Comprehensive Research on Design and Calculation for Slope Treatment Engineering in the Ecological Restoration Construction Project of Abandoned Mine Sand Hills in Huitong County (EPC)

Li, Kailin; Mo, Jinglong; Zhang, Yongqi; Zhou, Weijian; Guo, Jing

Innovation Series: Advanced Science (ISSN 2938-9933, CNKI Indexed)

Volume 2 · Issue 6 (2025)

151
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Comprehensive Research on Design and Calculation for Slope Treatment Engineering in the Ecological Restoration Construction Project of Abandoned Mine Sand Hills in Huitong County (EPC)

Kailin Li¹, Jinglong Mo², Yongqi Zhang³, Weijian Zhou^3,4, Jing Guo⁴

¹ Hunan Jianghui Engineering Technology Co., Ltd, Changsha, Hunan 410000, China

² Hunan University of Finance and Economics Postal, Changsha, Hunan 410000, China

³ Hunan Vocational College of Engineering, Changsha, Hunan 410151, China

⁴ Xishi Ecological Doctoral Innovation Station, Yiyang, Hunan 413000, China

Corresponding Author: Weijian Zhou (476341099@qq.com)

Abstract: This study, based on the background of the ecological restoration construction project of abandoned mine sand hills in Huitong County, systematically analyzes the design theory and engineering practice of comprehensive slope treatment under complex geological conditions. Focusing on four typical unstable slopes within the area, it integrates principles from geotechnical engineering, hydrogeology, and ecological restoration to construct a combined reinforcement system. This system centers on anchor rod (cable) lattice beams, anti-slide piles, and gravity retaining walls, supplemented by systematic drainage. Through a combination of the limit equilibrium method and numerical simulation, the design parameters, mechanical mechanisms, and collaborative working performance of each support structure are detailedly demonstrated. Calculation results indicate that the adopted design methodology can significantly enhance the slope stability safety factor, meeting long-term service requirements. This paper further explores the integration pathways of ecological slope protection technology and intelligent monitoring concepts in modern slope engineering, aiming to provide theoretical reference and engineering paradigms for the treatment of geological environments and ecological restoration in similar mining areas.

Keywords: Slope Treatment; Combined Support System; Stability Analysis; Ecological Restoration; Design Theory; Mining Environment

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