Combustion Les Software For Improved Emissions Predictions Of High Performance Gas Turbine Combustors

Combustion LES Software for Improved Emissions Predictions of High Performance Gas Turbine Combustors

Author :

Publisher :

Page : 125 pages

File Size : 47,11 MB

Release : 2005

Category :

ISBN :

Get eBook

Book Description

Low emissions of CO, NOx, and unburned hydrocarbons (UHC) are a difficult challenge in the design of new military gas turbine combustors. Simulation tools that can predict emissions are needed to reduce the cost of producing improved, low emissions combustor designs. In this SBIR, CFD) Research Corporation (CFDRC) continued to develop combustion Large Eddy Simulation (LES) techniques to create a high fidelity tool for predicting emissions. The LES code was improved by the development and implementation of a new multi-step assumed PDF method that accounts for more detailed kinetics with turbulent chemistry interactions. This new method enables efficient turbulent combustion CFD) calculations for both steady state Reynolds Averaged Navier Stokes (RANS) and LES with multi-step global mechanisms. Tabulation methods were implemented and tested for improved computational efficiency. Improvements to the existing combustion models and inlet boundary conditions for LES were also performed. In addition to the new turbulent combustion models, the capability to generate the necessary global mechanisms from detailed reaction mechanisms was developed. The final code was validated against benchmark experimental data, and applied to the Rolls-Royce JSF combustor. Validation cases included both premixed and diffusion flames covering a broad range of flame conditions. Although much progress was made in this Phase II effort, continued work is needed to make the new multi-step assumed PDF model robust and practical. In particular, a new solver for the species transport equations needs to be implemented to reduce run times by a factor of two or more.









Combustion Noise

Author : Anna Schwarz

Publisher : Springer Science & Business Media

Page : 304 pages

File Size : 31,36 MB

Release : 2009-06-17

Category : Technology & Engineering

ISBN : 3642020380

Get eBook

Book Description

November, 2008 Anna Schwarz, Johannes Janicka In the last thirty years noise emission has developed into a topic of increasing importance to society and economy. In ?elds such as air, road and rail traf?c, the control of noise emissions and development of associated noise-reduction techno- gies is a central requirement for social acceptance and economical competitiveness. The noise emission of combustion systems is a major part of the task of noise - duction. The following aspects motivate research: • Modern combustion chambers in technical combustion systems with low pol- tion exhausts are 5 - 8 dB louder compared to their predecessors. In the ope- tional state the noise pressure levels achieved can even be 10-15 dB louder. • High capacity torches in the chemical industry are usually placed at ground level because of the reasons of noise emissions instead of being placed at a height suitable for safety and security. • For airplanes the combustion emissions become a more and more important topic. The combustion instability and noise issues are one major obstacle for the introduction of green technologies as lean fuel combustion and premixed burners in aero-engines. The direct and indirect contribution of combustion noise to the overall core noise is still under discussion. However, it is clear that the core noise besides the fan tone will become an important noise source in future aero-engine designs. To further reduce the jet noise, geared ultra high bypass ratio fans are driven by only a few highly loaded turbine stages.





Combustion for Power Generation and Transportation

Author : Avinash Kumar Agarwal

Publisher : Springer

Page : 448 pages

File Size : 32,11 MB

Release : 2017-01-20

Category : Technology & Engineering

ISBN : 981103785X

Get eBook

Book Description

This research monograph presents both fundamental science and applied innovations on several key and emerging technologies involving fossil and alternate fuel utilization in power and transport sectors from renowned experts in the field. Some of the topics covered include: autoignition in laminar and turbulent nonpremixed flames; Langevin simulation of turbulent combustion; lean blowout (LBO) prediction through symbolic time series analysis; lasers and optical diagnostics for next generation IC engine development; exergy destruction study on small DI diesel engine; and gasoline direct injection. The book includes a chapter on carbon sequestration and optimization of enhanced oil and gas recovery. The contents of this book will be useful to researchers and professionals working on all aspects on combustion.



