Method for estimating basic parameters of mixed-flow type water turbine

A basic parameter and technology of water turbines, applied in the field of water turbines, can solve problems such as different results, inability to select correctly, unsatisfactory results, etc.

Active Publication Date: 2017-09-12
POWERCHINA CHENGDU ENG
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  • Abstract
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Problems solved by technology

Because this method is to estimate the basic parameters of the turbine according to the statistical formula, there are many such statistical formulas at present, because the sample data of the turbine parameters on which each statistical formula is based is before the 1970s and 1980s or at a certain water head section or For a certain output range, there are certain limitations. The results calculated by different statistical formulas for the same hydrop

Method used

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  • Method for estimating basic parameters of mixed-flow type water turbine
  • Method for estimating basic parameters of mixed-flow type water turbine
  • Method for estimating basic parameters of mixed-flow type water turbine

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Embodiment Construction

[0027] Below by embodiment the present invention is further illustrated.

[0028] Statistical formulas of basic parameters of Francis turbines commonly used at present mainly include ① ② ③n 11 =50+0.11n s , ④ ⑤Q 11 =0.1134(n s / (50+0.11n s ))2 , ⑥ Below formula (1)~(12) of the present invention and commonly used statistical formula ①~⑥ are applied in the sample data, obtain the error of each formula calculation result and true value, table 1~table 5 are wherein several groups of sample data and their Comparing the calculation errors.

[0029] Table 1 Several sets of sample data (real parameters of the turbine)

[0030]

[0031] Table 2 formula of the present invention compares with the statistical formula calculation error commonly used at present (H max ≤100m)

[0032]

[0033] Table 3 formula of the present invention compares (100mmax ≤200m)

[0034]

[0035] Table 4 formula of the present invention compares (200mmax ≤300m)

[0036]

[0037]

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Abstract

The invention relates to a water turbine, provides a method for estimating basic parameters of a mixed-flow type water turbine, and aims to estimate the basic parameters of the mixed-flow type water turbine. The basic parameters to be estimated of the water turbine comprise a specific speed ns, a unit speed n11 and unit flow Q11. The method comprises the following steps: determining the specific speed of the mixed-flow type water turbine to be estimated, and recording the specific speed as ns; determining the maximum application water head of the mixed-flow type water turbine to be estimated, recording the maximum application water head as Hmax, and judging a range where the Hmax falls; estimating the basic parameters according to estimation formulas of the corresponding ranges of Hmax, wherein the formulas are as follows: when Hmax is less than or equal to 100 m, ns=374.05e<-0.0053Hr>, n11=45.395e<0.0022ns> and Q11=5.9 x 10<-3> x ns<0.9516>; when Hmax is greater than 100 m and less than or equal to 200 m, ns=2191.5Hr<-0.5007>, n11=48.289e<0.002ns> and Q11=1.0642Ln(ns)-4.7812; when Hmax is greater than 200 m and less than or equal to 300 m, ns=343.12e<-0.0042Hr>, n11=1.2874ns<0.7878> and Q11=0.7821Ln(ns)-3.3718; when Hmax is greater than 300 m, ns=3609.2Hr<-0.6189>,n11=37.207ns<0.1186> and Q11=0.3652Ln(ns)-1.4009. The method is applicable to the mixed-flow type water turbine and can better meet new hydropower engineering requirements.

Description

technical field [0001] The invention relates to water turbines, in particular to a method for estimating basic parameters of Francis water turbines. Background technique [0002] A hydro turbine is a machine in a hydropower station that converts the mechanical energy of the water flow into the mechanical energy of the runner, so that the runner and the main shaft can run continuously against various resistances. It is called the "heart" of the hydropower station. The initial investment and the economic benefit of the power plant after it is put into operation play a very important role and are an important content of hydropower engineering design. [0003] Turbine specific speed n s It is a comprehensive index to measure the energy characteristics, cavitation characteristics, operation stability, economy and advanced nature of the turbine. Increasing the specific speed is of great significance to improve the energy characteristics of the turbine, reduce the cost of the uni...

Claims

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Application Information

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IPC IPC(8): G06F17/50G06F17/18
CPCG06F17/18G06F30/17
Inventor 董宏成蒋登云田迅孙文彬刘丁王辉
Owner POWERCHINA CHENGDU ENG
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