WVU Benjamin M. Statler college of Engineering and mineral resources
Mechanical and Aerospace Engineering
Annual Report 2012-2013 Department of Mechanical and Aerospace Engineering
StudentProjects 1
Message from the Chair
• distinction by external agencies, • basic measures of departmental productivity (both in academics and research) as compared with other nationally ranked academic programs, • faculty distinction, • student awards, • alumni placement and accomplishments, and
Dear Friends, This annual report reflects the image of a vibrant Department of Mechanical and Aerospace Engineering (MAE) at West Virginia University, whose faculty, staff, and students continue to advance its mission and national reputation in an increasingly competitive environment, both in research and education. Our Department has made significant strides in the past couple of years toward the five primary goals of its 2020 strategic plan, which are well aligned with the corresponding strategic goals at the College and University levels: 1. Engage undergraduate, graduate, and professional students in a challenging academic environment. 2. Excel in research, creative activity, and innovation. 3. Foster diversity and an inclusive culture. 4. Advance international activity and global engagement. 5. Enhance the well-being and the quality of life of the people of West Virginia. The educational programs offered by our Department have been designated as “Programs of Excellence” by the Board of Governors of West Virginia University. This designation recognizes our educational programs in terms of the following criteria:
• self-assessment process that is effective and consistently practiced in the department for continuously improving the outcomes of its educational programs. The undergraduate enrollment in the two degree programs (BSAE, BSME) offered by the Department, including the dual degree option, has exceeded 500 for the first time. Our total graduate enrollment remains steady at about 150-160 students, with an almost equal number of students pursuing master’s and doctoral degrees in the 2012-2013 academic year. A top priority of the Department continues to be securing resources, in the form of either financial or in-kind donations, for steadily upgrading our shop, computing, and laboratory facilities. In addition to significant donations of design and analysis software from major corporations like Siemens and Ansys, we were recently selected to receive an environmental wind tunnel as a donation from Cornell University. Last year, the Department and the College allocated significant financial resources and laboratory space to improve the shop facilities that support student projects, to upgrade the existing low-speed wind tunnel, the rapid-prototyping 3-D printer, and the dynamics and strength laboratory, as well as to build a unique drop tower facility that allows limited testing on the ground in microgravity conditions. Student projects and competitions provide a highly effective and stimulating learning environment for undergraduate students, but they usually
Annual Report from the Department of Mechanical and Aerospace Engineering
Features
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Team From WVU Finishes 10th in the ASME’s Human Powered Vehicle Challenge
MAE Annual Report
2012-2013
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MAE to Enhance its Wind Tunnel Facilities
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Clark Named to National Academies Committee on Energy and Energy Conservation
WVU Benjamin M. Statler college of Engineering and mineral resources
require significant investments in terms of laboratory equipment and space, technical support personnel, training, and travel. It is always difficult to balance the need and desire to offer our students expanded opportunities to engage in such projects with the level of available facilities, financial, and personnel resources. New teaching laboratories are being established by some of our eight new tenure-track faculty members, such as a mobile robotics laboratory designed by Yu Gu and a laboratory for spacecraft design, guidance, navigation, and control that is designed and managed by John Christian. Despite the continuing reductions, uncertainties, and disruptions in federal research funding, most members of the MAE faculty have remained pro-active and successful in pursuing externally sponsored research projects. Although the total level of research expenditures has declined to $9.03 million in fiscal year 2012 as compared to $11.3 million in the previous year, the level of new research awards has risen from $5.9 million to $6.15 million, which indicates that the research expenditures are likely to grow again in future years. A growing percentage of research funding has been secured from the private sector, as a result of our concerted effort to establish partnerships with industrial companies. The percentage of new research awards from the private sector has increased from 16 percent in 2011-2012 to about 20 percent in 2012-2013. This indicates that many of our research projects have significant practical value, with direct applicability in industry. The percentage of private research funding for research and
Mechanical and Aerospace Engineering
development projects is even higher than 50 percent for MAE’s Center for Alternate Fuels, Engines and Emissions (CAFEE). Over a 20-year period, CAFEE has been responsible for more than $90 million in externally sponsored research, and has gained a strong international reputation for its research and development work in alternative fuels, characterization and reduction of exhaust emissions, energy efficiency, sampling, and characterization of ambient air quality. CAFEE is expected to assume a key role in advancing one of the five pinnacle areas of excellence that have been technology research and development for shale gas utilization, as recently identified by WVU as main research goals of the University. Both the Department and CAFEE are well-positioned to build on our past track record of energy-related research, existing infrastructure, faculty expertise and laboratory facilities to pursue sponsored research and development of technologies leading to increased demand for natural gas as a fuel in a broad variety of applications, ranging from transportation to heating, cooling, and power generation. We hope that you will enjoy reading the articles and browsing through the information included in this report. Your comments, thoughts, advice, and support, in any form that is convenient to you, are very much appreciated. Dr. Jacky Prucz Chair, mechanical and aerospace engineering
Jacky C. Prucz
ANNUAL REPORT 2011-2013 Publisher / Jacky Prucz jacky.prucz@mail.wvu.edu / 304.293.3131
Editor / Mary C. Dillon Contributing Writers / Martja Huebsch and Larry Banta Designer / J. Paige Nesbit Address West Virginia University Statler College of Engineering and Mineral Resources Department of Mechanical and Aerospace Engineering PO Box 6106 / Morgantown, WV 26506-6106 www.mae.statler.wvu.edu
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Change of Address WVU Foundation / PO Box 1650 Morgantown, WV 26504-1650 Fax: 304.284.4001 / e-mail: info@wvuf.org www.mountaineerconnection.com
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Faculty and Staff Accomplishments 2012-2013
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Academy of Distinguished Alumni
StudentProjects
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Production Director / Martja Huebsch
Copyright Š2013 by the WVU Benjamin M. Statler College of Engineering and Mineral Resources, Department of Mechanical and Aerospace Engineering. Brief excerpts of articles in this publication may be reprinted without a request for permission if MAE Annual Report is acknowledged in print as the source. Contact the editor for permission to reprint entire articles. West Virginia University is governed by the WVU Board of Governors and the West Virginia Higher Education Policy Commission. WVU is an Equal Opportunity/Affirmative Action Institution.
