Серия «Строительство и архитектура»

В настоящей статье обсуждается важная роль экспериментального исследования в определении теплофизических свойств (ТФС) исследуемого объекта. Произведён анализ ограничений, существующих методов определения по определению ТФС. Представлена блок-схема разработанного алгоритма для определения ТФС исследуемого объекта. Описан принцип работы установки, разработанной для определения ТФС (коэффициент теплопередачи, сопротивление теплопередаче и удельной тепловой характеристики) исследуемого объекта. Приведены необходимые формулы, требуемые для проведения расчёта ТФС исследуемого объекта. Описаны основные достоинства разработанной установки, по сравнению с известными прототипами.

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.