WINTER CONCRETING PROCESS DESIGN IMPROVEMENT IN MODERN CONSTRUCTION

The paper presents the on-line computation of heating parameters for engineering design and control for winter concreting taking into consideration actual weather conditions and heat exchange. The authors propose a software for the implementation of this method available to ordinary users. As a result, during winter concreting the quality and energy consumption increase.

1. SNiP 70.13330.2012. Nesushchie i ograzhdayushchie konstruktsii [Bearing and wall structures]. Moscow, 2012. 280 p. (rus)

2. Kondrat'ev G.M. Regulyarnyi teplovoi rezhim [Regular thermal mode]. Moscow, 1954. Pp. 36–48. (rus)

3. Golovnev S.G. Tekhnologiya zimnego betonirovaniya. Optimizatsiya parametrov i vybor metodov [Winter concreting technology. Optimization of parameters and selection of methods]. Chelyabinsk: YuUrGU Publ., 1999. 156 p. (rus)

4. Gnyrya A.I., Korobkov S.V. Tekhnologiya betonnykh rabot v zimnikh usloviyakh [Concreting technology in winter conditions]. Tomsk, 2011. 412 p. (rus)

5. Belyaev N.M., Ryadno A.A. Metody nestatsionarnoi teploprovodnosti [Non-stationary thermal conductivity methods]. Moscow: Vysshaya Shkola Publ., 1978. 328 p. (rus)

6. Kolchedantsev L.M., Vasin A.P., Osipenkova I.G., Stupakova O.G. Tekhnologicheskie osnovy monolitnogo betona. Zimnee betonirovanie [Engineering basics of site concrete. Winter concreting]. St-Petersburg: Lan' Publ., 2016. 278 p. (rus)