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gevernova.com
article
https://www.gevernova.com/software/products/asset-performance-management/gas-…
Gas Turbine Performance Software – Asset Optimization Software. # Gas Turbine Performance Software – Autonomous Tuning. ## Meet Commitments With Closed-Loop Gas Turbine Tuning For Aeroderivative Gas Turbines. Reduction in fuel consumption and carbon dioxide emissions. Up to 14% reduction in carbon monoxide emissions. Up to 12% reduction in NOx emissions. ### Before and After Using Gas Turbine Performance Software. ### Reduced CO emissions by 14%. A LM6000 peaking plant reduced CO emissions by 14% when operating with low-specific gravity composition that can increase CO emissions. NOx emissions were reduced by up to 12% when operating with high-specific gravity composition, which can increase NOx emissions. Since the installation of the gas turbine performance software, the plant has not experienced any high acoustics events, down from 6 the previous year. Since the installation of the gas turbine performance software, the plant has not experienced high acoustics events. ### Who benefits from Autonomous Tuning - gas turbine performance software the most? #### Benefits of Gas Turbine Performance Software.
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power-eng.com
article
https://www.power-eng.com/gas/turbines/ge-software-aims-to-optimize-gas-turbi…
Autonomous Tuning software uses artificial intelligence (AI) to build a digital twin model of a gas turbine to find optimal flame temperatures
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siemensgamesa.com
article
https://www.siemensgamesa.com/global/en/home/products-and-services/service-wi…
Solutions to increase wind turbine performance and profitability. Our engineer-driven Annual Energy Production (AEP) upgrades, wind turbine retrofits, and other optimization solutions have been developed to meet your needs. You can take advantage of our operational expertise to support the superior performance of your older fleets. Our aftermarket solutions support and grow the performance while prolonging the lifetime of wind turbines, delivering high reliability for decades to come. **Are you interested in our asset optimization solutions? AEP features and solutions that deliver improved performance in terms of availability, reliability, power efficiency and flexibility. Controller software optimizing the performance of aging wind turbines below the rated power. Increasing the power production of the onshore and offshore turbines by raising the output under certain operating conditions. The Life Extension program consists of monitoring and structural upgrades that can guarantee the safety and availability of your wind turbines as they move beyond 30 years of operation, giving greater control over maintenance expenses and streamlining the cost of energy.
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apexcleanenergy.com
article
https://www.apexcleanenergy.com/insight/optimizing-turbine-performance-and-pr…
Apex is a leading pioneer of implementing modern, proactive clean energy asset management strategies, including platforms to address turbine performance and profitability. Optimal performance and increased asset reliability and availability are two common goals among asset management teams across the wind industry. This approach is typically used to address performance or reliability issues in response to asset failure or on prescribed calendar-based intervals and is not suitable for an entire class of assets given the particularities of the wind industry (i.e., varying environmental conditions from site to site, assets subject to different loads even at the same site, and so on). Apex has implemented two platforms to address turbine and site performance optimization and turbine life cycle reliability and availability. ## Turbine and Site Performance Optimization Platform. The Apex turbine reliability and availability platform is focusing on optimizing each asset’s remaining useful life (RUL) based on historic, current, and future asset operations.
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meteodyn.com
article
https://meteodyn.com/sectors/onshore-and-offshore-wind-power/meteodyn-univers…
Home » Sectors » Onshore and Offshore Wind » Meteodyn Universe – Wind farm development software suite » Meteodyn WFO. # Meteodyn WFO. Meteodyn WFO is a wind farm optimization software. The tool automatically selects types of wind turbines and optimizes their positioning in wind farms as well as in the road network based on various customizable parameters. It is suitable for both the development and repowering of wind farms, optimizing their cost and performance. Meteodyn WFO optimizes wind farms based on user selected objectives:. * Fitness: considers the production, LCOE, and investment costs of the project. The software relies on a wind resource map of the site provided by the user or on a wind farm simulation from Meteodyn WT. Examples of use: Predefining the type and height of wind turbines in the wind farm; Trying to improve an existing layout; Optimizing the choice of wind turbine type at fixed coordinates; Creating groups of different wind turbines with a defined number in each; Adding new wind turbines to an existing wind farm.
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qblade.org
article
https://qblade.org
## Wind Turbine Simulation Software. ## The QBlade Software. QBlade is an advanced multi-physics wind turbine simulation software for comprehensive aero-servo-hydro-elastic design, prototyping, wind farm analysis, and certification of wind turbines. Developed and validated over 15 years, QBlade empowers wind energy researchers, engineers, students, and industry users to create and analyze turbine models with confidence. This image shows different wind turbine designs that were created in the QBlade software. ## Results You Can Rely On. Ensuring the reliability of simulation results is of utmost importance when conducting wind turbine design, optimization or certification tasks. Checkout the**Quick Start Guide,** get QBlade-CE for free from our **Downloads** page (Community Edition for non-commercial use) or **Contact** us to request a trial of QBlade-EE (Enterprise Edition for commercial projects). this image shows the wind turbine design module in QBlade. this image shows the view of wind turbine simulation results in QBlade. this image shows the wind turbine simulation module in QBlade. this image shows a vertical axis wind turbine simulation that is running in QBlade.
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techbriefs.com
article
https://www.techbriefs.com/component/content/article/30091-lew16709
A computer program provides capabilities for numerical simulation and analysis of the thermodynamic performance of aircraft or automotive gas turbine engines.
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ui.adsabs.harvard.edu
research
https://ui.adsabs.harvard.edu/abs/2015ApEn..142..361C/abstract
## Review of performance optimization techniques applied to wind turbines. This paper presents a review of the optimization techniques and strategies applied to wind turbine performance optimization. The topic is addressed by identifying the most significant objectives, targets and issues, as well as the optimization formulations, schemes and models available in the published literature. The current energy demand combined with depletion of fossil-fuel reserves and stricter environmental regulations have led to the development of alternative renewable energy solutions like wind energy. However, the main objective has been focused on the minimization of the cost of energy in order for wind energy to become more competitive and economically attractive. The purpose of this paper is to review previous work that undertakes the performance optimization of horizontal wind turbines by highlighting the main aspects when tackling the wind turbine optimization problem such as: objective functions, design constraints, tools and models and optimization algorithms.