Bench blasting design based on site-specific attenuation formula in a quarry

No Thumbnail Available

Date

2013

Journal Title

Journal ISSN

Volume Title

Publisher

Springer Heidelberg

Open Access Color

OpenAIRE Downloads

OpenAIRE Views

Research Projects

Organizational Units

Organizational Unit

Journal Issue

Abstract

This research was performed on the quarry that will be opened to produce aggregates and rock filling material at Catalagzi region at Zonguldak province in Turkey. However, there are some structures which can be adversely affected by blasting at the quarry. These structures are a methane exploration drill hole and a house at the distances of 340 and 390 m, respectively. One of the main goals of this study is to perform a preliminary assessment of possible damage effect of ground vibrations induced by blasting on these structures by risk analysis based on ground vibration measurements. In order to propose a preliminary blast design models separately for aggregate and rock filling material production, six test shots with different maximum charge per delay were planned and fired at the quarry. In these shots, 90 events were recorded. To predict peak particle velocity (PPV), the relationship between the recorded peak particle velocities and scaled distances were investigated. During this investigation, the data pairs were statistically analyzed and a PPV prediction equation specific to this site with 95% prediction line were obtained. And also, this equation was used in the derivation of the practical blasting charts specific to this site as a practical way of predicting the peak particle velocity and maximum charge per delay for future blasting. A risk analysis was performed by using this equation. In the light of this analysis, preliminary blast design models were proposed to be used in this quarry for aggregate and rock filling material production.

Description

AKSOY, MEHMET/0000-0002-3650-8493; ozer, umit/0000-0001-5930-0321; KARADOGAN, ABDULKADIR/0000-0001-7321-3320

Keywords

Blasting, Vibration, Environment, Risk analysis, Practical design charts

Turkish CoHE Thesis Center URL

Fields of Science

Citation

8

WoS Q

Scopus Q

Source

Volume

6

Issue

3

Start Page

711

End Page

721