Tytuł artykułu
Treść / Zawartość
Pełne teksty:
Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
In course of over half a century the test teams of the Szewalski Institute of Fluid-Flow Machinery (IMP PAN) have conducted numerous performance tests of small hydropower (SHP) installations on various occasions and motivations, including updating or establishing performance characteristics of old machines, acceptance of new units, checking or optimising the cam correlation of new or refurbished double-regulated turbines, checking performance of prototype turbines under field conditions. The discharge measurement techniques have included currentmeter, pressure-time and acoustic methods. Index tests, using the Winter-Kennedy and other differential pressure methods, as well as current-meter and acoustic techniques, have been employed quite frequently to optimise the cam curves of double-regulated machines. In one case a simplified technique based solely on the power/wicket gate opening relationship was checked. This paper discusses some techniques applied when determining the absolute efficiency and optimizing cam correlations by means of absolute and index test methods. Cubic spline formulae as applied to integrate the flow velocity field in a hydrometric section are derived. Results of a discharge measurement by means of the current-meter and pressure-time method are compared as a special case study. Finally, practical recommendations addressed both to the power plant owners and the test team members are formulated.
Rocznik
Tom
Strony
3--29
Opis fizyczny
Bibliogr. 31 poz., rys., tab.
Twórcy
autor
- The Szewalski Institute of Fluid-Flow Machinery of the Polish Academy of Sciences Fiszera 14, 80-231 Gdansk, Poland
autor
- The Szewalski Institute of Fluid-Flow Machinery of the Polish Academy of Sciences Fiszera 14, 80-231 Gdansk, Poland
autor
- The Szewalski Institute of Fluid-Flow Machinery of the Polish Academy of Sciences Fiszera 14, 80-231 Gdansk, Poland
autor
- The Szewalski Institute of Fluid-Flow Machinery of the Polish Academy of Sciences Fiszera 14, 80-231 Gdansk, Poland
autor
- ZRE Gdansk S.A., Litewska 14A, 80-719 Gdansk, Poland
autor
- The Szewalski Institute of Fluid-Flow Machinery of the Polish Academy of Sciences Fiszera 14, 80-231 Gdansk, Poland
Bibliografia
- [1] Adamkowski A., Steller J.: Performance and diagnostic tests on hydraulic gensets in Polish hydropower plants. Transactions IFFM 105(1999), 47–66.
- [2] Small and Micro Hydropower Restoration Handbook. ESHA, Brussels 2014.
- [3] IEC 62006:2009: Hydraulic machines – acceptance tests of small hydroelectric installations.
- [4] Giasecke J., Mosonyi E.: Hydropower Plants. Planning, Erection and Operation. Springer-Verlag, Berlin/ Heidelberg/New York 1998 (in German).
- [5] IEC 60041: Field acceptance tests to determine the hydraulic performance of hydraulic turbines, storage pumps and pump turbines. 1991.
- [6] Steller J.: Report on hydraulic unit tests in Laczany hydropower plant. IMP PAN Rep. 7292/2007 (in Polish).
- [7] Ott L.A.: Hydraulic Measurements in Water Power Plants. Wasserkraft- Jahrbuch 1924, 253–282 (in German).
- [8] Troskolanski A.T.: Hydrometry. Pergamon Press/PWN, Warsaw 1960.
- [9] VDI/VDE 2640: Network measurements in flow cross-sections (in German). Sheet 1: General guidelines and mathematical basics, 1993. Sheet 2: Measurement of water flow in closed conduits, Velocity-area method, 1981.
- [10] ISO 3354:2008 (E): Measurement of clean water flow in closed conduits. Velocity-area method using current-meters in full conduits and under regular flow conditions.
- [11] ISO 748:1997: Measurement of liquid flow in open channels. Velocity-area methods.
- [12] Spielbauer M., Faiß W., Müller O.: Numerical integration method for evaluation of the current-meter measurements. Die Wasserwirtschaft 11(1969), 313–320 (in German).
- [13] Leutloff S., GeromillerW., Fischer G.: Numerical evaluation of current-meter measurements in circular cross-sections. Elektrizitätswirtschaft 82(1983), 5, 139–144 (in German).
