Amanullah Zamani scite author profile

Amanullah Zamani

2Publications

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Izmir Kâtip Çelebi University

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Kent Ormanlarının Karbon Yakalama Potansiyeli

Sütçüoğlu¹,

Demirkol²,

Zamani³

et al. 2022

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Hızla artan nüfus, sanayileşme, kentleşme sayesinde tüm dünyada artan talepler orman ekosisteminin tahrip edilmesi, çölleşme, kirlilik ve biyolojik çeşitliliğinin azalması, doğal kaynakların tahribatı gibi sorunlara neden olmaktadır. Arazi kullanımlarının değişimi ve sanayileşme sonucunda karbon salınımının artması günümüzde insanlığın en büyük sorunları olan küresel ısınma ve buna bağlı olan iklim değişikliğinin başlıca nedenidir. Dünyadaki en önemli karbon birikim alanları, okyanuslar, atmosfer ve karasal ekosistemdir. Ormanlar, birçok flora ve faunaya ev sahipliği yaparak ekolojik dengeyi korumalarının yanı sıra diğer ekosistemlerden daha fazla karbon tüketmektedirler. Bu nedenden dolayı karbon salınımın azaltılmasında çok önemli bir rol oynamaktadırlar. Ormanlar doğrudan küresel iklim değişikliğinin etkisini azaltarak bölgesel hatta global iklimsel dengenin korunmasında oldukça büyük bir etkiye sahiptirler. Ülkemizde ise özellikle 1950’li yıllarda başlayan köyden kente göç düzensiz yapılaşmaya, zaman içerisinde artan kentleşme ile birlikte kentsel alanlarda ormansızlaşmaya neden olmuştur. Kent ormanları modern kentlerde yaşayan insanlar için birçok farklı ekosistem hizmeti sunmaktadır. İçinde bulunduğumuz iklim krizi açısından bakıldığında kent ormanlarının en önemli ekosistem hizmetlerinden biri karbon yutağı görevi üstlenmeleridir. Bu çalışmada kent ormanlarının karbon yutağı kapasitelerinin ortaya konması amacıyla İzmir ilinde yer alan tüm ormanlarının ve Sasalı ve İnciraltı Kent Ormanlarının karbon tutulumundaki etkileri incelenmiştir.

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A Practical Compensation Method for Differential Column Shortenings in High-rise Reinforced Concrete Buildings

Seçer

Zamani

İşler

2020

Period. Polytech. Civil Eng.

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High-rise reinforced concrete buildings have technical, economic and environmental advantages for high density development and they have become a distinctive feature for densely populated urban areas around the world. For this purpose, structural design of high-rise reinforced concrete buildings have become forward and particularly serviceability requirements gained more interest. Differential shortening of vertical members is one of the serviceability requirements; however, only a limited number of studies exist. In this study, a practical compensation method was proposed for the differential shortening of columns and shear walls in high-rise reinforced concrete buildings. In the proposed compensation method, vertical members were grouped and the total error was aimed to be minimized by penalizing the higher shortening differences in the groups to simplify the process of building construction. In order to validate the proposed method, a 32-storey high-rise building that was built in Izmir Turkey was investigated considering both the construction sequence and time-dependent effects as shrinkage and creep. Vertical shortening of columns and shear walls in the tower part of the building were calculated. Uniform-grouped compensation method and the proposed penalized errors compensation method with using L1-norm and L2-norm were applied for differential shortenings of columns and shear walls with considering different numbers of member groups. The magnitude of errors for each compensation method was presented and evaluated. Results of the numerical study reveal that the proposed penalized errors compensation method was capable of determining the compensation errors by minimizing the maximum errors efficiently.

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