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QuickFacts PERFORMANCE SUMMARY Academic Year
Research Awards FY 2012
2011-2012 2012-2013 60
B.S. Enrollment in Aerospace Engineering (AE)
42
53
B.S. Enrollment in Mechanical Engineering (ME)
226
275
B.S. Enrollment in Dual Degree AE/ME track
171
173
er
gr
ad
ua
te
82
Ph.D. Enrollment in AE
14
6
Ph.D. Enrollment in ME
61
68
Undergraduate Degrees Awarded in AE
35
47
Undergraduate Degrees Awarded in ME
111
119
M.S. Degrees Awarded in AE
5
5
M.S. Degrees Awarded in ME
24
21
Ph.D. Degrees Awarded in AE
2
0
Ph.D. Degrees Awarded in ME
5
14
13170
14137
4092
3381
Undergraduate Course Credit Hours
337
374
Graduate Course Credit Hours
135
129
Graduate Student Credit Hours
Enrollment Trends
AE -M EU
nd
57
Research Expenditures FY 2012
$7,679,281 $1,
Federal State Private TOTAL=$11,360,443
275
250 173
200 150 100
57
53
50
21
2009 2010 2011 2012 2013
68
6
MAE Annual Report
2012-2013
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ME
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S -M AE
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0
759
3
75
Federal State Private TOTAL=$5,897,880
,62
M.S. Enrollment in ME
Undergraduate Student Credit Hours
21
921
19
$1,924,057
$1,
M.S. Enrollment in AE
$3,034,816
7
Journal Papers (Calendar Year)
,00
35
39
28
$9
Number of Faculty
,53
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WVU Benjamin M. Statler college of Engineering and mineral resources
Mechanical and Aerospace Engineering
Students PRICE
Student Internships Focus on Energy Danielle Price, a senior dual major from Fairmont, W.Va., spent her second consecutive summer working at the National Energy Technology Laboratory in Morgantown, W.Va. Price was selected as a Mickey Leland Scholar and worked to improve the efficiency of film cooling in gas turbine blades. Last summer, she used AutoCad to design a test section for a turbine blade. This summer, she used ANSYS to perform finite element analysis of the blade under varying temperatures, flow rates, and boundary conditions. She then compared her analytical studies with data collected on the test blade using thermal imagery. The comparisons allowed her and her mentor, Doug Straub, to adjust various parameters to fine tune the analytical models. Her work was used to predict blade
temperature distributions under various conditions and adjust designs to optimize gas turbine efficiency. Darius Reynolds studied fluidized beds used for carbon capture under an Oak Ridge Institute for Science and Education (ORISE) internship. ORISE is a highly competitive program and provides internships and research experiences for students at all levels of education. Reynolds worked at the National Energy Technology Laboratory in Morgantown under the supervision of Larry Shadle. One method for reducing CO2 emissions from power plants and industrial processes is to pass the exhaust gas stream over materials that selectively adsorb the CO2. Reynolds worked with
a proprietary crystalline material he calls Sorbent 32D. Reynolds and Shadle used fluidized beds to facilitate contact between the gas stream and the sorbent, with a goal of capturing one mole of CO2 per kg of sorbent. However, one of the problems they face is elutriation—the carryover of the sorbent with the gas stream. Reynolds’ current work is to characterize the relationships between particle size and shape with gas velocity to predict the amount of elutriation expected. This information will help to optimize the bed operation and reduce operating costs for carbon capture. Reynolds worked on both the experimental and analytical aspects of the research, and hoped to publish a paper on his work.