- [14] Berny R., Slota R.: HYDRO 11 – integrated system for hydrometric data processing and discharge evaluation in open channels and closed conduits. HYDROFORUM’2000, Hydraulic turbomachines in hydropower and other industrial applications, IMP PAN Publishers, Gdansk/Czorsztyn, Sept. 2000, 247–274.
- [15] Steller J., Janicki W., Wasilewski J.: Data acquisition and processing during discharge measurement by means of the current-meter method. Ibid., 275–298 (in Polish).
- [16] Press W.H., Flannery B.P., Teukolsky S.A., Vetterling W.T.: Numerical Recipes in Pascal . The Art of Scientific Computing. Cambridge University Press, 1989.
- [17] Yamaguchi F.: Curves and Surfaces in Computer Aided Geometric Design. Springer-Verlag, Berlin 1988.
- [18] Adamkowski A., Krzemianowski Z.: The comparative analysis of the currentmeter method and the pressure-time method used for discharge measurements in the Kaplan turbine penstocks. Institute of Physics Conference Series: Earth and Environmental Science (15). In: Proc. 26th IAHR Symp. on Hydraulic Machinery and Systems, Beijing, 19–23.08.2012, 1–9.
- [19] Truckenbrodt E.: Fluid Mechanics. Fundamentals and Technical Applications. Springer-Verlag, Berlin/Heidelberg 1968 (in German).
- [20] Gibson N.R.: The Gibson method and apparatus for measuring the flow of water in closed conduits. ASME Power Division, 1923, 343–392.
- [21] Adamkowski A., Kubiak J., Sierra Fernando Z., Urquiza G., Janicki W., Fernández J.M.: An innovative approach to applying the pressure-time method to measure flow. HRW (Hydraulic Review Worldwide) 16(2008), 6, 40–49.
- [22] Adamkowski A.: Discharge measurement techniques in hydropower systems with emphasis on the pressure-time method. In: Hydropower – Practice and Application (H. Samadi-Boroujeni, Ed.). InTech, Rijeka 2012, 83–114; DOI: 10.5772/1798.
- [23] Adamkowski A., Janicki W., Lewandowski M., Steller J.: Guarantee measurements of Kaplan turbine no. 2 in Zur Hydropower Plant. Final Report. IMP PAN Rep. 308/08 (in Polish).
- [24] Steller J., Adamkowski A., Janicki W., Kiełbasa W., Gruber P., Treichler H., Wójcik J.: Discharge measurement by means of the pressure-time and the 8-path acoustic method in Niedzica HPP pressure tunnels. HYDRO 2008, Ljubljana, Oct. 6–8, 2008, Papers, Aqua Media International Ltd 2008, Paper 4.02, 11.
- [25] Reymann Z.: Performance properties of standardised propeller turbines basing on the prototype tests in Rus hydropower plant. IMP PAN Rep. 324/94 (in Polish).
- [26] Llobet J.V., Lemon D.D., Buermans J., Billenness D.: Union Fenosa Generación’s field experience with acoustic scintillation flow measurement. , In: Proc. 7th Int. Conf. on Hydraulic Efficiency Measurements IGHEM 2008, Milan 2008.
- [27] Stteller K.: On the dependence between the flow rate through a water turbine and the pressure drop in the spiral casing of circular cross-section. Transactions IFFM 25(1965), 31–63 (in Polish).
- [28] Steller J., Janicki W.: Report on hydraulic unit performance tests in Owidz hydropower plant. IMP PAN Rep. 7132/2007 (in Polish).
- [29] Steller J., Henke A.: Report on simplified hydraulic unit tests in Owidz hydropower plant when operated at Hbrutto2 = 3.50 m gross head. IMP PAN Rep. 7145/2007 (in Polish).
- [30] Steller J.: Report on performance tests of hydraulic units in Niedalino hydropower plant. IMP PAN Rep. 319/2009 (in Polish).
- [31] Jackowski K.: Hydropower plants. Generating sets and equipment. Wydawnictwa Naukowo-Techniczne, Warsaw 1971 (in Polish).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-f81d16ac-21e0-4db4-9f44-3f5fef3e95b2