Abstract
Drill and blast is the most cost-effective excavation method for underground construction, however, vibration and noise, induced by blasting, have been consistently reported as problems. Cut blasting has been widely employed to reduce the blast-induced problems during underground excavation. We propose that the large hole boring method using the state-of-the-art MSP (Multi-setting smart-investigation of the ground and pre-large hole boring) machine (“MSP method”) can efficiently improve vibration reduction. The MSP machine will be used to create 382 mm diameter empty holes at the tunnel cut area for this purpose. This study assessed the efficiency of the MSP method in reducing blast-induced vibration in five blasting patterns using a cylinder-cut, which is a traditional cut blasting method. The controlled blasting patterns using the MSP method demonstrated up to 72% reduction in blast-induced vibration, compared to the base case, Pattern B, where only cylinder-cut and smooth blasting method were applied. Therefore, the MSP method proves to be a promising alternative for blasting in sensitive urban areas where non-vibration excavation techniques were initially considered. Geological characteristics of 50 m beyond the excavation face can be acquired through the proposed real-time boring data monitoring system together with a borehole alignment tracking and ground exploration system. The obtained geological information will be a great help in preparing alternative designs, and scheduling of construction equipment and labour during the tunnel construction.
Highlights
Drill and blast is widely well-known as the most economical and efficient method to excavate rocks for the construction of underground structures; this method has consistently caused problems of vibration and noise due to a large amount of explosives in sensitive urban environments [1,2,3,4,5]
We studied how much the MSP method using large empty holes could efficiently reduce the vibration generated during tunnel blasting
The MSP method creates relatively large free faces compared to the traditional parallel hole cut method in the cut area before the main blasting, significantly reducing blastinduced vibration by up to 72% compared to general blasting utilizing the traditional cylinder-cut method
Summary
Drill and blast is widely well-known as the most economical and efficient method to excavate rocks for the construction of underground structures; this method has consistently caused problems of vibration and noise due to a large amount of explosives in sensitive urban environments [1,2,3,4,5]. Formation of free faces is the most effective way to reduce blast-induced vibration [7,8]; tunnels generally have only one free face compared to open-pit mines. Cut blasting is generally performed to create an additional free face, and is the most effective and one of the most commonly utilized methods for reducing blast-induced vibration [9]. Sci. 2021, 11, x FOR PEER REVIEW the conditions of a site This method can be used to simplify the blasting patterns of the cut area compared with other methods. Comparison of of thetheprinciple (a)general general blasting method andmulti-setting (b) multi-setting smart-investigation of
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