Students
REYNOLDS
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Student Activities WVU’s Design/Build/Fly Team Soars to Arizona
West Virginia University’s 12-member Design/Build/Fly (DBF) team competed against schools from around the globe in the Cessna/ Raytheon Missile Systems’ Student DBF competition on April 19–21, at the Tucson International Modelplex Park Association Field in Arizona. The team’s plane measured 48 inches long with a wing span of 30 inches, and had a weight of approximately 4.5 pounds. Its main structure was constructed out of balsa wood, plywood, carbon fiber, fiberglass composites, and depron and it was covered in a thin, plastic shrink-wrap. The competition was judged on a written report that was worth 50 percent of the team’s overall score and the performance of the airplane during a prescribed set of three flight missions, which determined the rest of the overall score. The first flight was a short take-off mission with no payload that evaluated the number of laps the aircraft could complete in four minutes. The second, a stealth mission, evaluated the aircraft during three laps with an internal payload, followed by a strike mission that consisted of six possible payload configurations with various combinations of internal and external stores.
StudentActivities
Of the 81 teams that were eligible to participate in the fly-off portion of the competition, only 55 completed the technical inspection and only 12 teams successfully completed all three missions of the flight analysis section. WVU’s airplane crashed during a test flight and could not enter the flight analysis portion of the competition. This was especially disappointing after WVU placed ninth out of 68 teams last year. The experience of managing and participating in such a comprehensive and complex project will prove valuable to the students as they enter the engineering workforce.
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MAE Annual Report
2012-2013
WVU Benjamin M. Statler college of Engineering and mineral resources
Microgravity Team Travels to Houston for NASA’s Reduced Gravity Education Flight Program
Mechanical and Aerospace Engineering
For the 12th time in 13 years, a team of students from West Virginia University was selected to participate in NASA’s Reduced Gravity Education Flight Program, held in July at Johnson Space Center’s Ellington Field in Houston, Tex. The students tested their self-designed and constructed experiments aboard NASA’s reduced gravity aircraft. The program gives teams of undergraduate students from across the nation the opportunity to propose, design, build, fly, and evaluate experiments involving microgravity. The team was selected based on scientific merit and education outreach potential from more than 67 submitted proposals. Recent graduates Spencer Elyard, Evan Ford, Dustin Frohnapfel, and Stephen Itschner and seniors Michael Powell and Joey West comprised the team’s “flyers,” which participated in the weightless experience and conducted the experiment. Juniors Jacob Cordonier, Nicholas Underwood, and sophomore Steven Kosko also made the trip to Houston as the team’s “ground crew.” Two additional members, Samantha Dolin and Dinie Rosli, were part of the experiment’s design, but were unable to make the trip. The WVU team tested their experiment aboard G-Force One, a microgravity aircraft that can produce periods of weightlessness lasting up to 25 seconds at a time by flying a series of approximately 30 parabolas—a steep climb followed by a free fall—over the Gulf of Mexico. “It was incredible flying in zero-gravity and touring the NASA Houston facility,” said Frohnapfel. “The experience made the nine months of preparation completely worth it.” The student team flew their experiment, “Variable-Gravity Liquid Spray Cooling Optimization,” from July 19-21. It investigated the heat absorption capabilities of a fine liquid spray during the reduced gravity flights. The team will issue a final report analyzing the experiment’s effectiveness, scientific findings, and conclusions to NASA in two months.
StudentActivities 7
StudentActivities
Team From WVU Finishes 10th in the ASME’s Human Powered Vehicle Challenge
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West Virginia University’s 10-member Human Powered Vehicle (HPV) team traveled to Grand Rapids, Mich., in April to compete in the American Society of Mechanical Engineers’ three-day HPV Challenge. Using a prototype originally created for use in the competition in 2012, the team performed modifications to the design including conversion to a prone-style vehicle and encasing the original tricycle with a hard exterior shell to reduce drag and enhance the protection of the rider. The new design incorporated renewable energy elements such as solar cells that powered the interior and exterior lighting and a low-emissivity glaze coating for the windows. The team from WVU finished eighth out of 31 teams for the design portion of the competition and 10th in the overall score. While most teams recruit competitive cyclists to race on the team’s behalf, WVU’s team chose some
MAE Annual Report
2012-2013
of its student members to ride the vehicle in the competition, as a reward for participating in the project. The judges commended the WVU Mountain ”Engine” Eers for their professional presentation and technical report, which placed them eighth in the design portion of the competition. This is the second year the WVU team has competed in the ASME HPV Challenge. In 2012, the team finished seventh out of 40 teams participating in the competition, which was held at Grove City College in Pennsylvania. According to team advisor Kostas Sierros, the students have earned a strong reputation in the competition, which will enhance awareness about the advantages of human-powered, short-range transportation. “The WVU team will remain motivated by its desire to not only win the HPVC competition,” Sierros said, “but to promote widespread daily use of reliable and fast tricycles as a sustainable and clean short-range means of transportation.”
