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http://dx.doi.org/10.5345/JKIBC.2017.17.1.063

Analysis of the Effect of Solar Radiation on Internal Temperature Distribution in Concrete Mat Foundation  

Song, Chung Hyun (Department of Architectural Engineering, Chungbuk National University)
Lee, Chang Joo (Department of Architectural Engineering, Chungbuk National University)
Publication Information
Journal of the Korea Institute of Building Construction / v.17, no.1, 2017 , pp. 63-72 More about this Journal
Abstract
This research investigated the effect of solar radiation on the temperature distribution in concrete mat foundation. Zhang and Huang Model was utilized to estimate solar radiation heat at a given date and time. A one-dimensional finite element formula was derived with the fundamental laws of heat transfer and Galerkin method. Based on the formula, a one dimensional finite element analysis code was developed using MATLAB. Hydration heat analysis of mat foundation were conducted using the developed code. It was found that the solar radiation reduced the maximum temperature difference in mat foundation, and this temperature difference reduction was more prominent in case of summer season cast, a higher initial concrete temperature, and a thicker mat foundation depth. The research recommended that the solar radiation should be considered in hydration heat analysis of concrete mat foundation so as not to overestimate the maximum temperature difference in mat foundation.
Keywords
mat foundation; hydration heat analysis; solar radiation; bubble sheet;
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1 Zhang Q, Huang J, Lang S. Development of typical year weather data for chinese locations. ;ASHRAE 2002 Annual Meeting; 2002 Jun 22-26; Honolulu, HI. Atlanta, GA. ASHRAE; 2002. p. 1063-78.
2 Lewis RW, Nithiarasu P, Seetharamu KN. Fundamentals of the finite element method for heat and fluid flow. Hoboken, NJ: Wiley; 2004. p.38-100.
3 The MathWorks ,Inc. Matlab primer Matlab [internet]. Natick, MA: Mathworks; 2016 May 9 [cited 2016 Jun 1]. 196p. Available from: https://www.mathworks.com/help/pdf_doc/matlab/getstart.pdf
4 Weather Data for Average 30 years(1981-2010, Korea) [internet]. Seoul(Korea): Korea Meteorological Administration. 1981-2010 [cited 2016 Apr 25]. Available from: http://www.kma.go.kr/weather/climate/average_30years.jsp
5 Seo DH, Ihm PC. Comparative solar models performance analysis for typical meteorological year development of korea. Journal of the Regional Association of Architectural Institute of Korea. 2010 Oct;12(1):147-54.
6 Hukseflux. SRA01 albedometer user manual [internet]. Delft, Netherlands: Hukseflux; 2016 Mar 1 [cited 2016 Jun 20]. 35p. Available from: http://www.hukseflux.com/sites/default/files/product_manual/SRA01_manual_v1601.pdf
7 Hong SM. Efficiency of heat insulation curing method applying bubble sheets in field application [master's thesis]. [Cheongju (Korea)]: Cheongju university; 2010. 81-126 p.
8 Kim TC, Kim J, Jeon CK, Shin DA, Oh SK. Characteristics of temperature history at each section of mat foundation concrete applying double bubble sheets. Proceedings of The Korean Institute of Building Construction Conference; 2016 May 19-21; Jeju(Korea). Seoul (Korea): The Korea Institute of Building Construction; 2016. p. 13-4.
9 Kim J, Yoon JR, Jeon CK, Shin DA, Oh SK, Han CG. A case study on construction of cold weather mass concrete using double bubble sheets and hydration heat difference method. Proceedings of The Korean Institute of Building Construction Conference; 2006 Nov 18; Seoul ,Korea. Seoul, Korea: The Korea Institute of Building Construction; 2006. p. 15-8.
10 Hwang IH, Yang KH. Evaluation of thermal stress reduction of mass concrete using the double bubble sheet insulation form. Proceedings of Korea Recycled Construction Resource Institute Conference; 2015 Apr 10; Daejeon ,Korea. Seoul, Korea: The Korea Recycled Construction Resource Institute; 2015. p. 57-59.
11 Park YK, Song SB, Back BH, Han CG. Zero-crack construction on the fundamental mass concrete using double bubble sheets and applying low heat mixture. Proceedings of the Korean Institute of Building Construction Conference; 2006 Nov 18; Seoul ,Korea. Seoul, Korea: The Korea Institute of Building Construction; 2006. p. 5-8.
12 Korea Concrete Institute. Concrete Standard Specification. Seoul, Korea: Ministry of Land Infrastructure and Transport (Korea); 2009 Sep. p.178-92. Report No.:11-1611000-000789-14
13 Kreider JF, Curtiss P, Rabl A. Heating and cooling of buildings: design for efficiency. 2nd ed. Boca Raton ,FL: CRC Press/Taylor & Francis; 2010. p.23-79