Report on the Design Options of Landwall Mining Method

Verified

Added on 2020/02/19

AI Summary

This report presents an analysis of various mining methods, specifically focusing on the design options for landwall mining. The report highlights potential risks associated with each method, such as the collapse of mine shafts and the impact of earth-moving equipment, emphasizing the need for careful geological analysis and proper training of workers. The belt transect method is proposed as a solution, due to its efficiency, reliability, and ability to address the identified risks. The report considers both the merits and limitations of each method, ultimately recommending the belt transect method for its ability to balance risk management and operational efficiency. References to relevant literature are also included to support the analysis.

Contribute Materials

Your contribution can guide someone’s learning journey. Share your documents today.

REPORT ON THE DESIGN OPTIONS OF LANDWALL MINING METHOD
PART 1: DESIGN 1
The mining options presented have got a myriad of challenges such as risk factors that must be
analyzed during establishment of standard operating procedures. Admittedly, risks associated
with each mining option have unique characteristics such as accidental collapse of the roof in
areas where reinforcements are not done properly. The cross deep shaft method is often
associated with this kind of risk as the shafts are sunk relatively deeper. Due to the overbearing
weight of the earth movers and the vibration of the machines, areas prone to earth quakes may be
triggered off (Singh, Pathan & Unver, no year).). The geologists must therefore competently
analyze the data from the area using modern sophisticated tools and software. The identified
hotspots must therefore be avoided at all costs.
Improper and insufficient training of all workers can also be a potential source of problems. The
inexperienced crane operators and drivers may cause damage to people and properties as they try
to navigate the terrain during mining. The entire system of mining must therefore take into
consideration the complex routing of the machinery and equipment to minimize on backtracking
and unnecessary collisions (Kumar., Chandrasekhar & Reddy, 2016).
Some mines have weaker rocks which could cave in during operation. It is therefore often
required that once an area is depleted, the remnants must be cleared off. The belt transect method
will come in handy in this case.
The above mining design options have got both merits and limitations. The belt transect method
is the fastest and perhaps the cheapest to establish and run. The area identified is worked on in a
rectangular manner before collapsing the weaker walls to give way to new region as movement
is both traverse and longitudinal.
Therefore, in conclusion, we propose the belt transect method which takes into proper account of
risk, efficiency and reliability.
REFERENCE
Kumar,B.R., Chandrasekhar, S & Reddy, B.V. (2016). Construction and operation of high
capacity longwall project : Adriyala experience. The Singareni Collieries Company Ltd
kothagudem.
Singh, R.N., Pathan , A.G. & Unver, B. (no year). Design of Rib Pillars in Longwall Mining
Based on Theoretical and Practical Approaches. available from:
http://www.maden.org.tr/resimler/ekler/17c0907e67d868b_ek.pdf

Secure Best Marks with AI Grader

Need help grading? Try our AI Grader for instant feedback on your assignments.

1 out of 1

Report on the Design Options of Landwall Mining Method

Contribute Materials

Secure Best Marks with AI Grader

Related Documents

Comprehensive Report: Landwall Mining Design Options and Risk Analysis

Detailed Report on Landwall Mining Design Options and Analysis

Report: Landwall Mining Design Options and Associated Risks

+13062052269

info@desklib.com