Erasmus ECTS Information Package
Erasmus ECTS Information Package
Erasmus ECTS Information Package
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<strong>Erasmus</strong> <strong>ECTS</strong> <strong>Information</strong> <strong>Package</strong><br />
Faculty of EEEA<br />
0242 Nuclear electronics<br />
<strong>ECTS</strong> credits: 3<br />
Weekly classes: 3lec + 0sem + 0labs + 1ps<br />
Assessment: exam<br />
Type of exam: written<br />
Methodology management: Department of Electronics<br />
Faculty of Electrical Engineering, Electronics and Automation<br />
Lecturers:<br />
Assoc. Prof. Valentin Yordanov Dimov, PhD, Department of Electronics, tel +359 82 888772<br />
E-mail: vdimov@ecs.uni-ruse.bg<br />
Abstract:<br />
The aim of the course is to acquaint the students with the instruments and methods for detecting and measuring<br />
the basic parameters of the nuclear radiation, so that they can acquire not only theoretical knowledge but also<br />
practical experience in using the corresponding equipments. The course considers the basic concepts of nuclear<br />
physics and the various types of detectors for ionizing radiation. Special attention is paid to the methods and<br />
devices for transforming, selecting and recording detector signals and to the data processing. Particular methods,<br />
instruments and systems are discussed, which find application in nuclear-physics researches, medicine, ecology,<br />
industry and agriculture. The prerequisite is knowledge of physics, semiconductor devices, analog devices, digital<br />
devices and as well other.<br />
Syllabus contents:<br />
Interaction of radiation with matter. Radiation effects in electronic materials, electronic devices and electronic<br />
circuits. Increase of the radiation constancy of electronic circuitries and devices. Nuclear detectors. Electronic<br />
blocks in nuclear devices. Nuclear spectrometers. Radioisotope devices. Devices for measurement of low levels of<br />
nuclear radiation. Electronic systems for control and maintenance of the processes in nuclear reactors. Radiation<br />
dosimetry for internal exposure and radiation protection.<br />
Technology of teaching:<br />
Classical pedagogic methods, multimedia and videos, and specialized software are used in the teaching process.<br />
The practical exercises follow the lectures and teach students to evaluate the basic parameters of the devices.<br />
The lectures are 3 hours per week and the laboratory exercises are 2 hours every other week. The practical<br />
exercises follow the lecture topics. The continuous assessment is held at the time for practice by oral examination,<br />
control and report defense. The continuous assessment during the exercises is done by oral discussions at the<br />
beginning of each exercise. Method of assessment: two hours written examination.<br />
0243 Electronic System for Environment Control<br />
<strong>ECTS</strong> credits: 3<br />
Weekly classes: 3l + 0s + 0lab + 1p<br />
Assessment: continuous assessment<br />
Type of exam: written<br />
Methodology management: Department of Electronic<br />
Faculty of Electrical Engineering, Electronics and Automation<br />
Lecturers:<br />
1. Assoc. Prof. Valentin Yordanov Dimov, PhD, Department of Electronics, phone: 888 772,<br />
E-mail: vdimov@ecs.uni-ruse.bg<br />
2. Assoc. Prof. Tsvetelina Dimitrova Draganova, PhD, Dept. of Automatics and Mechatronics,<br />
phone:888 668, E-mail: cgeorgieva@uni-ruse.bg<br />
Annotation:<br />
The aim of the course “Automatic Control System for Environment Parameters” is to give students knowledge of<br />
methods and electronic systems for control of air quality, natural and waste water and soil. Subjects relating to<br />
risk management in hazardous environments, caused by industrial accidents and information systems related to<br />
evaluation of the characteristics of different sources of risk and risk management in hazardous environments will<br />
be considered.<br />
Syllabus contents:<br />
Composition and properties of the atmospheric air. Emissions. Methods and devices for air quality monitoring.<br />
Electronic systems for air monitoring. Methods and devices for hydrophysical, hydrochemical and hidrobyological<br />
water indices monitoring. Electronic systems for control of organic matter, dissolved oxygen and density contents<br />
of the sediment. Electronic systems for control of soil parameters. Risk management in hazardous environments<br />
caused by industrial accidents.<br />
Teaching and learning methods:<br />
The subjects of the lectures introduce the main methods of quality air monitoring, natural and waste water<br />
monitoring, soil pollution monitoring, methods, devices and information systems for risk management in<br />
hazardous environments caused by industrial accidents. The exercises follow the lectures material. The students<br />
have to be ready for the exercises and after their finishing they have to prepare a report. The rating of this<br />
subject is formed from results of a written exam.<br />
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