Typological diversity and morphological continuity in the modern residential fabric: The case of Ankara, Turkey

Each city has a unique fabric corresponding to the dominant modes of production, legal control, and guidance systems in which it operates. Any periodic alteration in the settled mode of housing supply, in this sense, potentially results in an intrinsic change in ‘typological diversity’ and ‘spatial continuity’ within the collective fabric. If...

Ülke Planlamada Kentsel Dönüşümün Yeri: Türkiye Mekânsal Strateji Planı Örneği

Urban transformation is more prominent in the world regarding planning, architecture and design practices. However, this concept, which is legally and administratively essential and has a place to different extents, includes many definitions and application types. In Republic of Türkiye, the urban transformation has become a method primarily...

Research Perspective of the Turkish Network of Urban Morphology

For the last decades, interest in urban morphology studies has increased in Türkiye. Urban morphology has become a widespread study field within the quantitative and qualitative track of urbanism to investigate further the character of Turkish cities and their urban fabric. Aiming to make urban morphology an independent and interdisciplinary...

In-Situ Monitoring of Weld Line Thickness in Continuous Ultrasonic Welding of Thermoplastic Composites

Continuous ultrasonic welding (CUW) is one of the most efficient integration methods of thermoplastic composites. Researchers from our group have already utilized CUW method by using both frame based and robotic welding platforms to achieve sufficient amount of joint strength for aerospace applications [1-3]. On the other hand, the...

Future Plans for the Development of an Industrialized Continuous Ultrasonic Welding Process

The need for robust joining methods for thermoplastic composites increases since the usage of these materials expands steadily in the aerospace industry. Continuous ultrasonic welding has been demonstrated in the recent years as one of the most promising joining techniques for thermoplastic composites to fulfill this need. This paper presents...

The root flow of horizontal axis wind turbine blades: Experimental analysis and numerical validation

Despite a long research history in the field of wind turbine aerodynamics, horizontal axis wind turbine (HAWT) blade's root flow aerodynamics is among the least understood topics. In this thesis work, a detailed investigation of the root flow is performed to gain a better insight into the features of this particular flow region and their...

Effects of geometry and tip speed ratio on the HAWT blade's root flow

In this study, the effect of the parameters playing a role in the root flow behavior of HAWT are only partly understood. To better reveal the root flow properties, this study presents the progression of HAWT blade root flow at two different blade geometries and at two different tip speed ratios. The effects of the geometry and the tip speed...

The origins of a wind turbine tip vortex

The tip vortex of a wind turbine rotor blade originates as a result of a complex distribution of vorticity along the blade tip thickness. While the tip vortex evolution was extensively studied previously in other work, the mechanism of the initiation of the tip vorticity in a 3D rotating environment is still somewhat obscured due to lack of...

Experimental and Numerical Quantification of Radial Flow in the Root Region of a HAWT

This paper explores the evolution of radial flow in a Horizontal Axis Wind Turbine (HAWT) blade root region. The radial flow is analyzed in the potential flow and viscous flow regions. An experiment carried out by means of stereo Particle Image Velocimetry to measure the velocity field produced by a HAWT blade. While the radial flow in the...

Stereo PIV Experiments on Horizontal Axis Wind Turbine Rotor Model

This paper sets out to describe the measurements and computations to construct three components of velocity field around the blade. The primary aim of the measurements was to gain insight into the physics of the flow field produced by a horizontal axis wind turbine-HAWT blade. Stereo Particle Image Velocimetry experiments were performed on a two...

Experimental and numerical study of radial flow and its contribution to wake development of a HAWT

The scope of this work was to investigate radial flow component for a Horizontal Axis Wind Turbine in axial flow conditions and to assess its impact on the turbine operation. This was done by means of Particle Image Velocimetry and numerical simulation with a 3D unsteady potential-flow panel model. A direct comparison between the numerical and...

Experimental and Numerical Investigation of the Effect of Rotor Blockage on Wake Expansion

A detailed quantitative description of the aerodynamics of a horizontal axis wind turbine (HAWT) is difficult due to complexity of the flow field. Several methods from experimental to analytical are used to investigate the aerodynamics of a HAWT. In the present study, a wind tunnel experiment and computational fluid dynamics (CFD) simulations...

Experimental Investigation of the Wind Turbine Blade Root Flow

Several methods from experimental to analytical are used to investigate the aerodynamics of a horizontal axis wind turbine. To understand 3D and rotational effects at the root region of a wind turbine blade, correct modeling of the flow field is essential. Aerodynamic models need to be validated by accurate experimental data. In this paper, the...