PORTABLE HEAT METERING SYSTEM DESIGN

In modern construction practice, more than half of buildings in operation require modernization of thermal insulation. However, in order to select an effective insulation system, it is necessary to know the actual thermal and technical characteristics of structures and parameters of the building internal environment. The paper analyzes methods and equipment for evaluation of the thermal performance of outdoor enclosures. The advantages and disadvantages of the main devices recommended by the regulatory documents for field research are shown. According to the data obtained, a heat engineering complex is developed for conducting field studies of heat and humidity of wall structures and microclimate of building premises. Software improvement together with Arduino reader device allow monitoring both at stationary and non-stationary thermal conditions of external enclosures and indoor climate parameters in field conditions.

devices, equipment, heat engineering parameters, metering system, heat and humidity condition

1. Directive 2010/31/EU of the European Parliament and of the Council of 19 May 2010 on the energy performance of buildings.

2. Shkarovskii A.L. Issledovanie teplovlazhnostnogo sostoyaniya ograzhdayushchikh konstruktsii pri nestatsionarnom upravlenii vnutrennim klimatom [Thermal and humidity conditions of enclosing structures under non-stationary internal climate control]. Vestnik grazhdanskikh inzhenerov. 2017. No. 4 (63). Pp. 170–176. (rus)

3. Overchenko M.V. Vlazhnostnyi rezhim naruzhnykh ograzhdayushchikh konstruktsii obshcheobrazovatel'nykh uchrezhdenii posle termomodernizatsii zdanii [Humidity regime of wall structures of general education institutions after thermal modernization of buildings]. In: X Mezhdunarodnyi molodezhnyi forum „Obrazovanie, nauka, proizvodstvo‟ (Proc. 10th Int. Sci. Forum „Education, Science, Production‟). Belgorod, 2018. (rus)

4. Borisyuk A.O., Kutnyi B.A. Vlazhnostnyi rezhim uteplennoi nesushchei ograzhdayushchei konstruktsii pri primenenii programmnogo otpuska teploty [Humidity regime of insulated loadbearing enclosing structure using heat release program]. In: Novye idei novogo veka: Optimizatsiya stroitel'nykh konstruktsii. Ekologicheskaya ustoichivost', problemy ekonomiki, resursosberezheniya i bezopasnosti naselennykh mest (Coll. Papers „New Ideas of New Century‟) 2014. V. 3. Pp. 251–257. (rus)

5. Kornienko S.V. Naturnye issledovaniya temperaturno-vlazhnostnogo rezhima zhilogo zdaniya pri verifikatsii metoda rascheta vlagoteploperenosa v ograzhdayushchikh konstruktsiyakh [Field research into temperature and humidity conditions of residential building at verification of calculation method for moisture-heat transfer in enclosing constructions]. Vestnik Volgogradskogo gosudarstvennogo arkhitekturno-stroitel'nogo universiteta. Seriya: Stroitel'stvo i arkhitektura. 2012. No. 28 (47). Pp. 19–26. (rus)

6. Kornienko S.V. Otsenka vliyaniya temperaturno-vlazhnostnogo rezhima v kraevykh zonakh ograzhdayushchikh konstruktsii na teplozashchitu zdanii [Temperature and humidity effect in edge zones of enclosing structures on heat protection of buildings]. Vestnik Volgogradskogo gosudarstvennogo arkhitekturno-stroitel'nogo universiteta. Seriya: Stroitel'stvo i arkhitektura. 2012. No. 26 (45). Pp. 148–154. (rus)

7. Gagarin V.G. Teoriya sostoyaniya i perenosa vlagi v stroitel'nykh materialakh i teplozashchitnye svoistva ograzhdayushchikh konstruktsii zdanii : avtoref. dis. … dokt. tekhn. nauk [Theory of condition and moisture transfer in building materials and thermal protection properties of building envelopes. DSc Abstract]. Moscow, 2000. 48 p. (rus)

8. Yüksek I., Karadayi T. Energy-efficient building design in the context of building lifecycle. 2017. Available: www.intechopen.com/books/energy-efficient-buildings

9. Chari A., Xanthos S. Stochastic assessment of the energy performance of buildings. Energy Efficiency. 2017. V. 8. No. 10.

10. Revel G.M., Sabbatini E., Arnesalo M. Development and experimental evaluation of a thermography measurement system for real-time monitoring of comfort and heat rate exchange in the built environment. Measurement Science and Technology. 2012. V. 23. No. 3.