ANALYSIS OF ROADHEADER PERFORMANCE FOR TUNNEL RAILWAY CONSTRUCTION IN PURWOKERTO-KROYA LINE IN NOTOG

ANALYSIS OF ROADHEADER PERFORMANCE FOR TUNNEL RAILWAY CONSTRUCTION IN PURWOKERTO-KROYA LINE IN NOTOG

The railway tunnel at Notog is one of the double track railway tunnels that belong to the Purwokerto-Kroya line, Central Java. The tunnel will be built along 471 meters by using of a roadheader digging tool. One of the important faktors in the tunnel construction process is the excavation activity w...

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Main Author: WISHNU PRADANA (NIM : 12113086), YOGA
Format: Final Project
Language:Indonesia
Online Access:https://digilib.itb.ac.id/gdl/view/24784
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:24784
spelling id-itb.:247842017-09-28T11:06:44ZANALYSIS OF ROADHEADER PERFORMANCE FOR TUNNEL RAILWAY CONSTRUCTION IN PURWOKERTO-KROYA LINE IN NOTOG WISHNU PRADANA (NIM : 12113086), YOGA Indonesia Final Project INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/24784 The railway tunnel at Notog is one of the double track railway tunnels that belong to the Purwokerto-Kroya line, Central Java. The tunnel will be built along 471 meters by using of a roadheader digging tool. One of the important faktors in the tunnel construction process is the excavation activity which is the initial activity of the tunnel construction cycle. Therefore, the planning and execution of the excavation should be considered well. <br /> <br /> <br /> Planning of excavation activities includes the selection of tunnel construction methods, the selection of digging tools, and prediction of productivity of the digging tool. In the making of this Notog tunnel, using New Austrian Tunneling Method (NATM) with the main digging tool is a roadheader. The prediction of roadheader productivity is calculated based on the Bilgin equation (1990), Kramadibrata (1996), and Copur (1998) using various parameters, such as rock compressive strength, rock tensile strength, RQD, spacing discontinuities, rock density, power of digging tool, and weight of digging tool. This prediction value is then compared with aktual productivity in the field for analysis and evaluation. <br /> <br /> <br /> The results of the analysis of predictions and aktual results in the field found that roadheader performance against clay rock in the field is better than performance against volcanic breccia. The results showed the stronger the rocks productivity of the roadheader productivity will decrease. The results of the prediction show that the Copur equation (1990) is suitable for predicting roadheader productivity in weak rocks, while Kramadibrata equation (1996) and Bilgin (1998) is more suitable for predicting roadheader productivity in strong rocks. <br /> 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
description The railway tunnel at Notog is one of the double track railway tunnels that belong to the Purwokerto-Kroya line, Central Java. The tunnel will be built along 471 meters by using of a roadheader digging tool. One of the important faktors in the tunnel construction process is the excavation activity which is the initial activity of the tunnel construction cycle. Therefore, the planning and execution of the excavation should be considered well. <br /> <br /> <br /> Planning of excavation activities includes the selection of tunnel construction methods, the selection of digging tools, and prediction of productivity of the digging tool. In the making of this Notog tunnel, using New Austrian Tunneling Method (NATM) with the main digging tool is a roadheader. The prediction of roadheader productivity is calculated based on the Bilgin equation (1990), Kramadibrata (1996), and Copur (1998) using various parameters, such as rock compressive strength, rock tensile strength, RQD, spacing discontinuities, rock density, power of digging tool, and weight of digging tool. This prediction value is then compared with aktual productivity in the field for analysis and evaluation. <br /> <br /> <br /> The results of the analysis of predictions and aktual results in the field found that roadheader performance against clay rock in the field is better than performance against volcanic breccia. The results showed the stronger the rocks productivity of the roadheader productivity will decrease. The results of the prediction show that the Copur equation (1990) is suitable for predicting roadheader productivity in weak rocks, while Kramadibrata equation (1996) and Bilgin (1998) is more suitable for predicting roadheader productivity in strong rocks. <br />
format Final Project
author WISHNU PRADANA (NIM : 12113086), YOGA
spellingShingle WISHNU PRADANA (NIM : 12113086), YOGA
ANALYSIS OF ROADHEADER PERFORMANCE FOR TUNNEL RAILWAY CONSTRUCTION IN PURWOKERTO-KROYA LINE IN NOTOG
author_facet WISHNU PRADANA (NIM : 12113086), YOGA
author_sort WISHNU PRADANA (NIM : 12113086), YOGA
title ANALYSIS OF ROADHEADER PERFORMANCE FOR TUNNEL RAILWAY CONSTRUCTION IN PURWOKERTO-KROYA LINE IN NOTOG
title_short ANALYSIS OF ROADHEADER PERFORMANCE FOR TUNNEL RAILWAY CONSTRUCTION IN PURWOKERTO-KROYA LINE IN NOTOG
title_full ANALYSIS OF ROADHEADER PERFORMANCE FOR TUNNEL RAILWAY CONSTRUCTION IN PURWOKERTO-KROYA LINE IN NOTOG
title_fullStr ANALYSIS OF ROADHEADER PERFORMANCE FOR TUNNEL RAILWAY CONSTRUCTION IN PURWOKERTO-KROYA LINE IN NOTOG
title_full_unstemmed ANALYSIS OF ROADHEADER PERFORMANCE FOR TUNNEL RAILWAY CONSTRUCTION IN PURWOKERTO-KROYA LINE IN NOTOG
title_sort analysis of roadheader performance for tunnel railway construction in purwokerto-kroya line in notog
url https://digilib.itb.ac.id/gdl/view/24784
_version_ 1822921344528941056

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