Series "Construction Engineering and Architecture"

This  article considers the importance of experimental research to determine the thermophysical properties (TPP) of the unit studied. The analytical review of modern methods of determination of the thermal-physical properties of building units is held. The constraint analysis of the methods of determination of TPP of the unit studied is conducted and described in the article. The principle of the facility operation designed to determine the TPP (heat transfer coefficient, heat transfer resistance and specific thermal performance) of the unit studied by the non-destructive testing method and its main components is described. The necessary formulas for calculating the TPP of the unit studied are introduced. The basic advantages of the developed facility in comparison with the well-known analogues are described.

Vavilov V. P., Grigor'ev A.V., Ivanov A.I. , Nesteruk D.A. Sposob opredelenija soprotivlenija teplop-eredache ograzhdajushhih konstrukcij stroitel'nyh sooruzhenij [A Method for Determining the Heat Transfer Resistance of Building Envelopes of the Building Structures]. Patent RF, no. 2468359, 2012.

Golovnev S.G., Mozgalev K.M., Rusanov A.E. Ustrojstvo opredelenija privedjonnogo soprotivlenija tep-loperedache naruzhnyh ograzhdajushhih konstrukcij [The Device Determining the Given Heat Transfer Re-sistance of Outer Building Envelopes]. Golovnev S. G., Mozgalev K. M. Patent RF no. 146590, 2014.

Verhovskj A.A., Shubin I.L., Shekhovtsov A.V., Nanasov I.M., Krymov K.S. Stend dlja izmerenija sopro-tivlenija teploperedache stroitel'nyh ograzhdajushhih konstrukcij [Stand for Measuring the Heat Transfer Re-sistance of Building Envelopes]. Patent RF no. 105998, 2011.

Pohodun A.I., Sokolov A.N., Sokolov N.A. Sposob teplovogo nerazrushajushhego kontrolja soprotivlenija teploperedache stroitel'noj konstrukcii [The Non-Destructive Testing Method of Heat Transfer Resistance of Building Structure]. Patent RF no. 2480739, 2013.

Bogojavlenskij A.I., Ivanov S.V., Lapovok E.V., Platonov A.S., Khankov S.I., Yugov K.V. Sposob izmeren-ija udel'nogo soprotivlenija teploperedache cherez ob#ekt i ustrojstvo dlja ego osushhestvlenija [A Method for Measuring the Specific Heat Transfer Resistance Through the Object and the Device for its Implementation]. Pa-tent RF no. 2478938, 2013.

Sergeev S.S. Ustrojstvo izmerenija soprotivlenija teploperedache stroitel'noj konstrukcii [The Device for Measuring the Heat Transfer Resistance of Building Structure]. Patent RF no. 2476866, 2013.

GOST 26254−84 [Buildings and Structures. The Methods for Determining the Heat Transfer Resistance of Building Envelopes]. Мoscow, Standartinform Publ., 1994.

GOST 31166−2003 [Building Envelopes of Buildings and Structures. The Method of Colorimetric Determi-nation of the Heat Transfer Coefficient]. Мoscow, Gosstroj Rossii Publ., 2003

Dacjuk T. A., Isakov P. G. Sposob izmerenija teplovogo soprotivlenija (varianty) i ustrojstvo dlja ego osushhestvlenija [A Method for Measuring the Heat Transfer Resistance (Options) and the Device for its Imple-mentation]. Patent RF no. 2308710, 2007.

Lavrov V.N., Titaev V.A., Sosin Ju.D. Sposob kontrolja teplozashhitnyh svojstv ograzhdajushhej kon-strukcii [A Method for Controlling the Heat Retention Properties of Building Envelope]. Patent RF no. 2285915, 2006.

Varfolomeev B.G., Orlova L.P. Sposob opredelenija teplofizicheskih harakteristik stroitel'nyh materi-alov mnogoslojnyh konstrukcij bez narushenija ih celostnosti [A Method for Determining the Thermal-Physical Performance of the Construction Materials of Multi-Layer Structures without Violating their Integrity]. Patent RF no. 2140070, 1999.

Chernyshov A.V., Slonova A.S. Sposob opredelenija teplofizicheskih svojstv mnogoslojnyh stroitel'nyh konstrukcij i izdelij [A Method of Determining the Thermal-Physical Properties of Multi-Layer Building Structures and Products]. Patent RF no. 2287807, 2006.

Budadin O.N., Abramova E.V. Sposob teplovogo nerazrushajushhego kontrolja soprotivlenija teplop-eredache stroitel'nyh konstrukcij [The Non-Destructive Testing Method of Heat Transfer Resistance of Building Structures]. Patent RF no. 2323435, 2008.

