Haul road routing method for rockfill dams with interval-discretized elevation adjustment

张鹏程; 徐超杰; 王仁超

doi:10.11660/slfdxb.20251209

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Haul road routing method for rockfill dams with interval-discretized elevation adjustment

更新时间：2026-01-21

- Haul road routing method for rockfill dams with interval-discretized elevation adjustment
- Journal of Hydroelectric Engineering Vol. 44, Issue 12, (2025)
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- DOI：10.11660/slfdxb.20251209
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- Published Online：25 December 2025，
  
  Published：25 December 2025
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张鹏程, 徐超杰, 王仁超. Haul road routing method for rockfill dams with interval-discretized elevation adjustment[J]. Journal of Hydroelectric Engineering, 2025, 44(12).
DOI：

张鹏程, 徐超杰, 王仁超. Haul road routing method for rockfill dams with interval-discretized elevation adjustment[J]. Journal of Hydroelectric Engineering, 2025, 44(12). DOI： 10.11660/slfdxb.20251209.

摘要

针对堆石坝工程中施工道路因地形陡峭、坡度受限导致选线不佳的问题，本文提出了一种基于区间离散高程调整策略的场内施工道路选线优化模型。该模型以最小成本路径分析（LCPA）为理论框架，综合路径长度、高程调整和转向控制等关键因素，采用Dijkstra算法实现高效求解。通过典型算例对比分析表明，相较于现有选线方法，本文模型可使施工道路长度缩短17.33%，综合成本降低16.17%，有效提升选线方案的经济性和合理性。此外，以黄河上游茨哈峡高面板堆石坝工程为实际应用案例，进一步开展模型有效性验证。结果显示，该模型生成的施工路径在空间走向与设计人员经多轮优化调整后的设计道路基本吻合，为复杂地形条件下施工道路选线提供了新的技术手段。

Abstract

This paper constructs an optimization model for selecting on-site haul roads during rockfill dam construction based on a strategy of interval-discretized elevation adjustment

to address the issue of suboptimal haul road routing

which is frequently exacerbated by steep terrain and slope constraints. This model

rooted in the theoretical framework of Least-Cost Path Analysis (LCPA)

incorporates critical factors－such as path length

elevation modification

and turning constraints－while leveraging the Dijkstra's algorithm for its efficient calculations of a solution. A comparative case study reveals that in comparison to conventional methods

it reduces the haul road length by 17.33% and the overall cost by 16.17%

improving significantly the cost-effectiveness and rationality of the routing scheme

and thereby validating its performance. And its applicability is further exemplified through a case study of the Cihaxia high concrete-face rockfill dam on the upper Yellow River mainstream. The method obtains a route of construction that agrees closely with the engineer-designed path that was refined using multiple iterations

and thus it would be an innovative solution to the planning of haul road in complex terrains.

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