The Impact of Fuel Flexible Gas Turbine Control Systems on Integrated Gasification Combined Cycle Performance

Shilling, N. Z.; Jones, Robert M.

doi:10.1115/gt2003-38791

Cited by 3 publications

(2 citation statements)

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“…Despite some difficulties in using syngas in gas turbines (including hydrogen fuel concentrations >90%), many experiments have been performed in various plants all over the world, especially in the United States [49,50,51]. Syngas is mainly composed by mixtures containing different concentration of carbon monoxide (CO) and hydrogen (H ) concentration affect the variation of the syngas mixtures [50]. The variation in syngas composition can complicate the turbine design and operation.…”

Section: Syngas Ignition Behavior During Compressionmentioning

confidence: 99%

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Syngas Production, Storage, Compression and Use in Gas Turbines

Yang

Zhou

et al. 2020

Biofuels and Biorefineries

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This chapters analyses syngas production through pyrolysis and gasification, its compression and its use in gas turbines. Syngas compression can be performed during or after thermal treatment processes. Important points are discussed related to syngas ignition, syngas explosion limit at high temperatures and high pressures and syngas combustion kinetics. Kinetic aspects influence ignition and final emissions which are obtained at the completion of the combustion process. The chapter is organised into four subsections, dealing with (1) innovative syngas production plants, (2) syngas compressors and compression process, (3) syngas ignition in both heterogeneous and homogeneous systems and (4) syngas combustion kinetics and experimental methods. Particular attention is given to ignition regions that affect the kinetics, namely systems that operate at temperatures higher than 1000 K can have strong ignition, whereas those operating at lower temperatures have weak ignition.

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Section: Syngas Ignition Behavior During Compressionmentioning

confidence: 99%

“…Figure 12.21 shows the complete dataset of experiments performed by [50]. The results of ignition delay time are plotted against 1000/T.…”

Section: Aq4mentioning

confidence: 99%

Syngas Production, Storage, Compression and Use in Gas Turbines

Yang

Zhou

et al. 2020

Biofuels and Biorefineries

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A qualitative reliability and operability analysis of an integrated reforming combined cycle plant with CO2 capture

Nord

Anantharaman

Rausand

et al. 2009

International Journal of Greenhouse Gas Control

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Most of the current CO 2 capture technologies are associated with large energy penalties that reduce their economic viability. Efficiency has therefore become the most important issue when designing and selecting power plants with CO 2 capture.Other aspects, like reliability and operability, have been given less importance, if any at all, in the literature.This article deals with qualitative reliability and operability analyses of an integrated reforming combined cycle (IRCC) concept. The plant reforms natural gas into a syngas, the carbon is separated out as CO 2 after a water-gas shift section, and the hydrogen-rich fuel is used for a gas turbine. The qualitative reliability analysis in the article consists of a functional analysis followed by a failure mode, effects, and criticality analysis (FMECA). The operability analysis introduces the comparative complexity indicator (CCI) concept. Preprint submitted to Elsevier 5 February 2009 * Manuscript Click here to view linked ReferencesFunctional analysis and FMECA are important steps in a system reliability analysis, as they can serve as a platform and basis for further analysis. Also, the results from the FMECA can be interesting for determining how the failures propagate through the system and their failure effects on the operation of the process. The CCI is a helpful tool in choosing the level of integration and to investigate whether or not to include a certain process feature. Incorporating the analytical approach presented in the article during the design stage of a plant can be advantageous for the overall plant performance.

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Combustion

2019

Gas Turbines for Electric Power Generation

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The Impact of Fuel Flexible Gas Turbine Control Systems on Integrated Gasification Combined Cycle Performance

Cited by 3 publications

References 0 publications

Syngas Production, Storage, Compression and Use in Gas Turbines

Syngas Production, Storage, Compression and Use in Gas Turbines

A qualitative reliability and operability analysis of an integrated reforming combined cycle plant with CO2 capture

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