Kabanov O.V., Panfilov S.A., Barychev V.I. [An Overview of Modern Methods for the Determination of Thermal-Physical Properties of Materials and Objects Using the Electro Technical Devices]. Sb. nauch.trudov. Razvitie tehnicheskih nauk v sovremennom mire. Vypusk II [Collected Scientific Papers. Development of Technical Sciences in the Modern World. Edition II]. Voronezh, 2015. pp. 178–180 (in Russ.).

Kabanov O.V., Panfilov S.A. [Modern Methods for the Determination of Thermal-Physical Properties of the Objects]. XLIV Ogarevskie chtenija. Materialy nauchnoj konferenci [Proceedings of the Scientific Conference "XLIV Ogarevskie Chteniya"]. Saransk 2016, pp. 156–160 (in Russ.).

Kabanov O.V., Panfilov S.A., Hrjomkin A.S., Bobrov M.A. [Development of Method for the Determina-tion of Thermal-Physical Properties of the Objects]. Nauchno-tehnicheskij vestnik Povolzh'ja ["Scientific and Technical Volga Region Bulletin"]. Kazan, 2015, no. 5, pp. 253–256 (in Russ.).

Ametistov E.V. Osnovy teorii teploobmena [Fundamentals of Heat Transfer Theory]. Moscow, MEI Pub-lishing House, 2000. 242 p.

Belov E.A., Sokolov G.Ja., Platunov E.S. [Digital Express Meter of Heat Protection Structures with Direct Reading]. Promyshlennaja teplotehnika ["Industrial Thermal Engineering"]. Kiev, 1986, no. 4, pp. 756–760 (in Russ.).

Bogoslovskij V.N. Teplofizicheskie osnovy otoplenija, ventiljacii i kondicionirovanija [Thermal-Physical Foundations of Heating, Ventilation and Air Conditioning]. Moscow, High School Publ., 1982. 415 p.

Vavilov V.P. Teplovye metody nerazrushajushhego kontrolja [Thermal Methods of Non-Destructive Test-ing]. Moscow, Mashynostroenie Publ., 1991. 240 p.

Tabunshhikov Ju.A., Hromec D. Ju. Teplovaja zashhita ograzhdajushhih − konstrukcij zdanij i sooru-zhenij [Thermal Protection of Building Envelopes of Buildings and Structures]. Moscow, "Stroyizdat" Publ., 1986. 381 p.

Panfilov S.A., Kabanov O. V., Khremkin A. S. Programma dlja sistemy avtomatizirovannogo opredeleni-ja teplofizicheskih svojstv issleduemogo ob#ekta. [The Program for the System of Automated Determination of Thermal-Physical Properties of the Object Studied]. Certificate Russian Federation, no. 2016612034. Application 17.02.2016.

Code of Practice 50.133330.2012. [Thermal Protection of Buildings]. Moscow, Minregion Rossii Publ., 2012.

Kreith F. [Handbook of Thermal Engineering]. CRC Press Publ., 2000.

James R. Welty, Charles E. Wicks, Robert E. Wilson, Gregory L. Rorrer. [Fundamentals of Momentum, Heat and Mass transfer (5th Edition)]. John Wiley and Sons, CRC Press Publ., 2007.

Sukhatme S. P. [A Textbook on Heat Transfer (Fourth ed.)]. Universities Press Publ., 2005.

Overall Heat Transfer Coefficient. http://www.tlv.com/global/TI/steam-theory/overall-heat-transfer-coefficient.html. Available at: 07.06.2016

George Sidebotham. [Heat Transfer Modeling: An Inductive Approach]. Springer, 2015.

Paul Seidel (ed.). [Applied Superconductivity: Handbook on Devices and Applications]. Wiley Press Publ., 2016.

Moncef Krarti [Energy Audit of Building Systems: An Engineering Approach]. CRC Press Publ., 2016.

Yufeng J, Zhiping W, Jing C. [Introduction to Microsystem Packaging Technology]. CRC Press Publ., 2016.

Kabanov O.V., Panfilov S.A., Hrjomkin A.S. [Method of Determining the Thermophysical Properties of Construction Objects]. Bulletin of the East Siberian state University of technologies and management, 2016, no. 5 (62), pp. 49–57 (in Russ.).

Fokin V.M., Kovylin A.V., Chernyshov V.N. Jenergojeffektivnye metody opredelenija teplofizicheskih svojstv stroitel'nyh materialov i izdelij [Energy-Efficient Methods for Determining the Thermal. Properties of Building Materials and Products]. Moscow, Publishing house "Spektr" Publ., 2011. 156 p.