The active working shoot modeling profile of the centrifugal microturbine

The active working shoot modeling profile of the centrifugal microturbine

For the small distributed power, microturbines of electric 30-500 kW capacity are used: gas piston engines, gas and steam turbines, each of which has certain advantages and disadvantages. In the work, the active working blade profile is simulated for a single-stage, two-stream, centripetal microturb...

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Main Authors: Efimov Nikolai N., Skubienko Sergei V., Kopitsa Vadim V., Kolodyazhny Igor Y., Anisimov Evgeny A., Ermakov Ivan I.
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:MATEC Web of Conferences
Online Access:https://doi.org/10.1051/matecconf/201822601009
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spelling doaj-7d5356f42a7748d3a1b5d2f218de84022021-03-02T09:47:38ZengEDP SciencesMATEC Web of Conferences2261-236X2018-01-012260100910.1051/matecconf/201822601009matecconf_dts2018_01009The active working shoot modeling profile of the centrifugal microturbineEfimov Nikolai N.0Skubienko Sergei V.1Kopitsa Vadim V.2Kolodyazhny Igor Y.3Anisimov Evgeny A.4Ermakov Ivan I.5South-Russian State Polytechnic University (Novocherkassk Polytechnic Institute) M.I. PlatovaSouth-Russian State Polytechnic University (Novocherkassk Polytechnic Institute) M.I. PlatovaSouth-Russian State Polytechnic University (Novocherkassk Polytechnic Institute) M.I. PlatovaSouth-Russian State Polytechnic University (Novocherkassk Polytechnic Institute) M.I. PlatovaSouth-Russian State Polytechnic University (Novocherkassk Polytechnic Institute) M.I. PlatovaKuban State UniversityFor the small distributed power, microturbines of electric 30-500 kW capacity are used: gas piston engines, gas and steam turbines, each of which has certain advantages and disadvantages. In the work, the active working blade profile is simulated for a single-stage, two-stream, centripetal microturbine, in order to determine the optimum profile design satisfying the reliability conditions and economy. The basis is a humidsteam microturbine of a horizontal electric version with a capacity of 30 kW. The initial data for software simulation were the microturbineactive stage characteristics, determined by the steam turbines calculation traditional methods.https://doi.org/10.1051/matecconf/201822601009
collection DOAJ
language English
format Article
sources DOAJ
author Efimov Nikolai N.
Skubienko Sergei V.
Kopitsa Vadim V.
Kolodyazhny Igor Y.
Anisimov Evgeny A.
Ermakov Ivan I.
spellingShingle Efimov Nikolai N.
Skubienko Sergei V.
Kopitsa Vadim V.
Kolodyazhny Igor Y.
Anisimov Evgeny A.
Ermakov Ivan I.
The active working shoot modeling profile of the centrifugal microturbine
MATEC Web of Conferences
author_facet Efimov Nikolai N.
Skubienko Sergei V.
Kopitsa Vadim V.
Kolodyazhny Igor Y.
Anisimov Evgeny A.
Ermakov Ivan I.
author_sort Efimov Nikolai N.
title The active working shoot modeling profile of the centrifugal microturbine
title_short The active working shoot modeling profile of the centrifugal microturbine
title_full The active working shoot modeling profile of the centrifugal microturbine
title_fullStr The active working shoot modeling profile of the centrifugal microturbine
title_full_unstemmed The active working shoot modeling profile of the centrifugal microturbine
title_sort active working shoot modeling profile of the centrifugal microturbine
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2018-01-01
description For the small distributed power, microturbines of electric 30-500 kW capacity are used: gas piston engines, gas and steam turbines, each of which has certain advantages and disadvantages. In the work, the active working blade profile is simulated for a single-stage, two-stream, centripetal microturbine, in order to determine the optimum profile design satisfying the reliability conditions and economy. The basis is a humidsteam microturbine of a horizontal electric version with a capacity of 30 kW. The initial data for software simulation were the microturbineactive stage characteristics, determined by the steam turbines calculation traditional methods.
url https://doi.org/10.1051/matecconf/201822601009
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