A study on marble based green cement and green pervious concrete by using geopolymeric technology

Jing Jen Chen, Wei Hao Lee, Yung Chin Ding, Chih-Ta Tsai, Ta Wui Cheng, Tai Tien Wang

研究成果: Paper

摘要

In recent years, carbon dioxide emission and saving energy have become an important issue. According to the statistics from Environmental Protection Administration of Taiwan, the production of the cement in Taiwan could reach 7.8 million tons of greenhouse gas every year. Therefore, how to reduce the carbon dioxide emission turns out to be an urgent problem to resolve. Using geopolymer to replace the traditional Portland cement is one of the ways to solve this problem. Comparing with the Portland cement, the process for manufacturing geopolymer could help reducing almost 80% of carbon dioxide emission. In this study, marble and blast furnace slag were used as the raw materials to produce the geopolymer green cement. The experiment results showed that the setting time of green cement paste can be controlled more than 4hrs, and the compressive strength can be reached 65MPa after 28 days curing time. The marble-based geopolymer was also trying to make pervious concrete. The experimental result showed that the compressive strength of geopolymer pervious concrete was around 10MPa and the permeability coefficient can be reached 1.3 cm/s. Marble-based geopolymer green cement and pervious concrete provides great performance in practices and it has a potential for further engineering application.

原文English
出版狀態Published - 2017 一月 1
事件14th International Symposium on East Asian Resources Recycling Technology, EARTH 2017 - Sapporo, Hokkaido, Japan
持續時間: 2017 九月 262017 九月 29

Conference

Conference14th International Symposium on East Asian Resources Recycling Technology, EARTH 2017
國家Japan
城市Sapporo, Hokkaido
期間17-09-2617-09-29

    指紋

All Science Journal Classification (ASJC) codes

  • Environmental Science(all)

引用此

Chen, J. J., Lee, W. H., Ding, Y. C., Tsai, C-T., Cheng, T. W., & Wang, T. T. (2017). A study on marble based green cement and green pervious concrete by using geopolymeric technology. 論文發表於 14th International Symposium on East Asian Resources Recycling Technology, EARTH 2017, Sapporo, Hokkaido, Japan.