WVU Benjamin M. Statler college of Engineering and mineral resources
Mechanical and Aerospace Engineering
Student Accomplishments COLLEGE and DEPARTMENTAL SCHOLARSHIPS Chester A. Arents Scholarship
Lentz/Shrout Scholarship
Zachary Cox Andrew Garrett
Aaron Anderson
Bjornson Scholarship
Matthew McCabe
WVU Achievement Scholarship
Justine Schultz Joshua Sleva
Ragland-Bowers Scholarship
William S. Clapper Scholarship
Seltzer/Ulrich Scholarship
Guy Cordonier Jessica Felde Ethan Garrison Ryan Helmic Berk Jeffrey Kristopher Lankford Bryan Layfield Zachary Layhew Tyler McCutchan Joseph Minard Nicholas Ohi Conor Pyles Alexander Rodberg Timothy Schmidt Eric Smithberger
Aaron Anderson Alan Didion
WVU Excellence Scholarship
MAE Department Scholarship
Matthew Boots Bradley Cox Matthew Davis
Nathan Ness Scholarship
Carl H. Cather Scholarship
Homer P. Nutter Scholarship
Payton Roda
Drew Goodman Matthew Siburt
Harold M. Cather Scholarship
Chad Jones Zachary Santer
CNG/Dominion Engineering Scholarship Alexander Gates
Everette C. Dubbe Scholarship Joseph Bright
Elias Scholarship William Riley
Jerome B. Fanucci Scholarship
Fourney Scholarship Jarred Leggett Matthew Milanese
Halliburton Scholarship Robert Buckholtz Dillon Carden Christopher Gomke David Peng
Hansen, Inc. Scholarship Matthew Schmid
Kaiser Aluminum and Chemical Corporation Scholarship Samantha Dolin Enmanuel Madera Darius Reynolds Reshmi Syamlal
Jennifer Williams
Dillon Carden Zachary Cox Andrew Garrett Alexander Gates Alexander Gray David Peng Joey West
Tyler Andre Taylor Brickbichler Zachary Dendler Jesse Diamond Eric Fabozzi Jeremy Hardy Steven Kosko Andrew Liounis Luke Mastrorilli Sarah Mills Kristina Reilley Joshua Thibault Clint Thompson Daniel Whitlow
Tierney Scholarship
Donald T. Worrell Scholarship
Brandon Davis Drew Hurst Alexander Hypes
Matthew McCabe
Society of Allied Weight Engineers Scholarship Matthew Schmidt
Statler College Engineering Scholarship
Richard E. Walters Scholarship Dustin Frohnapfel
Westmoreland-Sprague Scholarship Fund Kenneth Tyner
StudentAccomplishments
Alexander Gray Thomas Lusk Vincent Spada
Matthew McCabe
Kirkland Scholarship Logan Robertson
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Research Research
MAE to Enhance its Wind Tunnel Facilities
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At a time when the capability of wind tunnel testing is decreasing in many educational and research institutions around the country, West Virginia University’s Department of Mechanical and Aerospace Engineering (MAE) is adding to its experimental aerodynamics infrastructure. In spring 2013, Cornell University announced plans to decommission two operational wind tunnels and donate them to other universities. Pat Browning, a research assistant professor in MAE, spearheaded a successful effort to acquire one of the tunnels. In early August, Browning traveled to Cornell along with two MAE students in order to dismantle, load, and transport the environmental wind tunnel to its new home in the WVU Hangar at Morgantown Municipal Airport. While the Department has two subsonic and two supersonic wind tunnels, it did not have an environmental wind tunnel. This will be a significant acquisition for both education and research in the area of experimental aerodynamics. An environmental wind tunnel is specifically designed to generate flow fields that mimic atmospheric flows in a variety of ambient temperature scenarios, including the representative velocity gradients across the boundary layers in conditions of wind gusts and free stream turbulence. The new facility is an open circuit environmental wind tunnel that has a nominal test section (TS) size of 4x4 feet. The TS can be open or closed, making this tunnel optimal for educational and demonstration purposes. The two-speed, six-motor-drive system can produce a maximum velocity of 24m/sec., and is equipped with variable inlet guide vanes in order to attain a wide array of flow speeds, not only for mean speed adjustments but also for the development of speed gradients within the TS. Browning is developing designs and cost estimates for adding air temperature control to the tunnel, which would allow the Department to further its capabilities in such areas as aerosol propagation, wind turbine engineering, and wind loading on tall building structures and bridges. Emerging research in micro air vehicles will also benefit from the new facility, since they typically fly near the ground, where wind gusts can be a significant challenge for their performance and stability. A wind tunnel that has the capabilities to simulate such environments will be a key asset to future research and educational work in these areas.
MAE Annual Report
2012-2013
WVU Benjamin M. Statler college of Engineering and mineral resources
Mechanical and Aerospace Engineering
CAFEE Works to Convert Diesels to Natural Gas CAFEE is also investigating retrofit kits for older engines utilizing portable emission measurement systems. These legacy engines are characterized by their higher than usual GHG and particulate matter (PM) emissions levels and provide significant opportunities to reduce the inventory of GHG and PM loading to the environment while also providing reduced consumer fuel costs. CAFEE investigators will also be developing dual-fuel conversion systems for transportable refrigeration units on trailers.
The growing abundance of natural gas and its potential to reduce greenhouse gas (GHG) emissions when compared to gasoline and diesel fuel may promote it as the alternative fuel of the future. CAFEE has embarked on a number of new programs to improve the use of natural gas in the transportation industry, particularly in the heavyduty engine sector. CAFEE is currently working with industry partners to research, develop, and certify dual-fuel conversion kits applicable to intermediate-age diesel engines. The dual-fuel kits are being developed to meet customer performance needs while keeping engine emissions within regulatory requirements. CAFEE’s engine dynamometer laboratory is being used to certify the performance of the conversion kits so they can be installed without violating the Clean Air Act prohibition against engine emission controls tampering. The kits will allow fleet operators to use natural gas as an alternative fuel choice, benefitting the local economy and the global environment.
