Abstract
The purpose of the study is to analyze the prospects for the development of loading methods for gas turbines as well as to develop a mathematical model that adequately describes the real operating conditions of the loading system at various loads and rotation speeds. A comparative analysis of the most common methods and technical means of loading the shafts of a free turbine at gas turbine plants intended for operation as part of gas pumping units is presented. Based on the results of the analysis, the expediency of using the loading model “Free Power Turbine Rotor–Hydraulic Brake” as a load simulation is shown. Recommendations for the creation of an automation system for the load testing of power plants have been developed. Mathematical models and Hardware-in-the-Loop simulation models of power plants have been developed and tested. One of the most important factors that predetermine the effectiveness of the loading principle is the possibility of software implementation of the loading means using software control systems that provide the specified loading parameters of the gas turbine.
Funder
Ministry of Science and Higher Education of the Russian Federation
Subject
Management, Monitoring, Policy and Law,Renewable Energy, Sustainability and the Environment,Geography, Planning and Development
Reference33 articles.
1. Analysis of the Frequency Interaction of the Turbine Block in the Stand for the Magnitude of the Error in Measuring the Turbine’s Power
2. Spetsifika polunaturnogo modelirovaniya GTD s primeneniem mikro-EVM;Vinokur;Aviatsionnaya Promyshlennost,1985
3. Synthesis of an optimum digital thyristor motor control for a test rig;Vinokur;Electron. Model.,1992
4. A Review on Gas Turbine Gas-Path Diagnostics: State-of-the-Art Methods, Challenges and Opportunities
5. Modern Gas Turbine Systems: High Efficiency, Low Emission, Fuel Flexible Power Generation;Jansohn,2013
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