Khokhlov Vladimir

Professor

Date and place of birth: 01.06.1976, Tashkent, Uzbekistan

Nationality: Uzbek

Education: High

Academic degree: Doctor of Technical Sciences

Academic rank: Professor

E-mail: hohlov.vladimir@mail.ru

Phone: +998 71 2740400

Education

March, 2009 – December, 2006 Received the degree of Doctor in technics. Dissertation subject “Power Saving Operating Modes of Pumps and Pumping Stations with Long Pipelines”.

January, 2004 – December, 2006 Tashkent State Technical University, Tashkent, Uzbekistan. Major: Power systems and complexes, doctor of science degree study.

February, 2002 – Received the degree of PhD. Dissertation subject “Improvement of Drainage Water Pumping from the Buildings of Hydropower Sets”.

September, 1998 – September, 2001 Tashkent State Technical University, Tashkent, Uzbekistan. Major: Hydro-technical and meliorative building, post-graduate study.

September, 1993 – June, 1998  Tashkent Institute of Irrigation and Mechanization of Agriculture, Tashkent, Uzbekistan. Major: Water economic building, Engineer in hydro-technics.

 

Work experience

July 2011 – present  Turin Polytechnic University in Tashkent Department of applied science, Professor on Fluid mechanics and Hydraulics for the third academic level and for masters. Activities include lecturing, practice and laboratory training. Also teacher in LLL courses on Hydraulics and Pneumatics.

September 2009 – June 2011 The Branch of Russian State University of oil and gas in Tashkent, Professor

September 1999 – June 2009 Tashkent State technical University, Professor’s assistant, docent

June 1992 – present Research-and-production enterprise “Vodopodyomnik” (“Water lifting”). Engineer, research assistant, director assistant in science

 

Honours, Awards, Fellowships, Membership of Professional Societies

June 15, 2015 – June 23, 2015 Got the courses on TEMPUS “Hydraulic Control Lab” and “Robotics Lab” in the Johannes Kepler University, Linz, Austria

May 26, 2014 – May 31, 2014 Got the retraining on TEMPUS Technical Education on Resource Savings for Industrial Development in the Politecnico di Torino, Turin, Italia

April 30, 2011 – May 28, 2011 Got training on FESTO MECHATRONICS in the Kaunas Technological University, Kaunas, Lithuania

October 19, 2009 –October 31, 2009 Got training on NEW TECHNOLOGIES IN OIL AND GAS STUDY in Russian State University of oil and gas named after Gubkin, Moscow, Russia

 

Research interests and past projects

Activities include researches, invention and application of new techniques in the field of pumping stations and hydropower stations.

 

List of publications

1. Vladimir Khokhlov, Aleksandr Khokhlov, Janna Titova.Handbook of Research on Renewable Energy and Electric Resources for Sustainable Rural Development. Chapter 8 Energy Saving and Safe Operating Modes of the Large Irrigative Pumping Stations / January, 2018|Pages: 176-203. ISBN13: 9781522538677|ISBN10: 1522538674| EISBN13: 9781522538684|DOI: 10.4018/978-1-5225-3867-7. Copyright: © IGI Global, USAhttps://www.igi-global.com/book/handbook-research-renewable-energy-electric/181763

2. Аллаев К.Р., Хохлов В.А., Титова Ж.О. Регулирование режимов работы насосных станций. Учебное пособие. Ташкент:, «Fanvatexnologiya», 2018, 180с.

3. Хохлов А.В., Хохлов В.А., Титова Ж.О. Внедрение альтернативной система откачки и автоматического контроля дренажного оборудования на гидроэлектростанциях Узбекистана // Журнал «Гидротехническое строительство», Москва, 2018. – № 2 – С. 40-45.

4. Хохлов В.А., Курбонов А. Технико-экономические аспекты строительства малых ГЭС на гидротехнических со¬оружениях мелиоративных насосных станций// Журнал «Сельское хозяйство Узбекистана», Ташкент, 2018. – № 3 – С. 40-41.

5. Хохлов В.А., Сафаров Б. Повышение эффективности крупных насосных станций при неустановившихся электромеханических и гидромеханических режимах / В сб. респ. конф. «Современные проблемы возобновляемой энергетики» / Карши, 2018. –С. 364-367.

6. Хохлов А.В., Хохлов В.А., Титова Ж.О. Управление оборудованием насосных станций для эффективного предотвращения гидравлического удара / В сб. междунар. конф. «Повышение эффективности, надежности и безопасности гидротехнических сооружений» / Ташкент, 2018. –С. 394-400.