DETERMINING THE DESIGN RECCOMENDATIONS OF HIGHWALL AND LOWWALL SLOPE OF COAL MINE PT. XYZ IN TAPIN, SOUTH KALIMANTAN

DETERMINING THE DESIGN RECCOMENDATIONS OF HIGHWALL AND LOWWALL SLOPE OF COAL MINE PT. XYZ IN TAPIN, SOUTH KALIMANTAN

PT. XYZ is a coal mining company located in Tapin Regency, South Kalimantan. The company plans to mine 2 pits. Before carrying out mining, the company needs to conduct a study on work safety and security as the main requirements for carrying out mining, one of them is slope stability analysis. There...

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Main Author: Mahdi Patriansyah, Muhammad
Format: Final Project
Language:Indonesia
Subjects:
Pertambangan dan operasi berkaitan
Online Access:https://digilib.itb.ac.id/gdl/view/51492
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Institution: Institut Teknologi Bandung
Language: Indonesia
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spelling id-itb.:514922020-09-28T21:59:31ZDETERMINING THE DESIGN RECCOMENDATIONS OF HIGHWALL AND LOWWALL SLOPE OF COAL MINE PT. XYZ IN TAPIN, SOUTH KALIMANTAN Mahdi Patriansyah, Muhammad Pertambangan dan operasi berkaitan Indonesia Final Project Safety factor, probability of failure, goodness of fit test, Kolmogorov-Smirnov method, Akaike Information Criterion INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/51492 PT. XYZ is a coal mining company located in Tapin Regency, South Kalimantan. The company plans to mine 2 pits. Before carrying out mining, the company needs to conduct a study on work safety and security as the main requirements for carrying out mining, one of them is slope stability analysis. Therefore, this study aims to determine the stability of the final design of PT. XYZ coal pit slopes by considering the Safety Factor (SF) and the Probability of Failure (POF). This study requires data consist of content weight, cohesion, and internal friction angle based on laboratory tests. The data was then performed for Goodness of fit test to select the best distribution function using the Kolmogorov-Smirnov method followed by the Akaike Information Criterion Test. The outputs are mean, standard deviation, maximum and minimum relative which are being the input parameters for the Monte-Carlo simulation method using Slide 6.0. The calculation of the safety factor for the Highwall slope was analyzed using the Bishop method, while the calculation of the safety factor for the Lowwall slope was analyzed using the Janbu method. The slope stability analysis used the slide probability analysis to process the data. The slope stability analysis used the Ministerial Decree No. 1827 K / 30 / MEM / 2018 as a reference for determining the slopes is safe or not. The results of the slide probability analysis carried out using some of softwares such as Microsoft Excel, Matlab 2019, @Risk 7.6 & 8.0, and Slide 6.0 are unsafe for Highwall slopes at sections 1 and 3. Therefore, it requires geometric redesign and good flow water management around these slopes. The results of the recommendations for slope design in section 1 have SF in static conditions are 1,35 (Highwall) & 3,32 (Lowwall) and dynamic are 1,10 (Highwall) & 2,35 (Lowwall) with all POF values 0-0.4%. Meanwhile, for section 3 SF obtained in static conditions are 1.39 (Highwall) & 1.85 (Lowwall) and dynamic are 1.15 (Highwall) & 1.45 (Lowwall) with all POF values 0%. Based on these results, the draft recommendation desaign was accepted according to the slope stability criteria of the Ministerial Decree No. 1827 K / 30 / MEM / 2018 with Static SF> 1.3, Dynamic SF> 1.1, and POF <5%. text
institution Institut Teknologi Bandung
building Institut Teknologi Bandung Library
continent Asia
country Indonesia
Indonesia
content_provider Institut Teknologi Bandung
collection Digital ITB
language Indonesia
topic Pertambangan dan operasi berkaitan
spellingShingle Pertambangan dan operasi berkaitan
Mahdi Patriansyah, Muhammad
DETERMINING THE DESIGN RECCOMENDATIONS OF HIGHWALL AND LOWWALL SLOPE OF COAL MINE PT. XYZ IN TAPIN, SOUTH KALIMANTAN
description PT. XYZ is a coal mining company located in Tapin Regency, South Kalimantan. The company plans to mine 2 pits. Before carrying out mining, the company needs to conduct a study on work safety and security as the main requirements for carrying out mining, one of them is slope stability analysis. Therefore, this study aims to determine the stability of the final design of PT. XYZ coal pit slopes by considering the Safety Factor (SF) and the Probability of Failure (POF). This study requires data consist of content weight, cohesion, and internal friction angle based on laboratory tests. The data was then performed for Goodness of fit test to select the best distribution function using the Kolmogorov-Smirnov method followed by the Akaike Information Criterion Test. The outputs are mean, standard deviation, maximum and minimum relative which are being the input parameters for the Monte-Carlo simulation method using Slide 6.0. The calculation of the safety factor for the Highwall slope was analyzed using the Bishop method, while the calculation of the safety factor for the Lowwall slope was analyzed using the Janbu method. The slope stability analysis used the slide probability analysis to process the data. The slope stability analysis used the Ministerial Decree No. 1827 K / 30 / MEM / 2018 as a reference for determining the slopes is safe or not. The results of the slide probability analysis carried out using some of softwares such as Microsoft Excel, Matlab 2019, @Risk 7.6 & 8.0, and Slide 6.0 are unsafe for Highwall slopes at sections 1 and 3. Therefore, it requires geometric redesign and good flow water management around these slopes. The results of the recommendations for slope design in section 1 have SF in static conditions are 1,35 (Highwall) & 3,32 (Lowwall) and dynamic are 1,10 (Highwall) & 2,35 (Lowwall) with all POF values 0-0.4%. Meanwhile, for section 3 SF obtained in static conditions are 1.39 (Highwall) & 1.85 (Lowwall) and dynamic are 1.15 (Highwall) & 1.45 (Lowwall) with all POF values 0%. Based on these results, the draft recommendation desaign was accepted according to the slope stability criteria of the Ministerial Decree No. 1827 K / 30 / MEM / 2018 with Static SF> 1.3, Dynamic SF> 1.1, and POF <5%.
format Final Project
author Mahdi Patriansyah, Muhammad
author_facet Mahdi Patriansyah, Muhammad
author_sort Mahdi Patriansyah, Muhammad
title DETERMINING THE DESIGN RECCOMENDATIONS OF HIGHWALL AND LOWWALL SLOPE OF COAL MINE PT. XYZ IN TAPIN, SOUTH KALIMANTAN
title_short DETERMINING THE DESIGN RECCOMENDATIONS OF HIGHWALL AND LOWWALL SLOPE OF COAL MINE PT. XYZ IN TAPIN, SOUTH KALIMANTAN
title_full DETERMINING THE DESIGN RECCOMENDATIONS OF HIGHWALL AND LOWWALL SLOPE OF COAL MINE PT. XYZ IN TAPIN, SOUTH KALIMANTAN
title_fullStr DETERMINING THE DESIGN RECCOMENDATIONS OF HIGHWALL AND LOWWALL SLOPE OF COAL MINE PT. XYZ IN TAPIN, SOUTH KALIMANTAN
title_full_unstemmed DETERMINING THE DESIGN RECCOMENDATIONS OF HIGHWALL AND LOWWALL SLOPE OF COAL MINE PT. XYZ IN TAPIN, SOUTH KALIMANTAN
title_sort determining the design reccomendations of highwall and lowwall slope of coal mine pt. xyz in tapin, south kalimantan
url https://digilib.itb.ac.id/gdl/view/51492
_version_ 1822000966299287552

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