Department of Power Engineering and Electrical Engineering

Major subject: Nonconventional power sources

Brief annotation of the major subject:

Students study resource and energy consumption, nontraditional and renewed sources of energy and devices; design and calculation of wind turbine, wind instruments, solar collectors, photoelectric converters, heat pumps, metantenkov, gas generators, electrical devices of promelectroniks, automatic control and regulation systems, etc.

 

BACHELOR'S degree

4 years of training

Natural sciences disciplines

Higher mathematics
Chemistry Descriptive geometry, engineering and computer graphics Bases of ecology
Physics
Bases of information technologies and programming

Vocational practical disciplines

Materials science and technology of materials
Theoretical mechanics
Metrology and standardization
Materials strength
Electrical engineering and electronics
Mathematical methods and models used in combruter calculations
Technical thermodynamics
Gas hydrodynamics
Bases of designing
Life safety measures
Heat and mass exchange
Thermo-technical measurements and instruments
Bases of nonconventional power engineering
Nonconventional power sources
Energy accumulation
Theory of nonconventional power units
Electrical equipment of power units
Automatic control of power units
Theory of electrical, thermal and hydraulic networks
Bases of theory of power units reliability
Devices of industrial electronics of nontraditional power units
Design and calculations of wind turbines
Regulators of solar and thermal nontraditional power units
Mathematical and physical simulation of nontraditional power units
Design and calculation of solar nontraditional power units
Information-control systems and nontraditional power units complexes
Design and calculation of thermal nonconventional power units
Electrical stations using nonconventional power sources
 

SPECIALIST'S degree

1 year of training

Norm discipline

Disciplines for special study

Tuning and testing of solar and nonconventional thermal power units
Tuning and testing of wind nonconventional power units
Composite materials in power engineering

Optional disciplines

Design and construction of wind power units
Integrated computer technologies of nonconventional power units designing
Manufacturing engineering of nonconventional power units
Structure and strength of solar and thermal nontraditional power units
Ecology and anthropogenic effect on nontraditional power units environment
Pre-graduate course
 

MASTER'S degree

1 year of training

Norm discipline

Disciplines for special study

Psychological and pedagogical bases of teaching activity
Bases of technical creativity and research work
System modeling in power engineering
Updated mathematical apparatus in power engineering

Optional disciplines

Design and construction of wind power units
Integrated computer technologies of nonconventional power units designing
Manufacturing engineering of nonconventional power units
Construction and strength of solar and thermal nontraditional power units
Ecology and anthropogenic effect on nontraditional power units environment
Pre-graduate course
 

PhD degree

3 years of training

Major subjects
  1. Conversion of renewable energy forms
  2. Electrical machines and apparatuses
  3. Energy converters control systems used for renewable energy sources

Leading instructors:

Yakovlev Alexander Ivanovich – Professor, D. Sc.

Main published works:
  1. Яковлев А.И., Затучная М.А. Рабочие и регулировочные характеристики ветротурбин пропеллерного типа / Авиационно-космическая техника и технология. Сб.науч.трудов.-Вып.8.-Харьков:Гос.аэрокосмический ун-т “Харьк.авиац.институт”,1999.-стр.39-43.
    2.

    Operation and regulation characteristics of propeller type wind turbines.
  2. Яковлев А.И., Затучная М.А., Масси Р.Ч., Пашков В.Н. Бесконтактный синхронный генератор малой мощности для ветроэлектрической установки. /Авиационно-космическая техника и технология. Сб.науч.трудов.-Вып.-Харьков:Гос.аэрокосмический ун-т “Харьк.авиац.институт”,1999.-стр.56-61.
    3.

    Noncontact synchronous small power generator for wind-driven electric device.
  3. Яковлев А.И., ММасси Р.Ч., Бояркин А.А. Автоматическое регулирование возбуждения низкооборотного индукторного генератора для ветроэлектрической установки. / Авиационно-космическая техника и технология. Сб.науч.трудов.-Вып.-Харьков:Гос.аэрокосмический ун-т “Харьк.авиац.институт”,-стр.237-241.
    4.  Automated control of low-turn induction generator excitation used in wind-driven electric device.

     

Panachevny Boris Ivanovich – Professor, D. Sc.

Main published works:
  1. Б.И. Паначевный. Курс электротехники. Учебник для студентов механических специальностей высших учебных заведений.-Харьков: Торсинг, Ростов-на-Дону: Феникс,2002-288с.

    2. Electrical engineering course.

  2. Б.І. Паначевний, Ю.Ф. Свергун. Загальна электротехніка: теорія і практикум, Рекомендовано Міністерством освіти і науки України як навчальний посібник для студентів вищих навчальних закладів./К.:Каравела, 2003.-440с.

    3. General electrical engineering: theory and practical study.
  3. Б.И. Паначевный, Г.А. Степанова, А.И. Яковлев Емкостное возбуждение автономного асинхронного генератора /Новини Енергетики, 2002. №3, стр.52-54.

    4. Capacitive excitation of autonomous asynchronous generator.
 

Galitsyn Eduard Andreyevich – Associate Professor, Cand. Sc.

Main published works:
  1. Э.А. Галицин, Б.І. Паначевний. Нетрадиційні джерела енергії. Навчальний посібник по організації, виконанню і оформленню курсового та дипломного проекту, випускних робіт бакалавра і магістра. /Харків, ХАІ, 2003, 46с.

    2. Nontraditional energy sources.

  2. Э.А. Галицын Электрические станции с нетрадиционными источниками энергии/Конспект лекций. – Харьков: Национальный аэрокосмический университет “ХАИ”, -2003. -100с.

    3. Power stations using nontraditional energy sources.

  3. Э.А. Галицын Преобразование энергии газотурбинных установок и нетрадиционных источников в электрическую энергию. – Учебное пособие по курсовому и дипломному проектированию. –Харьков: Национальный аэрокосмический университет “ХАИ”, 2002.-86с.

Conversion of gas-turbine units and nonconventional power sources into electrical one.