Wednesday, 6 November 2013

UTSA engineer awarded $400,000 from National Science Foundation for wind energy research

UTSA engineer awarded $400,000 from National Science Foundation for wind energy research


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6-Nov-2013



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Contact: KC Gonzalez
kc.gonzalez@utsa.edu
210-458-7555
University of Texas at San Antonio



Research is expected to enhance the fundamental science of wind engineering and the future of wind farm installations



Although wind resources in the U.S. are abundant, the cost of generating wind energy is still prohibitively expensive when compared to natural gas and fossil fuels. Researchers have documented that one of the key reasons the costs remain high is because wind turbines have shorter lifespans compared to other energy-producing technologies, which can be directly linked to wear and tear caused by turbulence.


Turbulence, which is often associated with bumpy airplane rides, is the primary reason that wind turbines do not perform at their optimal capacity. In a wind farm, or cluster of wind turbines, turbulence occurs from multiple physical processes arising from the wind, atmosphere, complex terrain and the rotor blades.


Finding a solution to this problem is precisely what University of Texas at San Antonio researcher and assistant professor of mechanical engineering Kiran Bhaganagar plans to do with the support of three National Science Foundation (NSF) grants. Bhaganagar graduated from Cornell University under the tutelage of John Lumley, a legend in turbulence, and has years of experience mastering the fundamental physics and mathematical framework of turbulence.


Totaling $400,000, the grants will allow Bhaganagar and her team of undergraduate and graduate students to pursue critical wind energy research on both land-based and offshore wind turbines to determine the optimal mechanical and aerodynamic conditions of the turbines.


"Our ultimate vision is to contribute to lowering the cost of generating wind energy by working with industries and federal agencies on what we discover is the most effective design and placement of turbines over complex terrains," says Bhaganagar.


This is the first time that a scholar in the UTSA Simulation, Visualization and Real-time Prediction (SiViRT) Center will study wind energy. Scholars in the UTSA SiViRT Center use computer simulation, high-performance computing, and advanced visualization to research various topics in engineering and science with broad applications.


"Receiving NSF grants is important to UTSA as they invest in high impact research of intellectual quality and excellence in education," said interim UTSA College of Engineering dean Mehdi Shadaram. "Professor Bhaganagar is leading an important new research initiative for the college that will attract and generate top quality students."


Using advanced computational modeling, the team will generate one of the first accurate representations of the detailed aerodynamics of tall, multi-megawatt, rotating wind turbines. The model will simulate 24-hour atmospheric conditions over complex terrains to accurately predict the power output from a wind farm. The simulations will be performed on a 6,400-node Stampede Cluster, one of the most powerful supercomputers in the world.


Preliminary studies by Bhaganagar's team have revealed that wake effects of the turbines upstream significantly affect downstream wind turbines, reducing their power by roughly 40 percent. The wake effects are cumulative so each additional downstream turbine performs less and less efficiently.


Their research is expected to greatly enhance the fundamental science of wind engineering and the future of wind farm installations.


As one of few females in a historically male-dominated field, Bhaganagar is motivated to encourage more young women to pursue careers in engineering.


"One of my goals is to motivate and train young females in wind energy so that they can be a part of the solution to the world's energy crisis and an impending issue facing our country."


Bhaganagar will conduct the research in partnership with the National Renewable Energy Laboratory and the National Wind Resource Center at Texas Tech University. Bhaganagar has also established strong ties with the Technical University of Denmark, the world leader in wind energy research.


###


Wind, one of the world's oldest sources of energy, is increasingly becoming a viable alternative to traditional energy sources. Texas is home to more wind power capacity than any other state in the U.S., approximately one-third of the nation's total wind installments. Texas also consumes more energy than any other state in the U.S.


To learn more the UTSA College of Engineering or its SiViRT Center, visit http://eningeering.utsa.edu or http://sivirt.utsa.edu. To learn more about Bhaganagar's research, visit her faculty website at http://engineering.utsa.edu/~kiran/KiranWebsiteLatest/DrBhaganagar.


Connect online with UTSA at http://www.utsa.edu, http://www.facebook.com/utsa, http://www.twitter.com/utsa or http://www.youtube.com/utsa.


About UTSA

The University of Texas at San Antonio (UTSA) is an emerging Tier One research institution specializing in health, energy, security, sustainability, and human and social development. With nearly 29,000 students, it is the largest university in the San Antonio metropolitan region. UTSA advances knowledge through research and discovery, teaching and learning, community engagement and public service. The university embraces multicultural traditions and serves as a center for intellectual and creative resources as well as a catalyst for socioeconomic development and the commercialization of intellectual property for Texas, the nation and the world.