Predicton of Combustion-Driven Dynamic Instability for High Performance Gas Turbine Combustors

Author : B. Sekar

Publisher :

Page : 16 pages

File Size : 25,36 MB

Release : 2001

Category :

ISBN :

Get eBook

Book Description

This paper describes the development and application of a combined detailed three-dimensional large eddy simulation (LES) and one-dimensional analysis tool to predict and actively control combustion-driven dynamic instabilities in gas turbine combustors. The integration of detailed finite-rate kinetics into LES and use of In-situ Adaptive Tabulation (ISAT) to efficiently calculate multi-species finite-rate kinetics in LES along with the use of global kinetics in the one-dimensional analysis tool was demonstrated. The results showed that LES can be effectively used to simulate complex reacting flows in gas turbine combustors and to identify regions of combustion instabilities. The results also showed that the one-dimensional combustor analysis with global kinetics can then be used both to capture the combustor unstable modes of the predicted regions of instabilities and to actively control these instabilities. In particular, the results demonstrated that by modulating the primary fuel injection rates and the time-lag between the instant of fuel-air mixture injection and heat release, damping out the instabilities may be achieved.



Gas Turbine Combustion Modeling for a Parametric Emissions Monitoring System

Author :

Publisher :

Page : pages

File Size : 32,23 MB

Release : 2007

Category :

ISBN :

Get eBook

Book Description

Oxides of nitrogen (NO[subscript x]), carbon monoxide (CO) and other combustion by-products of gas turbines have long been identified as harmful atmospheric pollutants to the environment and humans. Various government agencies place restrictions on emissions and often require some sort of emissions monitoring even for new low emission gas turbines. Predicting actual emissions from operating parameters that affect the formation of pollutants, called parametric emissions monitoring system (PEMS), has potential economic advantages compared to a continuous emissions monitoring system (CEMS). The problem is that a simple applicable PEMS does not exist. During this study, a gas turbine combustor model applying first engineering principles was developed to predict the emission formation of NO[subscript x]and CO in a gas turbine. The model is based on a lean-premixed combustor with a main and pilot burner including the function of a bleeding air valve. The model relies on ambient condition and load. The load is expressed as a percentage of the target speed of the gas producer turbine. Air flow and fuel flow for the main and pilot burner are calculated by the model based on the load through a set of measured input data for a specific gas turbine. To find the combustion temperature characteristics, the combustor is divided into several zones. The temperature for each zone is calculated by applying an energy balance. To predict NO[subscript x] and CO, several correlations explored by various researchers are used and compared against each other, using the calculated temperatures, pressures and equivalence ratios. A comparison between collected emissions examples from a turbine test cell data spreadsheet and predicted emissions by the developed model under the same conditions show a highly accurate match for NO[subscript x] emission at any load. Because of the high variation of CO at part load, the model predictions only match the CO data set at full load.



Combustion Dans Les Turbomoteurs, Les Émissions Et Les Carburants de Remplacement

Author : North Atlantic Treaty Organization. Research and Technology Organization. Applied Vehicle Technology Panel. Symposium

Publisher :

Page : 622 pages

File Size : 18,36 MB

Release : 1999

Category : Aircraft exhaust emissions

ISBN :

Get eBook

Book Description

The symposium dealt with Gas Turbine Engine Combustion, Emissions and Alternative Fuels. Forty-six papers and a Keynote Address elucidated the role of the combustion process as a crucial factor of engine performance and operability under various conditions including non-standard, new fuels and environmental effects of civil and military interest. There were 12 Sessions covering the following topics (some in 2 sessions): (1) Gas Turbines in Land, Sea and Air Applications; (2) Low-Emission Combustors; (3) Combustion Modelling; (4) Optical Measurements; (5) Emissions; (6) Combustor Design; (7) Ignition Processes; (8) Active Combustion Control; and (9) Alternative Fuels.