Project detail

Design of hydraulic sources for energy recuperation

Duration: 10.01.2018 — 31.12.2020

Funding resources

Ministerstvo školství, mládeže a tělovýchovy ČR - INTER-EXCELLENCE - Podprogram INTER-ACTION

- whole funder (2018-01-10 - 2020-12-31)

On the project

Description in English
The main goal is creation of an excelent international research team, able to solve the contemporary challenges in energetics. This is in accordance with the INTER-ACTION programme. The research will be aimed at obtaining new knowledges and technologies and their application in the field of high-efficiency heat and electricity sources, based on hydro-electric recuperation of themal and pressure energy. Research goals: - Cavitation pyhiscs and suppresion of cavitation-erosion effects - Improved methodology for hydraulic design of reverse pump-turbines - Creation of a model of an improved pump-turbine - Testing and evaluation of the thermodynamic properties of the model - Practical solution of an efficient cogeneration system - Numerical and experimental evaluation of the model and the cogeneration system.

Key words in English
Energy savings, energy recuperation, renewable sources, hydraulic design, surface coating, CFD

Mark

LTARF18019

Default language

Czech

People responsible

Pochylý František, prof. Ing., CSc. - principal person responsible

Units

Energy Institute
- (2017-08-10 - not assigned)
Victor Kaplan Dept. of Fluid Engineering
- (2018-01-10 - 2020-12-31)

Results

Volkov A.V., Ryzhenko A.V., Vikhlyantsev A.A., Druzhinin A.A., Cherepanov S.P., Šoukal J., Sedlař M., Komarek M, Pochylý F, Rudolf P, Fialová S. The Influence of Wetting of Flow Passage Surfaces in Pumps-as-Turbines on Their Energetic Characteristics. International Journal of Engineering Trends and Technology, 2020, vol. 68, no. 11, p. 16-24. ISSN: 2231-5381.
Detail

RENZI, M., RUDOLF, P., ŠTEFAN, D., NIGRO, A., ROSSI, M. Installation of an axial Pump-as-Turbine (PaT) in a wastewater sewer of an oil refinery: A case study. APPLIED ENERGY, 2019, vol. 250, no. 0, p. 1-12. ISSN: 0306-2619.
Detail

VOLKOV, A. V., RYZHENKOV, A. V., PARYGIN, A. G., NAUMOV, A. V., DRUZHININ, A. A., VIKHLYANTSEV, A. A., ŠOUKAL, J., SEDLAŘ, M., KOMÁREK, M., POCHYLÝ, F., RUDOLF, P., FIALOVÁ, S. Matters Concerned with Development of Autonomous Cogeneration Energy Complexes on the Basis of Microhydropower Plants. Thermal Engineering (English translation of Teploenergetika), 2018, vol. 65, no. 11, p. 799-806. ISSN: 0040-6015.
Detail

DRUZHININ, A. A., ORLOV, E. S., VOLKOV, A. V., PARYGIN, A. G., NAUMOV, A. V., RYZHENKOV, A. V., VIKHLYANTSEV, A. A., ŠOUKAL, J., SEDLAŘ, M., KOMÁREK, M., POCHYLÝ, F., RUDOLF, P., FIALOVÁ, S. Enhancing the Efficiency of Small-Scale and Microhydroturbines Using Nature-Imitation Technologies for the Development of Autonomous Energy Sources. Thermal Engineering (English translation of Teploenergetika), 2019, vol. 66, no. 12, p. 944-953. ISSN: 0040-6015.
Detail

VOLKOV, A.; RYZHENKOV, A.; DRUZHININ, A.; VIKHLYANTSEV, A.; ORAKHELASHVILI, B.; BAIKOV, V.; ŠOUKAL, J.; SEDLÁŘ, M.; KOMÁREK, M.; POCHYLÝ, F.; RUDOLF, P.; FIALOVÁ, S. Application of New Approaches to the Hydropower Combined Complex Creation for Autonomous Energy Supply. In E3S Web of Conferences. EDP Sciences, 2021. ISBN: 9782759821969.
Detail

RENZI, M., RUDOLF, P., ŠTEFAN, D., NIGRO, A., ROSSI, M. Energy recovery in oil refineries through the installation of axial Pumps-as-Turbines (PaTs) in a wastewater sewer: a case study. In Energy Procedia - Innovative Solutions for Energy Transitions. Energy Procedia. AMSTERDAM: ELSEVIER SCIENCE BV, 2019. p. 135-141. ISSN: 1876-6102.
Detail

VIKHLYANTSEV, A. A.; VOLKOV, A. V.; RYZHENKOV, A. V.; DRUZHININ, A. A.; ŠOUKAL, J.; SEDLÁŘ, M.; KOMÁREK, M.; POCHYLÝ, F.; RUDOLF, P.; FIALOVÁ, S. Increasing Efficiency for MicroHPP Hydroturbines Operating under Variable Head Pressure Using an Aperiodic Blade System. Thermal Engineering (English translation of Teploenergetika), 2020, vol. 67, no. 12, p. 922-930. ISSN: 0040-6015.
Detail

POCHYLÝ, F.; FIALOVÁ, S.; JANDOUREK, P.; Vysoké učení technické v Brně, Brno, Veveří, CZ: Multifunkční vodojem. 308560, patent. (2020)
Detail

POCHYLÝ, F.; FIALOVÁ, S.; JANDOUREK, P.; Vysoké učení technické v Brně, Brno, Veveří, CZ: Multifunkční vodojem. 33644, užitný vzor. (2020)
Detail

Responsibility: Pochylý František, prof. Ing., CSc.