An experimental study on the use of fly ash for making concrete lagging of SVP steel arches in underground coal mines in Quang Ninh area

  • Cơ quan:

    1 Hanoi University of Mining and Geology, Hanoi, Vietnam
    2 Viet Nam Ministry of Industry and Trade, Hanoi, Vietnam

  • *Tác giả liên hệ:
    This email address is being protected from spambots. You need JavaScript enabled to view it.
  • Nhận bài: 29-10-2021
  • Sửa xong: 14-02-2022
  • Chấp nhận: 31-03-2022
  • Ngày đăng: 31-07-2022
Trang: 103 - 111
Lượt xem: 3355
Lượt tải: 2193
Yêu thích: 5.0, Số lượt: 219
Bạn yêu thích

Tóm tắt:

In 2020, Vietnam has 25 thermal power plants in operation, emitting a total amount of fly ash and coal bottom ash of about 13 million tons/year. It makes increasing the costs of landfill space, and negatively affect the environment. The major goal of this study is to recommend an optimal amount of thermal power plant fly ash to be added to the concrete mix to create concrete lagging for the SVP steel arches of the underground coal mine in the Quang Ninh region. In order to lower the cost of drift support and improve the efficiency of environmental protection, fly ash is used in this study to make concrete lagging in place of cement to the extent of 30%. This study also demonstrates a recent development in the use of novel materials to construct rock/soil supports for underground mines in Vietnam. use of fly ash in concrete as a partial replacement for cement is more important today. The comparison of strength properties of concrete laggings by experimental study at the Laboratory of underground construction between two concrete lagging types at Hanoi University of Mining and Geology (HUMG) will show the benefits in terms of the strength of concrete lagging using fly ash. The paper also presents the results of an experimental study on using fly ash for making concrete lagging at the Laboratory. The comparison of the drift support using concrete laggings in SVP steel arches fly ash-made products and conventional underground mining support will aid in demonstrating the benefits of employing fly ash. From the study's findings, it can be inferred that fly ash can substitute cement in lower classes of construction concrete such as M200.

Trích dẫn
Kien Van Dang, Hung Trong Vo, Hao Doan Ngo và Huy Xuan Tran, 2022. An experimental study on the use of fly ash for making concrete lagging of SVP steel arches in underground coal mines in Quang Ninh area, Tạp chí Khoa học kỹ thuật Mỏ - Địa chất, số 63, kỳ 3a, tr. 103-111.
Tài liệu tham khảo

Dang, V. K.,, Vo, T. H., Do. N. A., Pham, T. A., (2019). Research and manufacture reinforced concrete furnace insert plates from ash slag of thermal power plants in underground mines in Vietnam. National Mining Science and Technical Conference. Industry and Trade Publishing House. ISBN: 978-604-931-849-8 (in Vietnamese).

Dang V. K., Truong V. H. and Pham T. A., (2020). Experimental study on use fly ash in underground construction concrete. Journal of Mining and Earth Sciences 60 (3). 60 - 67.

Dwivedi, A., and Jain, M. K., (2014). Fly ash - waste management and overview: A Review. Recent Res. Sci. Technol vol. 6. 30-35.

IS 3812-2003. Pulverized Fuel Ash specification. part 1 for use as pozzolana in cement. cement mortar and concrete.

Nguyen, Q. C., (2011). Fly ash: the origin of use and the environment. Journal of Transport. No. 7-2011 (in Vietnamese).

Patil, J. V., (2017). Partial Replacement of Cement by Fly ash in Concrete Mix Design. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056. Vol. 04 Issue 11.

Pham, T. A., Dang, V. K., (2020). Research and manufacture reinforced concrete insert plates from ash slag of thermal power plants. Report of TKV – level research project (in Vietnamese).

Rajamane, N. P., Neelamegam, M., Peter, J. A. and Dattatreya, J. K., (2001). Effect of partial replacement of cement with fly ash on the strength and durability of HPC. Gopalakrishna. S. The Indian Concrete Journal. 335-341.

Senapati, M. R., (2011). Fly ash from thermal power plants-waste management an overview Curr. Sci. 100 1791-1794.

TCVN 10302:2014. Activity admixture - Fly ash for concrete, mortar and cement (in Vietnamese).

TCVN 3118: 1993. Heavyweight concrete - Method for determination of compressive strength (in Vietnamese).

Thomas, M., (2007). Optimizing the Use of Fly Ash in Concrete Microstructural approach in damage. The 2nd international conference on dynamics and control. Norfolk. Japan. 377-387.

Tiwari, M. K., (2016). Fly Ash Utilization A Brief Review in Indian Context Fly Ash Utilization : A Brief Review in Indian Context. Journal of Engineering Technology. 949-956.

Tipraj, B., (2019). Strength characteristics of Concrete with Partial Replacement of Cement by Fly Ash and Activated Fly Ash. International Journal of Recent Technology and Engineering (IJRTE) ISSN: 2277-3878. Vol. 8 Issue 4.