Researchers in CAFEE are re-commissioning WVU’s ASTM-Cooperative Fuels Research engine and developing a gas mixing system to explore knock characteristics of complex natural gas compositions such as those found in shale gas. Natural gas fuel has typically been composed of more than 90 percent methane by volume, with smaller quantities of straight-chain alkanes such as ethane, propane and butane. Shale or “wet” gases have lower methane concentration and higher concentrations of longer chained alkanes. There is scant octane number data available for these higher order alkanes and complex natural gas compositions. CAFEE will perform experiments to better characterize how they can best be utilized by emerging natural gas engine technologies. Under a $1.5 million grant from the Environmental Defense Fund, CAFEE is leading a project to better understand methane leakage associated with natural gas vehicles and fueling stations. Researchers are gathering data on methane emissions from natural gas vehicles, fueling
stations and maintenance facilities through a combination of leak detections, leak measurements, operational and maintenance procedure reviews, and equipment audits. These data will all be used to develop a consolidated database and models to predict the impact of increased natural gas utilization by the transportation sector. Consortium partners are providing access to vehicles or facilities, and a number of other industry participants are contributing equipment for testing. This program will be the first large scale effort to predict and quantify the environmental impact of natural gas utilization for transportation and will help lead future best practices and regulatory requirements in this growing area. A Ricardo Proteus research engine is being recommissioned by CAFEE to improve combustion stability and quantify the lean limit operability of natural gas in heavy duty internal combustion engines. This study will further develop laser and other ignition technologies to decrease nitrogen oxide emissions without an associated fuel efficiency penalty. Recent advances in laser ignition technology have reduced the overall dimensions and costs of such a system. Currently, studies are focusing on evaluating the effect of vibration and temperature on these laser ignition systems. This research aims to elucidate and quantify the inefficiencies and problems associated with using laser ignition systems in heavy-duty vehicle applications. The Ricardo Proteus engine is onloan from the U.S. Department of Energy’s National Energy Technology Laboratory.
Research
West Virginia University’s Center for Alternative Fuels, Engines and Emissions (CAFEE) is a worldwide leader in the research and development of technologies necessary to improve transportation and power system efficiency. In support of this mission, CAFEE is currently expanding its research activities that focus on the increasingly abundant supply of natural gas in the U.S. CAFEE has been working since 1990 to solve problems and to create knowledge to facilitate the use of natural gas as a transportation fuel.
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For several decades, computational simulations have bridged the gap between theoretical and experimental efforts. Originally just a supportive tool for analytical studies, the simulations have now achieved the stage of “numerical experiment” due to continuously increasing computer speeds and capacities as well as improving numerical methods. By combining resources and by working through West Virginia University’s High Performance Computing Center, four recently-appointed faculty members in mechanical and aerospace engineering (MAE) have developed advanced facilities for highperformance, multi-scale computational research, specifically in the areas related to energy, novel materials, and astrodynamics. Their work is described below.
Combustion Science Numerical simulation of premixed burning is limited, in particular, by the huge difference between the characteristic time and length scales that have to be resolved and covered. Moreover, combustion studies usually include multi-phase physics, the complex multidimensional configuration of a burner, and detailed chemical kinetics. These difficulties make the modeling of the combustion processes so complicated that the direct numerical simulations of real combustion systems such as internal combustion engines or gas turbines remain very limited even with modern computational facilities.
Research
Research
New Faculty Perform Research in Energy, Novel Materials, and Astrodynamics with acoustics, acoustic shocks, flame interactions with combustor walls and interior obstacles, and flame acceleration. Of particular interest is the transition from subsonic deflagration to supersonic detonation. Detonation has caused countless disasters in engines, turbines, rockets, power plants, and mines, although it can also be constructively utilized, particularly in pulse-detonation Akkerman engines. Akkerman uses a unique simulation tool: a hydrodynamic reacting Navier-Stokes solver adapted for parallel computations.
Energy Systems and Materials Advanced modeling and uncertainty quantification in simulations of large-scale engineering systems is the focus of the newly established Energy Systems and Materials Simulation Group, led by MAE Assistant Professor David Mebane. The statistical methods of the group integrate the experimental and theoretical information into a unified, probabilistic modeling Mebane paradigm. These new techniques combine the predictive power of first-principle methods with the accuracy of the experiments, signaling novel approaches in both multi-scale modeling and new materials discoveries. Mebane’s group is currently collaborating with the U.S. Department of Energy on carbon capture technologies, with immediate perspectives to initiate the research on solid oxide fuel cells. Together with fellow MAE professors Terrence Musho, Xueyan Song, and Ed Sabolsky, the group also intends to begin a project focused on thermoelectric materials discovery.
