Combined cycle plants: Yesterday, today, and tomorrow (review)
Autor: | G. G. Ol’khovskii |
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Rok vydání: | 2016 |
Předmět: |
Engineering
Rankine cycle business.industry Combined cycle Boiler (power generation) Energy Engineering and Power Technology Mechanical engineering Thermal power station 02 engineering and technology Steam-electric power station 021001 nanoscience & nanotechnology 01 natural sciences 010305 fluids & plasmas law.invention Nuclear Energy and Engineering Heat recovery steam generator law Thermodynamic cycle 0103 physical sciences Water cooling 0210 nano-technology business Process engineering |
Zdroj: | Thermal Engineering. 63:488-494 |
ISSN: | 1555-6301 0040-6015 |
DOI: | 10.1134/s0040601516070041 |
Popis: | Gas turbine plants (GTP) for a long time have been developed by means of increasing the initial gas temperature and improvement of the turbo-machines aerodynamics and the efficiency of the critical components air cooling within the framework of a simple thermodynamic cycle. The application of watercooling systems that were used in experimental turbines and studied approximately 50 years ago revealed the fundamental difficulties that prevented the practical implementation of such systems in the industrial GTPs. The steam cooling researches have developed more substantially. The 300 MW power GTPs with a closedloop steam cooling, connected in parallel with the intermediate steam heating line in the steam cycle of the combined cycle plant (CCP) have been built, tested, and put into operation. The designs and cycle arrangements of such GTPs and entire combined cycle steam plants have become substantially more complicated without significant economic benefits. As a result, the steam cooling of gas turbines has not become widespread. The cycles—complicated by the intermediate air cooling under compression and reheat of the combustion products under expansion and their heat recovery to raise the combustion chamber entry temperature of the air—were used, in particular, in the domestic power GTPs with a moderate (700–800°C) initial gas turbine entry temperature. At the temperatures being reached to date (1300–1450°C), only one company, Alstom, applies in their 240–300 MW GTPs the recycled fuel cycle under expansion of gases in the turbine. Although these GTPs are reliable, there are no significant advantages in terms of their economy. To make a forecast of the further improvement of power GTPs, a brief review and assessment of the water cooling and steam cooling of hot components and complication of the GTP cycle by the recycling of fuel under expansion of gases in the turbine has been made. It is quite likely in the long term to reach the efficiency for the traditional GTPs of approximately 43% and 63% for PGUs at the initial gas temperature of 1600°C and less likely to increase the efficiency of these plants up to 45% and 65% by increasing the gas temperature up to 1700°C or by application of the steam cooling in the recycled fuel cycle. |
Databáze: | OpenAIRE |
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