A discussion of the seminars of doctoral students for the research phase of the Electrical Engineering Branch for the academic year ‎2017-2018 on Thursday, 7/12/2017, on the Rafidain Hall, the first seminar within the research year.
The discussion committee consisted of:
1. Assist. Prof. Dr. Rashid Hamid Matar
2. Assist. Prof. Dr. Ali Hussein Ahmed
3. Assist. Prof. Dr. Abdul Rahim Dhiab Hammoud

The students reviewed the results of their research plans and the planned time periods for the purpose of completing their researches within the specified time frame, in order to identify obstacles and difficulties facing the students and propose appropriate solutions to overcome them. The seminars were attended by a number of teachers and graduate students.
The seminars were given by students:
1) Louay Ghali Ibrahim
2) Mustafa Fawzi Mohammed
3) Mohammed Omar Ali

The Department of Electrical Engineering holds a seminar within the activities of scientific and cultural activity for the first semester of the Department of Electrical Engineering for the academic year ‎2017-2018, Assist. Prof. Dr. Abdul Rahim Dhiab Hammoud, Head of Electrical Engineering Branch, Dr. Fadhel Abbas Hassan, and Assist Lect. Ammar Sami Mohammed, delivered a lecture entitled "The Ideal Performance of the Feedback Control of the Situation Based on Molecular Preference Technology" on Thursday, 23/11/2017 in the presence of the Head of the Department of Electrical Engineering, Assist. Prof. Dr. Dari Yousef Mahmoud, Scientific and Administrative Deputies and Heads of Scientific Branches and a number of teaching staff and employees of the department

Where the workshop addressed the explanation of the bases and types of control of feedback and the ideal control and standards used for this purpose. The lecture focused on how to obtain the ideal response to the location and speed of the DC motor through the use of the regulation of the feedback control of the situation using the technology of molecular mass optimization and reference response based on the ideal standard. It was concluded that the inverse control of the ideal state could be obtained using the molecular amplitude optimization technique and the reference response based on the ideal standard without the need for the exact mathematical model of the physical systems.
At the end of the seminar, the discussion and answers to questions and inquiries were opened.

Within the activities of scientific and cultural activity for the first semester of the Department of Electrical Engineering for the academic year 2017-2018, Assist. Prof. Dr. Sannan Majed Abdussattar, Head of Electronic Engineering Branch, in cooperation with Assist. Prof. Dr. Mohamed Abdulridha Hussein, and Assist. Lect. Ali Nouri, lectured on "Light Communication" on Monday 20/11/2017 at Dijla Hall in the presence of the Head of Electrical Engineering Department Assist. Prof. Dr. Dari Yousif Mahmoud, Scientific and Administrative Deputies and Heads of Scientific Branches with number of teachers and staff of the department.

The seminar highlighted the achievements accomplished in the field of the use of light for communications and for thousands of years by mankind. The United Nations has set a year to celebrate these achievements and launched the International Year of Light and Light Based Technologies, one of these achievements is the optical communications

The Ministry of Planning / Central Organization for Standardization and Quality Control granted a patent for a teacher in the Department of Electrical Engineering / Electrical Engineering Branch at the University of Technology. Assist. Prof. Dr. Abdul Rahim Dhiab Hammoud, in cooperation with a teacher in the Department of Electromechanical Engineering, Assist. Prof. Dr. Raheeq Ismail Ibrahim, and the Senior Engineer Najat Abdul Zahra Issa, Ministry of Planning / Investment Department
The patent is entitled:

Design and implementation of Automatic Control circuit to Avoid Fouling and Improve Energy Efficiency in Boilers

This invention is devoted to improve the efficiency of energy production in the steam boiler. This objective has been achieved through design and manufacturing of an automatic system to control the scale formation and fouling inside boiler pipes. Also, the invention offers a great energy recovery from wastewater during the process of blow down. Accordingly, the invention controls the concentration of salt water into the boiler through an electronic control circuit. It has been working on an analysis of the measured signals for the concentrations of salts using an online conductivity measuring device. By comparing these signal points with reference that identified previously in order to represent the minimum and maximum concentrations. Upon arrival the total concentration of dissolved salts to the top limit, the control circuit generates a signal that activates the work of the boiler water solenoid valve and signal device to determine the discharge water flow rate control. Water boiler continue discharging until the concentration of dissolved salts reaches the minimum allowable concentration, where the control signal generating circuit to close the discharge solenoid valve. Sensor has been provided in the boiler room to control the height of water level inside the boiler. This sensor works through the waste water removal to generate a signal process to activate the work of feed water pump. This pump supplies the boiler water to compensate with waste water during the discharging process, and upon the arrival of the water level in the boiler to the specified level adjusted by the sensor to generate a signal to shut down feed water pump. The synchronization in activating the discharge valve to activate the work of feed water pump provided the possibility of retrieving the lost energy in the waste water through a heat exchanger. It has been work in a reverse flow direction to heat the cold feed water using high temperature blow down waste water. The innovative system of automatic control provides a simplified and accurate and less expensive way to control the discharge system in the steam boiler.