Transport Properties of Materials MAE Assistant Professor V’yacheslav Akkerman is an active participant in this field of study. Akkerman’s group investigates several interconnected areas of combustion science including intrinsic flame instabilities, turbulent burning, flame interaction
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MAE Annual Report
2012-2013
Using the principles of quantum mechanics, MAE Assistant Professor Terrence Musho and his group develop models to predict the thermal and electrical transport properties of materials from a near firstprinciple point of view. Musho has obtained a model, which allows computing the thermal and electrical conductivity of materials in
WVU benjamin m. statler college of Engineering and mineral resources
an effort to predict their engineering characteristics. It is noted that modeling these features at an atomic scale requires intensive computations; in particular, it involves the generation of enormous quantities of data. A big portion of Musho’s research involves not only developing new approaches to incorporate additional physics into these quantum models but also a framework to run high productivity computer systems and dividing the model across hundreds of processors in trials musho to accomplish these simulations within a reasonable amount of time. Through the development of first-principle transport models, Musho’s group can now compute the electrical and thermal properties of novel complex materials, with applications in the development of efficient direct energy conversion devices. Consequently, with these computational tools, one can look at exploring larger design spaces and tailoring new materials for a specific application. Ultimately, this provides a resource that would allow picking a handful of elements off the periodic table, combining them into a solid solution, and predicting their properties before ever stepping into the laboratory.
Mechanical and Aerospace Engineering
Optimized Trajectory Simulations The design, optimization, and navigation of space missions are the research interests of MAE Assistant Professor Alfred Lynam. High-fidelity spacecraft trajectory modeling requires high-precision numerical integration of complex ordinary differential equations, and finding globally optimal spacecraft trajectory solutions involves the parallel integration of numerous candidate trajectories. To analyze the results of the candidate trajectories and converge on optimal Lynam trajectory solutions, Lynam’s group uses sophisticated numerical techniques such as the multi-dimensional NewtonRaphson root solving method and genetic algorithms. Since most legacy astrodynamics software is programmed for use on a single central processing unit (CPU) core, modernizing astrodynamics software by adapting it to multicore CPU and graphics processing unit (GPU) architectures is one of Lynam’s primary goals in his research. Several astrodynamics applications are massively parallel, so speedups of 10-100 times are often possible with parallel CPU and GPU architectures.
Clark Named to National Academies Committee on Energy and Energy Conservation
Clark has extensive experience in vehicle design, advanced vehicle concepts, alternative fuels, and the measurement and reduction of vehicle emissions. He has conducted research for government and industry in the areas of fuel economy and emissions from heavyduty vehicles, including buses and heavy hybrid drive vehicles, and works with the International Council for
Clean Transportation on technology and efficiency review. The committee will work under the oversight of the National Academies Division on Engineering and Physical Science, Studies and Special Programs Division. “Our society is dependent on trucking for interstate freight movement, local delivery, and a wide variety of services, and trucks consume a substantial fraction of our national energy supply,” said Clark. “Driving energy efficiency in this sector is essential: it reduces fuel use, makes economic sense, and reduces overall exhaust pollutants. Serving on this committee represents a wonderful opportunity to reduce our energy footprint and advance our national economy.” “Nigel Clark is widely recognized in the heavy duty vehicle industry as a leader in the study of alternative fuels and vehicle design, especially as it relates to mediumand heavy-duty vehicles and engines,” said Gene Cilento, Glen H. Hiner Dean of the Statler College. “He has been a prolific researcher who will bring that wealth of experience to bear on the important work of this committee.”
Research
Nigel Clark has been named to a committee formed by the National Research Council for the U.S. Department of Transportation’s National Highway Traffic Safety Administration. Made up of 19 industry representatives and educators, the committee will meet to assess technologies for reducing fuel consumption of medium- and heavyCLARK duty vehicles. The work is a continuation of a 2010 committee on which Clark also served, and will update the prior study to consider new and emerging technologies that could be implemented in the 2017 model year and beyond.
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Research
Fuel Cell Research Could be WinWest Virginia has long been an energy-producing state, rich in coal, and with modest deposits of oil and natural gas. Recent advances in recovery technology have made exploitation of vast reserves of shale gas underlying much of the state possible. This abundant and cheap gas is threatening the coal industry by driving down prices for coal nationwide. Electric utilities are transitioning from coal-fired boilers to natural gas-fired turbines for new generating facilities, thus reducing the demand for coal in what has long been its core market.
CELIK
LIU
SABOLSKY
Research
Ongoing and planned research at West Virginia University may provide some help to both the coal and shale gas industries by pushing forward the development of fuel cells that can generate electricity using either methane or syngas derived from coal. In a project funded by the U.S. Department of Energy’s Experimental Program to Stimulate Competitive Research, faculty across WVU, including Ismail Celik, Xingbo Liu, Ed Sabolsky, Xueyan Song, and Nick WU from the Department of Mechanical and Aerospace Engineering, are working on a project entitled, “Direct Utilization of Coal Syngas in Solid Oxide Fuel Cells.” Solid Oxide Fuel Cells (SOFCs) hold great promise for the highly efficient conversion of hydrogen to electricity, but the materials used in such fuel cells are
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A typical set of TEM images is used to identify the nano-scale features that appear in fuel cell electrodes and electrolytes under various operating conditions.
