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Dwadzieścia lat pierwszego bloku gazowo-parowego w Polsce i co dalej?

Buraczewski J., Badur J., Ziółkowski P., Kowalczyk T., Bryk M.

Energetyka

2018

nr 11

609--611

Autorzy zaprezentowali zarówno dane eksploatacyjne jak i studia literaturowe związane z pierwszym blokiem gazowo-parowym, który został zbudowany w Polsce. Ze względu na swoją specyfikę pracy, a mianowicie dwa typy paliw oraz różne reżimy pracy najpierw jako blok ciepłowniczy, a obecnie jako blok kondensacyjny – przechodził on istotne modernizacje i remonty co stanowi bogatą bazę doświadczeń. Mimo długiego czasu pracy turbiny gazowej i kotła odzyskowego nadal może on stanowić istotne źródło mocy w Polskim Systemie Energetycznym odpowiadając błyskawicznie na potrzeby Rynku Mocy.

The authors presented both operational data and literature studies related to the first combined cycle gas turbine, which was built in Poland twenty years ago. Due to it specificity of work, namely two types of fuels and different work regimes first as a combined heat and power block, and now as a condensation block – it undergone significant retrofitting and renovations, which provided a rich base of experience. However, despite the long working hours of the gas turbine and heat recovery steam generator, it can still be a significant source of power in the Polish Energy System, responding quickly to the needs of the Power Market.

Modeling a membrane reactor for a zero-emission combined cycle power plant

Kotowicz J., Job M.

Journal of Power Technologies

2017

Vol. 97, nr 1

7--14

A zero emission gas turbine power plant with a membrane reactor works on the concept of using ion oxygen transport membrane (ITM) technology in order to apply carbon dioxide capture with limited loss of electricity generation efficiency. The membrane reactor replaces the combustor in the gas turbine and combines three functions: oxygen separation from air through a high-temperature membrane, fuel combustion in the internal reactor cycle, and heating oxygen-depleted air, which is directed to the turbine. This paper presents a gas turbine power plant integrated with a membrane reactor and a detailed description of the membrane reactor model. Selected results of thermodynamic analysis of the modeled power plant are presented.

Mathematical model of Combined Heat and Power Plant using GateCycleTM software

Kowalczyk C., Rolf R. M., Kowalczyk B., Badyda K.

Journal of Power Technologies

2015

Vol. 95, nr 3

183--191

The this paper contains a description and analysis of a mathematical model of the combined cycle gas turbine used by Lublin–Wrotków Combined Heat and Power Plant. The model was generated with the GE Energy Gate Cycle TM software and was based on the parametric design of the real power plant. A brief description of the technology used in the power plant is included in this work. The model was validated by comparing the generated results with the parametric design. The paper finishes with an analysis of the work of the District Water Heater and summary of the most important findings.