3 results listed
The fourth industrial revolution, known as Industry 4.0, has opened the doors to sustainable energy by
modernizing traditional network structure with information and communication technologies and
integrating renewable energy sources. In the context of Industry 4.0, modern network structures using
advanced Information and Communication Technologies enable us to use energy production,
transmission, distribution and consumption processes more efficiently and reliably. The future power
grid, which is called “Smart Grid”, provides bidirectional data communication by using information
and communication technologies from electricity generation to energy consumption. The Smart Grid
include infrastructure that will increase the effective use of available energy with dynamic pricing,
control, and protection. The use of wired and wireless communication technologies in Smart Grids
causes to physical and cyber security risks. The physical and cyber-attacks that take place in Smart
Grids can cause enormous damage. In this study, we have investigated the possible physical and cyber
risks that may take place in future power grid. In addition, the features of different wired and wireless
communication technologies used in the smart grid are presented in this study.
International Congress on 3D Printing (Additive Manufacturing) Technologies and Digital Industry
3D-PTC2019
Erkan Dursun
Ahmet Hacinecipoglu
Bulut tabanlı nesnelerin interneti ile verilerin gerçek zamanlı işlenmesine imkan veren dijital
dönüşümün merkezi Sanayi 4.0, “Akılı Şebeke” altyapılarının oluşması için bir çok fırsatlar
sunmaktadır. Artan nüfus-enerji talebi ve oluşan çevresel kaygılar, mevcut enerjinin daha etkin ve
verimli kullanılması gerekliliğini bizlere hatırlatmaktadır. Bütün bu nedenlerden dolayı mevcut
geleneksel şebekelerin modernize edilmesi gerekir ve enerjinin sürdürülebilir modernizasyonu, Sanayi
4 bünyesinde sürdürülebilir dijital dönüşüm ile mümkündür. Enerji alanındaki dijital dönüşümün
çıktısı olan “Akıllı Şebeke (Smart Grid)” kavramı, ileri ölçüm altyapılarını kullanarak (Advanced
Metering Infrastructure-AMI) enerjinin üretimi, iletimi, dağıtımı ve tüketimi aşamalarının çift yönlü
veri iletişimi ile gerçek zamanlı izlenmesine imkân sağlayan şebeke yapıları olarak tanımlanmaktadır.
Akıllı Şebekeler, yenilenebilir enerji sistemlerinin mevcut şebekelere entegrasyonunu kolaylaştırarak
sürdürülebilir enerjinin kapılarını sonuna kadar açmaktadır. Bu çalışmada Sanayi 4 ışığı altında
Akıllı Şebeke yapıları detaylı bir şekilde açıklanmıştır.
International Congress on 3D Printing (Additive Manufacturing) Technologies and Digital Industry
3D-PTC2019
Erkan Dursun
Compared to the other transport modes public railway systems are the most energy efficient mode.
However, in proportion to increasing urbanizing and passenger load, intensive energy demand has been
challenged in the railway sector. This increasing requires to innovative implementation solutions for the
reduction of the energy consumption and reducing carbon emission. Railway stations are critical public
buildings due to their large size and high occupant density. Because of vast open spaces and long
operation hours, railway stations are intensive energy consumer. Integration innovative technologies to
the railway station buildings is a step to achieve the goal of energy consumption and emission reduction.
The energy efficiency measures and renewable energy using at the railway systems are still limited
numbers, although many studies have been worked. In this paper the applications of solar energy to
urban railway stations were examined for different countries, the potentials of solar technology
application to the station platform roofs of the will be discussed. In this context, simulation of the
application of the surface PV panels necessary for the energy consumption of the urban railway station
is studied for the case of Istanbul metropolitan based on the quantitative data.
International Symposium on Railway System Engineering
ISERSE
Beyhan Kilic
Erkan Dursun