MAE Annual Report
2012-2013
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susceptible to degradation by sulfur and other impurities that exist in raw hydrocarbon gases, such as coal syngas or shale gas. Liu is leading several projects aimed at understanding and mitigating the degradation of SOFC performance due to these and other factors. He is also working with Faraday Technology Company to develop lowcost methods for manufacturing SOFCs. Song is leading a project funded through the National Energy Technology Laboratory-Regional University Alliance (NETL-RUA) program to investigate the effects of nanostructure and chemistry evolution of SOFCs upon cell operation. In SOFCs, electrochemical reactions take place on the triple-phase boundaries (TPBs) between
WVU Benjamin M. Statler college of Engineering and mineral resources
Win for West Virginia the electrolyte, the electrode, and the gaseous fuel. Small changes in TPB structure or chemistry, and the interface between electrode and electrolyte can drastically affect SOFC performance and lifetime. As part of the NETLRUA fuel cell team, Song employs transmission electron microscopy (TEM) to identify the nano-scale features that appear in fuel cell electrodes and electrolytes under various operating conditions. This information is used, in turn, to provide insight into mechanisms of cell degradation and methods of improving cell performance. In closely related work, Celik leads a team of researchers in another RUA project entitled, “Multi-Scale Multi-Dimensional Modeling of SOFC Electrodes.” One of the challenges in making SOFCs viable is reducing the electrode losses. The electrodes are porous media made up of different phases and their overall performance is an intricate function of not only the material properties but also the geometry of the microstructure. The goal of the research conducted by Celik’s group is to assess the relation between the electrode micro-geometry and its electrochemical performance using numerical simulations. Detailed multi-physics models are developed for cathode and anode operation which take into account the influence of the electrode microstructure. Based on the degradation trends observed during experiments conducted at NETL, the time evolution of the microstructural properties inside the electrodes is estimated using the model. Celik’s group works in close collaboration with other teams at Carnegie Mellon University and Penn State University, as well as with researchers at NETL. The application of nano-catalyst to solid-oxide fuel cell anodes is considered to be one method by which microstructural control, improved stability, and enhanced reactivity may be imparted to the whole cell. As in cathode infiltration strategies, anode infiltration is an additive technology, which permits retention of core technical achievements related to electrode design such as TEC matching, acceptable materials/microstructural stability, acceptable cost, and durability/longevity. Sabolsky is leading a NETL-RUA project titled, “Materials and Methods for Anode Infiltration.” In this work, investigations are being completed to develop candidate nanomaterials that will be inserted into the anode microstructure to improve the cell performance, measured by the following criteria: increased anode activity; improved electrode stability/reduced intrinsic electrode degradation; enhanced resistance to contaminant exposure/reduced extrinsic electrode degradation; and decreased cost on the basis of power density.
In combination, these projects aim to solve many of the problems impeding the adaptation of SOFCs to directly use shale gas or coal syngas as fuels. This focused and coordinated research effort may lead to multi-win outcomes for West Virginia and its natural energy resources.
FACULTY AWARDS Smith to Receive Frank Kreith Energy Award James E. Smith, professor of mechanical and aerospace engineering, will receive the American Society of Mechanical Engineers’ Frank Kreith Energy Award. The award recognizes Smith for his more than 30 years of research and contributions on energy conservation, renewable energy, to technologies for the transfer of those technologies into the marketplace; SMITH and the use of that developmental process for the advanced training of students, staff, and colleagues. The award was established in 2005 and recognizes an individual for significant contributions to a secure energy future through innovations in conservation and renewable energy technology. Smith will receive the honor, which includes $2,000 and a travel expense supplement to attend the society’s 2013 International Mechanical Engineering Congress and Exposition, scheduled for November 15-21, in San Diego, Calif.
Banta awarded Fulbright Scholarship for research in Italy Larry Banta spent the 2013 spring semester in Savona, Italy, doing research on control systems for integrated electric generation systems. Supported by a research scholarship from the Fulbright Foundation, Banta was a visiting professor at the University of Genova, where he designed a control system for their BANTA Energy Hub. The prestigious Fulbright Scholarship is part of a highly competitive, merit-based program to foster better understanding and closer ties between the U.S. and foreign nations. The Foundation supports travel and scholarship for the exchange of students, faculty, artists, scientists, and scholars each year between the U.S. and more than 155 foreign countries. Banta was one of about 1,200 U.S. scholars selected for awards this year, and became one of about 70 faculty from West Virginia University to earn this award since 1979.
Song wins NSF Faculty Early Career Development Award Xueyan Song will study ways to improve waste heat recovery from industrial and automotive processes under a five-year Faculty Early Career Development Award from the National Science Foundation (NSF). The NSF describes SONG this award as its “most prestigious award in support of … those teacher-scholars who most effectively integrate research and education … .” Song will use the highly competitive grant to study ways to improve the energy conversion efficiency of thermoelectric oxides, which can transform temperature differentials into electrical power. She has been researching the development of materials for energy applications for several years, and is the author or co-author of more than 50 peer-reviewed journal publications, including articles that have appeared in Nature and Nature Materials. Song will include not only graduate students but high school teachers in her work as a novel way to integrate research with education on multiple levels.
