M Dragan Svrkota scite author profile

M Dragan Svrkota

2Publications

19Citation Statements Received

13Citation Statements Given

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Institute for Hydraulic Research

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Pumps used as turbines power recovery, energy efficiency, CFD analysis

et al. 2014

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As the global demand for energy grows, numerous studies in the field of energy efficiency are stimulated, and one of them is certainly the use of pumps in turbine operating mode. In order to reduce time necessary to determine pump characteristic in turbine operating mode problem was studied by computational fluid dynamics approach. The paper describes various problems faced during modeling (pump and turbine mode) and the approaches used to resolve the problems. Since in the majority of applications, the turbine is a pump running in reverse, many attempts have been made to predict the turbine performance from the known pump performance, but only for best efficiency point. This approach does not provide reliable data for the design of the system with maximum energy efficiency and does not allow the determination of the head for a wide range of flow rates. This paper presents an example of centrifugal norm pump operating in both (pump and turbine) regime and comparison of experimentally obtained results and computational fluid dynamics simulations. Key words: pump used as a turbine, computational fluid dynamics analysis, BUTU method, energy efficiency Bogdanovi}-Jovanovi}, J. B., et al.: Pumps Used as Turbines -Power Recovery, .

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Performance of low-pressure fans operating with hot air

et al. 2016

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Performance characteristics of fans are generally provided for the normal temperature and pressure conditions (t I = 20 °C, p I = 101.325 kPa, ρ I = 1.2 kg/m 3). Very often, fans operate in different air conditions, occasionally at different air temperatures. In these cases, equations obtained by the law of similarity are usually used for recalculation of the fan operating parameters. Increasing the inlet air temperature causes a decrease in the characteristic of Reynolds number, and may lead to efficiency lowering of the fan. There are also some empirical formulas for recalculation of fan efficiency, when operating at different air temperatures. In this paper, the common way for obtaining fan performance for different operating conditions (air temperature changing) is presented. The results, obtained by recalculation of fan parameters using a law of similarity, are compared to numerical simulation results of the axial-flow fan operating with different air temperatures. These results are compared with results obtained by some recommended empirical formulas, as well. This paperwork is limited to low-pressure and mid-pressure fans, which represents the majority of all fans used in practice, for different purposes.

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M Dragan Svrkota

Pumps used as turbines power recovery, energy efficiency, CFD analysis

Performance of low-pressure fans operating with hot air

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