Project Title: PRODUCTION OF DUAL-VOLTAGE, VOLTAGE-TAP-ADJUSTABLE SHUNT REACTOR (FIRST TIME IN TURKEY) (2016-2017)
PROJECT SUMMARY:
Shunt reactors (inductive load reactors) are generally used to compensate for capacitive reactive energy in long and lightly loaded transmission lines and cables, thereby enabling greater active power flow within the system. Through this project, our company aims to develop a shunt reactor that enhances energy system efficiency and extends the lifespan of connected devices, tools, and machinery.
Project Objective:
Our company aims to develop and commercialize a shunt reactor that compensates for overvoltage caused by line capacitances (Ferranti Effect) and reactive power. The number of manufacturers producing shunt reactors within the required power and voltage ranges for energy distribution companies is quite limited. With our entry into this market, competition will emerge in the international shunt reactor sector, inevitably leading to improved pricing. The main goal of our project is to develop a shunt reactor with dual-voltage winding and voltage tap adjustment, replacing the existing single-voltage shunt reactors.
Innovative Aspects of the Project:
Shunt reactors are devices that create inductive effects and are therefore also referred to as “inductive load reactors.” They are used in systems with high capacitive reactive energy to maintain balance (compensation). Shunt reactors can be manufactured in different power and voltage levels depending on their placement in the network. Additionally, they can be produced with multiple power or voltage levels through on-load or off-load tap changers. Our company aims to develop a dual-voltage, voltage-tap-adjustable shunt reactor that offers significant advantages over both imported and domestic products.
Project Title: REMOTELY MONITORED AND CONTROLLED, ECODESIGN, ON-LOAD TAP CHANGER 15 MVA – 33/11 KV POWER TRANSFORMER DESIGN AND PROTOTYPE MANUFACTURING (2018-2019)
PROJECT SUMMARY:
This project focuses on designing and manufacturing a remotely monitored 15 MVA 33 kV/11 kV eco-design power transformer with an on-load tap changer. While our company has extensive experience in distribution transformers, we do not yet manufacture power transformers. This project’s output will be our company’s first power transformer product, marking a crucial step towards developing medium-power transformer designs.
Project Objective:
The project aims to design and manufacture a remotely monitored and controlled 15 MVA 33 kV/11 kV on-load tap changer transformer. While domestic production of transformers with these specifications exists, there is currently no transformer featuring remote monitoring and control along with an eco-design approach. Since no similar project has been executed nationally before, this initiative seeks to achieve a first in the industry.
Project Title: DEVELOPMENT OF STRATEGIES AND IMPLEMENTATION METHODS FOR REDUCING INDUSTRIAL CARBON FOOTPRINT (2024-2025)
PROJECT SUMMARY:
This project aims to implement concrete measures to reduce the environmental impact of our company operating in the manufacturing sector. Through mentorship from our solution partner, we plan to calculate our carbon footprint and develop strategies to mitigate its effects within our production processes.
Project Objective:
The primary goal of the Development of Strategies and Implementation Methods for Reducing Industrial Carbon Footprint project is to devise innovative strategies and implementation methods to reduce industrial carbon emissions. By minimizing the environmental impact of our production processes, we aim to promote sustainable manufacturing models and align our company with green transformation initiatives. Additionally, we seek to enhance energy efficiency, optimize resource utilization, measure and report our carbon footprint, and ultimately achieve environmental sustainability.
