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1 
1.ISO, Environmental Management-Life Cycle Assessment- Principles and Framework, ISO 14040, International Stand-ardisation Organisation (ISO), 2006, 28 pp.Google Search
2 
2.IGCC Public Comment Hearing Committee, International Green Construction Code, International Code Council, INC, 2010, pp. 1-95.Google Search
3 
3.CBI, Carbon Dioxide Uptake During Concrete Life Cycle-State of the Art, Swedish Cement and Concrete Research Institute, Sotckholm, 2005, 47 pp.Google Search
4 
4.Pade, C. and Guimaraes, M., “The CO2 Uptake of Concrete in a 100 Year Perspective,” Cement and Concrete Research, Vol. 37, No. 9, 2007, pp. 1348-1356.DOI
5 
5.Yang, K. H., Seo, E. A., and Tae, S. H., “Carbonation and CO2 Uptake of Concrete,” Environmental Impact Assessment Review, Accepted for Publication, Vol. 46, No. 1, 2014, pp. 43-52.DOI
6 
6.Kim, J. M., Technology Development Trend and Recycling of Recycled Aggregates, Korea Institute for Advancement Technology, 2012, pp. 1-9.Google Search
7 
7.Kim, T, H. and Tea, S, H., “A Study on the Development of an Evaluation System of CO2 Emission in the Production of Concrete,” Journal of the Korea Concrete Institute, Vol. 22, No. 6, 2010, pp. 787-796.DOI
8 
8.Han, S, W., “A Study on Carbon Dioxide Emission of Input Resources according to Construction Method in Construction Phase,” MSc Dissertation, University of Seoul, 2011, 73 pp.Google Search
9 
9.Ministry of Strategy and Finance, Implementing Regulations in Corporate Tax Act, 2013.Google Search
10 
10.Korea Concrete Institute, Estimation of Carbon Dioxide Assessment and Environment Impact of Concrete Structure, Kimoondang Publishing Company, 2013, pp. 141-153.Google Search
11 
11.Korea LCI Database Information Network, www.edp.or.kr. (Access on December 31, 2013)Google Search
12 
12.European reference Life-Cycle Database Information Network, http://elcd.jrc.ec.europa.eu/ELCD3/. (Access on December 31, 2013)Google Search
13 
13.Papadakis, V. G., Vayenas, C. G., and Fardis, M. N., “Physical and Chemical Characteristics Affecting the Durability of Concrete,” ACI Materials Journal, Vol. 88, No. 2, 1991, pp. 186-196.Google Search
14 
14.Yang, K. H. and Moon, J. H., “Design of Supplementary Cementitious Materials and Unit Content of Binder for Reducing CO2 Emission of Concrete,” Journal of the Korea Concrete Institute, Vol. 24, No. 5, 2012, pp. 597-604.DOI
15 
15.Cha, S. W., “Modeling of Hydration Process and Analysis of Thermal and Hygral Stresses in Hardening Concrete,” PhD Dissertation, Seoul National University, South Korea, 1999, pp. 30-36.Google Search
16 
16.Pommer, K. and Pade, C., “Guidelines-Uptake of Carbon Dioxide in the Lifecycle Inventory of Concrete,” Nordic Innovation Centre Project, Danish Technological Institute, 2005, 45 pp.Google Search
17 
17.Oshida, F., Izumi, I., and Kasami, H., “Effects of Cement Type, Mixture Proportion and Curing Condition on Carbonation of Concrete,” Summary of Technical Paper, Architectural Institute of Japan, 1985, pp. 111-114.Google Search
18 
18.Jung, S. H., “Diffusivity of Carbon Dioxide and Carbonation in Concrete through Development of Gas Diffusion Measuring System,” PhD Dissertation, Seoul National University, South Korea, 2003, pp. 7-19.Google Search
19 
19.Lee, D. H., “USN-Based Measurement of Greenhouse Environment and Prediction of CO2 Emission from Soil,” PhD Dissertation, Sungkyunkwan University, South Korea, 2009, pp. 78-84.Google Search
20 
20.Kwon, S. J., Park, S. S., and Nam, S. H., “A Suggestion for Carbonation Prediction Using Domestic Field Survey Data of Carbonation,” Korea Institute for Structural Maintenance Inspection, Vol. 11, No. 5, 2007, pp. 81-87.Google Search
21 
21.Lee, S. H., Park, W. J., and Lee, H. S., “Lifecycle CO2 Assessment Method for Concrete Using CO2 Balance and Suggestion to Decrease LCCO2 of Concrete in South- Korean Apartment,” Energy and Buildings, Vol. 58, 2013, pp. 93-102.DOI
22 
Google Search
23 
Google Search