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Farklı Kaya Sınıfları İçin Yapılan Sayısal Modelleme Çalışmalarının Karşılaştırılması-Örnek Uygulama Günümüzde artan şehir nüfusu, ulaşımda toplu taşımayı mecbur kılmaktadır. Şehirlerdeki yapılaşmanın bozukluğu ve yolların yetersizliği karayolu ulaşımına göre; çevreye dost, güvenli, hızlı, ekonomik ve konforlu olan raylı taşıma sistemini ön plana çıkarmaktadır. Ancak, raylı taşıma sisteminde ulaşılacak noktalar arasındaki bağlantılarda tırmanma ve dönme sınırları gibi teknik zorluklar nedeniyle yerüstü yapılarının altından geçmek gerekir. Bu nedenle şehiriçi raylı sistem taşımacılığında tünelcilik zorunluluk olmaktadır. İzmir şehri ulaşımında bir çözüm olan 44 km uzunluğundaki İzmir Hafif Raylı Sisteminin Yeni Avusturya Tünel açma yöntemiyle açılan yaklaşık 5,5 km’lik Üçyol-Fahrettin Altay Metro güzergâhını kapsayan kısmında tünel zemin/kaya ilişkilerinin incelenmesi amacıyla; Avusturya tünel açma standartı olan ÖNORM kaya sınıflama sistemine göre yüzdesel dağılımlar çıkarılmış ve hakim kaya sınıfı için sayısal modelleme çalışması yapılmıştır. Yapılan sayısal değerlendirmeye göre tünel güzergahının %25’inin B2, %50’sinin B3 olmak üzere %75’lik kısmının B kaya sınıfında olduğu belirlenmiştir. Bu durum gözönüne alınarak örnek modellemeler B2-B3 kaya sınıfı için İzmirspor-Hatay İstasyonu arasında kalan bölgede gerçekleştirilmiştir. İzmir Hafif Raylı Sistem Projesi 2. Aşama İkmal İnşaatı Yapım İşi kapsamında açılan tünellerde farklı kaya sınıflarında uygulanan destekleme sistemleri Phase2 v7.0 programı ile modellenerek tünel kesitinde oluşacak toplam yer değiştirmelerin (deplasmanların) analizi yapılmış ve yorumlanmıştır Comparison of Numerical Modeling Studies Made for Different Rock Classes- A Case Study At the present time, public transport system has become a necessity because of increasing urban population. Unplanned urbanization and lack of road brings rail transport system which is more environmentally friendly, safe, fast, economic and comfortable than road transportation into the forefront. But, it should be passed under the aboveground structure due to technical difficulties such as climbing and turning limits in rail transport system. Therefore, tunnelling has become a necessity in rail transport system. Izmir Light Rail System in the 44 km-long has been a solution in transportation of Izmir. Uçyol - Fahrettin Altay route, which is approximately 5.5 kilometers and was excavated with New Austrualian Tunneling Method, is a part of the Izmir light rail system. Percentage distributions were calculated according to ÖNORM rock classification system in order to examine tunnel-soil/rock relations in this route. Also, numerical modeling study was done for the dominant rock classes. According to the numerical evaluation, it was determined that a large portion (75 %) of the Uçyol - Fahrettin Altay tunnel route is a B Rock Class (25% B2 and 50% B3). Considering this situation, modelling studies for B2-B3 rock classes were carried out in the region between Izmirspor Station and Hatay Station. Support systems in these rock classes were modelled with Phase2 v7.0. According to these modelling studies, analyses of total displacements which occur in tunnel section were made and interpreted by authors of this article.
Comparison of numerical modeling studies for different rock classes - Example Application Today the increasing urban population makes public transportation compulsory. The disturbance of structuring in cities and the lack of roads, according to road transport, puts the rail transport system, which is environmentally friendly, safe, fast, economic and comfortable, in the forefront. However, it is necessary to pass through the ground structure due to technical difficulties such as climbing and turning boundaries in the connections between the points to be reached in the rail transport system. Therefore, the tunnel is mandatory in the city rail system transportation. For the purpose of examining the tunnel ground/kaya relations in the area covering the row of about 5.5 km Trizyol-Fahrettin Altay Metro, which is a solution in İzmir city transport, the 44 km long İzmir Light Rail System with the new Austrian tunnel opening method opened; according to the Austrian tunnel opening standard ÖNORM rock classification system, percentage distribution has been extracted and numerical modeling work has been done for the dominant rock class. According to the numerical assessment, 25% of the tunnel route is B2 and 75% of the tunnel route is B3 and 75% of the tunnel route is B. Considering this situation, sample modelling was carried out in the remaining area between the İzmirspor-Hatay Station for the B2-B3 rock class. Ismiri Light Rail System Project 2. Comparison of Numerical Modeling Studies Made for Different Rock Classes- A Case Study At the present time, public transport system has become a necessity because of increasing urban population. Unplanned urbanization and lack of road brings rail transport system which is more environmentally friendly, safe, fast, economic and comfortable than road transportation into the forefront. But, it should be passed under the aboveground structure due to technical difficulties such as climbing and turning limits in rail transport system. Therefore, tunnelling has become a necessity in rail transport system. Izmir Light Rail System in the 44 km-long has been a solution in transportation of Izmir. Fahrettin Altay route, which is approximately 5.5 kilometers and was excavated with New Austrualian Tunneling Method, is a part of the Izmir light rail system. Percentage distributions were calculated according to the PRINCIPAL rock classification system in order to examine tunnel-soil/rock relations in this route. Also, numerical modeling study was done for the dominant rock classes. According to the numerical evaluation, it was determined that a large portion (75%) of the Fahrettin Altay tunnel route is a B Rock Class (25% B2 and 50% B3). Considering this situation, modelling studies for B2-B3 rock classes were carried out in the region between Izmirspor Station and Hatay Station. Support systems in these rock classes were modeled with Phase2 v7.0. According to these modelling studies, analyses of total displacements that occur in tunnel section were made and interpreted by authors of this article.
Alan : Fen Bilimleri ve Matematik; Mühendislik
Dergi Türü : Uluslararası
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