Environmental management of concrete and concrete structures - toward sustainable development in construction industry

• Autorzy: Sakai K.
• Języki publikacji: EN

Abstrakty

EN

Concrete and construction industries have consumed an enormous amount of resources and energy and generated a large amount of wastes. We need to properly manage them from the environmental point of view. In this paper, environmental aspects of concrete and some systems for environmental management in the design of concrete structures are discussed.

PL

Przemysł betonowy i budowlany pochłonęły ogromną ilość zasobów naturalnych i energii wytwarzając wielkie ilości odpadów. Z punktu widzenia środowiska musimy odpowiednio tymi odpadami zarządzać. Artykuł omawia aspekty środowiskowe betonu oraz niektórych systemów zarządzania środowiskiem w procesie projektowania konstrukcji z betonu.

Słowa kluczowe

EN

concrete; composite-evaluation bid system; environmental aspects; environment management; environmental design; ISO standards

PL

beton; aspekt środowiskowy; zarządzanie środowiskowe; normy ISO

• Wydawca: Silesian University of Technology
• Czasopismo: Architecture Civil Engineering Environment
• Rocznik: 2008
• Tom: Vol. 1, no. 3
• Strony: 67--80
• Opis fizyczny: Bibliogr. 23 poz.

Twórcy

autor

Sakai K.

• Kagawa University, Kagawa, Japan,

Bibliografia

• [1] Brown L.R.; Eco-economy, Earth Policy Institute, 2001.
• [2] Ministry of Land, „Infrastructure and Transport 2005”, White paper on land, infrastructure and transport in Japan, 2005.
• [3] Development Bank of Japan 2002,”Urban renewal and resource recycling: For the creation of a resource recycling society”. Research Report No.28, 2002.
• [4] Tateyashiki H., Okamoto M., Nishimura Y, Kuroda Y.; Experimental studies on production of high quality recycle aggregate from demolished concrete, Proc. of the Japan Concrete Institute, Vol.22 No.2, 2000, pp.1099-1104 (in Japanese).
• [5] Yanagibashi K., Yonezawa T., Kamiyama Y, Inoue T.; Study on high quality recycle aggregates, Proceedings of the Japan Concrete Institute, Vol.21 No.2, 1999, pp.205-210 (in Japanese).
• [6] Yoda K., Shintani A., Takahashi I., Yanagase S.; Quality of recycles coarse and fine aggregates produced by mechanical grinding, Proc. of the Japan Concrete Institute, Vol.26 No.1, 2004, pp.1627-1532 (in Japanese).
• [7] Uchiyama S., Kuroda Y, Hashida H.; Deep mixing stabilization using concrete powder from recycled aggregate production by heating and rubbing, The Foundation Engineering & Equipment, July 2003, pp.62-65 (in Japanese).
• [8] Japan Standards Association (JIS A 5021), Recycled aggregate for concrete-class H (in Japanese), 2005.
• [9] Kuroda Y., Hashida H., Nachi Y., Yamazaki N., Miyachi Y.; A closed-loop concrete system on a construction site, Technical Research Report of Shimizu Corporation 79, 2004, pp. 1-10 (in Japanese).
• [10] Yanagibashi K.; Inventory and analysis on a process of recycling aggregate for concrete, Construction Materials, Vol.13 No.1, 2004, pp.38-45 (in Japanese).
• [11] Nippon Slag Association 2005. Annual Statistics Report of Iron and Steel Slag, http://www.slag.Jp/e/index.htm, 2005.
• [12] Shikoku Chapter of Japan Society of Civil Engineers 2003, Recommendation on execution of concrete using fly ash as a fine aggregate substitute (draft) (in Japanese), 2003.
• [13] Takatsuki H.; The Teshima Island industrial waste case and its process towards resolution. Special feature: Conference Report, Journal of Material Cycles and Waste Management, 5, 2003, pp.26-30.
• [14] Matsuka T., Sakai K., Nakamitra T., Kusanagi S.; Flexure and shear behaviour of reinforced concrete beams using molten slag from industrial waste, Journal of Materials, Concrete structures and Pavements, No.809 V-70, 2006, pp.31-145 (in Japanese).
• [15] Matsuka T., Sakai K., Nishigoń W., Yokoyama T., Nishimoto Y., Onodera S.; Effect of rubbing-reformation in application of various molten slag to concrete, Journal of Materials, Concrete structures and Pavements, No.809 V-70, 2006, pp. 147-158 (in Japanese).
• [16] Japanese Standards Association (JIS A 5031), Melt-solidified slag aggregate for concrete derived from municipal solid waste and sewage sludge (in Japanese), 2006.
• [17] Humphreys K., Mahasenan M.; Toward a sustainable cement industry, Climatic change sub-study 8, World Business Council for Sustainable Development, 2002.
• [18] Japan Society of Civil Engineers, „Recommendation on execution of concrete using blast furnace slag”, Concrete Library 86 (in Japanese), 1996.
• [19] Japan Society of Civil Engineers, „Recommendation on execution of concrete using fly ash (draft)”, Concrete Library 94 (in Japanese), 1999.
• [20] Japan Coal Energy Centre 2006, Annual Report 2005/06, http://www.jcoal.or.jp/news en/news en.html#061005-1, 2006.
• [21] Jahren P.; What are the options? The CO2 case, STF22A03610 Report, SINTEF, 2003.
• [22] Japan Society of Civil Engineers, „Recommendation of environmental performance verification for concrete structures (Draft)”, JSCE Guidelines for Concrete, No. 7
• [23] Sakai K.; Environmental Design for Concrete Structures (Invited paper). Journal of Advanced Concrete Technology, Vol. 3 No. 1, pp.17-28, February 2005.