RANCANGAN TEKNIS DAERAH TANGKAPAN HUJAN UNTUK MENGURANGI PENGIKISAN BIDANG LERENG DAN MENCEGAH AIR LIMPASAN DENGAN METODE CROSS FALL PADA TEMPAT PENYIMPANAN TANAH PUCUK

EnviroScienteae Pub Date : 2024-03-04 DOI:10.20527/es.v20i1.18845

Wilmar Reinaldy, Yusanto A. Nugroho, Fakhrur Razie, Y. Arifin

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Abstract

Mining activities often cause environmental damage, such as landslides, floods and ecosystem changes. These activities include land clearing, top soil stripping, overburden stripping, coal excavation, coal transport and processing. It is necessary to have an activity as an effort to rehabilitate so that there is no sustainable environmental damage. Therefore topsoil storage must be carried out in order to return the post-mining area to green again. The consideration of replanting ex-mining areas uses a comprehensive environmental management strategy, especially in terms of handling nutrient-rich topsoil. Topsoil is peeled to a thickness of 0.5 – 1 meter using an excavator. Then it is stacked and stockpiled in a place that is safe from mining activities so that later it can be reused in reclamation activities. The purpose of this research is to obtain a technical design on the corner of the storage area to reduce the eroding impact of rain runoff or other mining activities. Where the method used is to calculate the erosion that occurs on each slope where the test is carried out with 4 different slope angles such as 20⁰, 25⁰, 30⁰ and 35⁰. After obtaining the erosion data, the researchers created an ideal design to reduce the impact by considering the balance aspects of the slope and the material itself. Where the recommended angle data obtained to reduce the eroding impact is 25⁰.

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在表土储存区采用交叉坠落法进行集雨技术设计，以减少斜坡侵蚀和防止径流水

采矿活动经常造成环境破坏，如山体滑坡、洪水和生态系统变化。这些活动包括土地清理、表土剥离、覆土剥离、煤炭挖掘、煤炭运输和加工。有必要开展一项活动，努力进行恢复，以避免对环境造成可持续的破坏。因此，必须进行表土贮存，使开采后的地区重新恢复绿色。考虑在前矿区重新植树造林时，需要采用全面的环境管理策略，特别是在处理富含营养的表土方面。使用挖掘机将表土剥至 0.5-1 米厚。然后将表土堆放在不受采矿活动影响的地方，以便日后在复垦活动中重新使用。本研究的目的是对储存区的角落进行技术设计，以减少雨水径流或其他采矿活动的侵蚀影响。所使用的方法是计算每个斜坡上发生的侵蚀量，在 4 个不同的斜坡角度（如 20⁰、25⁰、30⁰ 和 35⁰）下进行测试。在获得侵蚀数据后，研究人员通过考虑斜坡和材料本身的平衡方面，创建了一个理想的设计来减少影响。其中，为减少侵蚀影响而获得的建议角度数据为 25⁰。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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EnviroScienteae

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