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UTSA engineer awarded $400,000 from National Science Foundation for wind energy research


[ Back to EurekAlert! ]

PUBLIC RELEASE DATE:

6-Nov-2013



[


| E-mail

]


Share Share

Contact: KC Gonzalez
kc.gonzalez@utsa.edu
210-458-7555
University of Texas at San Antonio



Research is expected to enhance the fundamental science of wind engineering and the future of wind farm installations



Although wind resources in the U.S. are abundant, the cost of generating wind energy is still prohibitively expensive when compared to natural gas and fossil fuels. Researchers have documented that one of the key reasons the costs remain high is because wind turbines have shorter lifespans compared to other energy-producing technologies, which can be directly linked to wear and tear caused by turbulence.


Turbulence, which is often associated with bumpy airplane rides, is the primary reason that wind turbines do not perform at their optimal capacity. In a wind farm, or cluster of wind turbines, turbulence occurs from multiple physical processes arising from the wind, atmosphere, complex terrain and the rotor blades.


Finding a solution to this problem is precisely what University of Texas at San Antonio researcher and assistant professor of mechanical engineering Kiran Bhaganagar plans to do with the support of three National Science Foundation (NSF) grants. Bhaganagar graduated from Cornell University under the tutelage of John Lumley, a legend in turbulence, and has years of experience mastering the fundamental physics and mathematical framework of turbulence.


Totaling $400,000, the grants will allow Bhaganagar and her team of undergraduate and graduate students to pursue critical wind energy research on both land-based and offshore wind turbines to determine the optimal mechanical and aerodynamic conditions of the turbines.


"Our ultimate vision is to contribute to lowering the cost of generating wind energy by working with industries and federal agencies on what we discover is the most effective design and placement of turbines over complex terrains," says Bhaganagar.


This is the first time that a scholar in the UTSA Simulation, Visualization and Real-time Prediction (SiViRT) Center will study wind energy. Scholars in the UTSA SiViRT Center use computer simulation, high-performance computing, and advanced visualization to research various topics in engineering and science with broad applications.


"Receiving NSF grants is important to UTSA as they invest in high impact research of intellectual quality and excellence in education," said interim UTSA College of Engineering dean Mehdi Shadaram. "Professor Bhaganagar is leading an important new research initiative for the college that will attract and generate top quality students."


Using advanced computational modeling, the team will generate one of the first accurate representations of the detailed aerodynamics of tall, multi-megawatt, rotating wind turbines. The model will simulate 24-hour atmospheric conditions over complex terrains to accurately predict the power output from a wind farm. The simulations will be performed on a 6,400-node Stampede Cluster, one of the most powerful supercomputers in the world.


Preliminary studies by Bhaganagar's team have revealed that wake effects of the turbines upstream significantly affect downstream wind turbines, reducing their power by roughly 40 percent. The wake effects are cumulative so each additional downstream turbine performs less and less efficiently.


Their research is expected to greatly enhance the fundamental science of wind engineering and the future of wind farm installations.


As one of few females in a historically male-dominated field, Bhaganagar is motivated to encourage more young women to pursue careers in engineering.


"One of my goals is to motivate and train young females in wind energy so that they can be a part of the solution to the world's energy crisis and an impending issue facing our country."


Bhaganagar will conduct the research in partnership with the National Renewable Energy Laboratory and the National Wind Resource Center at Texas Tech University. Bhaganagar has also established strong ties with the Technical University of Denmark, the world leader in wind energy research.


###


Wind, one of the world's oldest sources of energy, is increasingly becoming a viable alternative to traditional energy sources. Texas is home to more wind power capacity than any other state in the U.S., approximately one-third of the nation's total wind installments. Texas also consumes more energy than any other state in the U.S.


To learn more the UTSA College of Engineering or its SiViRT Center, visit http://eningeering.utsa.edu or http://sivirt.utsa.edu. To learn more about Bhaganagar's research, visit her faculty website at http://engineering.utsa.edu/~kiran/KiranWebsiteLatest/DrBhaganagar.


Connect online with UTSA at http://www.utsa.edu, http://www.facebook.com/utsa, http://www.twitter.com/utsa or http://www.youtube.com/utsa.


About UTSA

The University of Texas at San Antonio (UTSA) is an emerging Tier One research institution specializing in health, energy, security, sustainability, and human and social development. With nearly 29,000 students, it is the largest university in the San Antonio metropolitan region. UTSA advances knowledge through research and discovery, teaching and learning, community engagement and public service. The university embraces multicultural traditions and serves as a center for intellectual and creative resources as well as a catalyst for socioeconomic development and the commercialization of intellectual property for Texas, the nation and the world.




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]

 


AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.




Source: http://www.eurekalert.org/pub_releases/2013-11/uota-uea110613.php
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