioning

confidence: 99%

“…Further research in the field of thermal reliability of building envelopes, and walls made from thin-walled steel structures in particular, was carried out in PoltNTU [5][6][7][8][9]. Thermotechnical research on building envelope was also done in [10][11][12][13][14][15][16]18].…”

Section: Introductionmentioning

confidence: 99%

Standardization of Required Level Probability of No-Failure Operation of the Building Envelopes by the Criterion of Total Thermal Resistance

Semko¹,

Leshchenko²,

Cherednikova³

2018

IJET

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“…The analysis of publications has shown that in full are described various constructive scheme insulation, in particular, the thermophysical properties of new heat insulating materials [1][2][3][4] and methods of their production [5][6][7]. The questions of effective insulation of fencing structures were considered in works [8][9][10]. Thus, the work is devoted to the development and detailed scientific substantiation of the thermodynamic parameters of porous heat insulating materials production.…”

Section: Introductionmentioning

confidence: 99%

Heat Treatment Technology of Porous Building Materials with Predictability of Thermophysical Properties

Babanli¹,

Shumska²,

Leshchenko³

2018

IJET

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The work is devoted to theoretical and experimental research of thermophysical features of the creation of new porous heat insulating materials, precisely: research of thermodynamic parameters of the heating processes, swelling and drying of materials; substantiation of the choice of the raw mixture method formation and determination of the optimal energy parameters of the swelling process; development of mathematical models of material heat treatment process and methods of basic technological parameters determination; development of advanced technologies for thermal protection of buildings and power equipment. Experimentally determined dependencies of technological parameters of heat treatment of the raw material mixture in the discharge, its composition, which allows obtaining material with minimal thermal conductivity. Also, the resulting dependencies ensure to find the required mode of heat treatment for the given thermophysical properties. The experimental setup has been developed, which provided to determine the basic laws of heat transfer of porous material, on the basis of which data were obtained, which allow to carry out an estimation of heat transfer and exchange characteristics of the new dispersed porous material necessary for technological calculations. A complex mathematical model of the heat energy mode of the building was created, as well as a program for solving the equations of this model, which makes it possible to determine the basic energy characteristics.

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Investigation of the Temperature–Humidity State of a Tent-Covered Attic

Semko

Yurin

Filonenko

et al. 2020

Lecture Notes in Civil Engineering

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Study of heat shielding qualities of brick wall angle with additional insulation located on the outside fences

Cited by 15 publications

References 4 publications

Standardization of Required Level Probability of No-Failure Operation of the Building Envelopes by the Criterion of Total Thermal Resistance

Standardization of Required Level Probability of No-Failure Operation of the Building Envelopes by the Criterion of Total Thermal Resistance

Heat Treatment Technology of Porous Building Materials with Predictability of Thermophysical Properties

Investigation of the Temperature–Humidity State of a Tent-Covered Attic

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