2587-1366_2018_2_2

Author: Nihan Aydın Ertuğrul, Zübeyde Hatipoğlu Bağcı, Özgür Lütfi Ertuğrul Publishing Date: 2018 E-ISSN: 2587-1366 Volume 2 Issue 2 ABSTRACT: Renewable energy plays an important role in meeting the ever increasing energy demand of the modern world. At this point, underground thermal energy storage has been suggested as a clean and efficient alternative of energy extraction for the sustainable future as […]

Author: Hüseyin Mutlu, Burak Emre Yapanmış, Alper Günöz Publishing Date: 2018 E-ISSN: 2587-1366 Volume 2 Issue 2 ABSTRACT: In the automotive sector, doors have an important place in terms of vehicle and passenger safety. For this reason, different kinds of materials and mechanisms have been being designed and parameters have been being investigated and analyzed in order to increase the functional

Author: Bengi Şanlı, Hüseyin Akıllı Publishing Date: 2018 E-ISSN: 2587-1366 Volume 2 Issue 2 ABSTRACT: Flow structure downstream of permeable cylinders was investigated using high-image density Particle Image Velocimetry technique in deep water. The free stream velocity is U∞= 156 mm/s, which corresponds to the Reynolds number of Re=6250 based on the cylinder diameter D=37.5 mm. To reveal the effect of

Author: İskender Özkul, Hüseyin Mutlu Publishing Date: 2018 E-ISSN: 2587-1366 Volume 2 Issue 2 ABSTRACT: A novel approach, called modular approach, is presented in this paper making possible the closed-form solutions of the planar path-generating multi-link mechanisms with lower pairs. In this approach, the mechanism is viewed as a suitable combination of some simpler components called “modules”. The design of the

Author: J. I Oahimire and O. A Adeokun Publishing Date: 2018 E-ISSN: 2587-1366 Volume 2 Issue 2 ABSTRACT: This paper investigates heat transfer in a nanofluid using the Homotopy Perturbation method. Similarity transformation variables and a stream function are used to transform the partial differential equations governing the fluid flow into ordinary differential equations. He’s Homotopy perturbation method is then used