Faculty
By themselves, SOFCs are only marginally more efficient than the best new gas turbine engines being used for electric generation. However, SOFCs can be used as a topping cycle for a gas turbine followed by further waste heat recovery measures. Such a hybrid cycle can potentially convert fuel to electricity with better than 65 percent efficiency while also providing process heat for industrial or commercial purposes. However, the precise control of the hybrid system is both difficult and critical. Larry Banta is leading a project at NETL to perform “Sensors and Advanced Controls Testing in HyPer.” Among other things the project will develop multivariable, robust control for the SOFC/gas turbine hybrid system. Banta’s controller will optimize the hybrid system performance while safeguarding against compressor instabilities that could damage or destroy the fragile SOFC system.
Mechanical and Aerospace Engineering
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FACULTY
THOMPSON
Modernizing the Undergraduate Curriculum by Offering new Specialty Degree Tracks PERHINSCHI
Faculty
West Virginia University’s Department of Mechanical and Aerospace Engineering has begun revising the instructional curriculum for both the mechanical and aerospace engineering programs. These revisions will allow students to gain a more individualized degree through a pillar of course tracks that will constitute an area of specialization. Gregory Thompson, associate professor in mechanical engineering and chair of the mechanical engineering curriculum committee and Mario Perhinschi, associate professor in aerospace engineering and chair of the aerospace engineering curriculum committee are spearheading these area-specific programs designed with a focus on enhancing career and workforce preparation.
Currently the mechanical engineering program provides a base curriculum for all students, that covers the breadth of mechanical engineering. The proposed revisions of the curriculum content will continue to meet the foundation course requirements, but starting in their junior year, students will have the opportunity to choose from five area-specific degree tracks that provide greater depth in the following specialties: design and manufacturing, energy, controls and robotics, biomedical, and materials. The proposed aerospace engineering curriculum will have two area-specific degree tracks that students may choose prior to their junior year: one emphasizing aeronautics and another emphasizing astronautics. Two of the department’s newest faculty, assistant
professors John Christian and Alfred Lynam, are in the process of designing new courses focused on spacecraftbased systems. If the proposed changes are accepted, students choosing the aeronautics track will take a sequence of courses nearly identical to the current program, while students choosing the astronautics track will take different, space-focused courses in flight dynamics, propulsion, and design.
CHRISTIAN
With the dual-MAE degree option currently offered as a five-year program at WVU, students would continue to have the opportunity to select from area-specific tracks within both programs.
LYNAM
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MAE Annual Report
2012-2013
WVU Benjamin M. Statler college of Engineering and mineral resources
Mechanical and Aerospace Engineering
FACULTY AND STAFF ACCOMPLISHMENTS 2012-2013
sabolsky
Kuhlman
SOLLEY
2012-13 George Weaver Award
Statler College Outstanding Teacher Award
Statler College Outstanding Advisor Award
Edward Sabolsky
John Kuhlman
Dave Solley
This award is given in recognition of excellent teaching of courses in engineering mechanics. Engineering mechanics includes the subjects of statics, dynamics, and mechanics of materials, which form the foundation of several engineering disciplines.
This award was originally created by students seeking a way to recognize teachers who made significant contributions to their lives and education. The College continues this tradition by recognizing faculty that make major contributions to the teaching mission and provide outstanding classroom experiences to their students.
The recipient of this award is chosen from the list of outstanding advisors and most exemplifies the mission of the College in helping students achieve their educational goals.
WU
Statler College Outstanding Researchers Award
Xueyan Song Nianqiang “Nick” Wu The recipients are chosen by a committee of their peers based on their research activities and their mentoring of graduate students for this year, as well as the continuity of quality research over a several-year period.
Perhinschi
21th Annual Academy of Distinguished Alumni Teaching Award
Mario Perhinschi This award is given to a teacher that works to expand student’s knowledge beyond the curriculum. The Promotion and Tenure Committee of the Department nominates a candidate for this prestigious award.
Staff Employee of the Year
Chuck Coleman This award recognizes staff members who work tirelessly to ensure the department runs smoothly. These members are recognized for their overall exceptional performance and their willingness to go beyond the basic requirements of their positions.
FacultyAccomplishments
SONG
coleman
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Graduates 2011-2013 Benjamin m. Statler College of Engineering and Mineral Resources Degrees Awarded
Graduates
2011-2012
Bachelor of Science in Aerospace Engineering Skye Kendall Baber Joseph Salvatore Close Jeffrey William Conrad* David Elias Debusca Rebecca Caitlyn Durham** Joseph P. Dygert Lee W. Eltringham Carla Ann Feragotti Michael Andrew Filter Patrick Jackson Fluharty Nathaniel David Gandee Jason Curtis Hamilton* Brent William Hedrick Christopher Edward Heim* Russell Jeffrey Kight Trenton Jameson Larrabee* Brandon Lee Lewis* Robert Frye Lilly, III Mark Edward Magee*** Nicholas Guido Mariani*** Mitchell Gaetano Marozzi Wade Michael Mendoza Michael James Nussbaum** Rex Dean Persinger*** James Andrew Reil** Timothy William Repko** Coty Michael Riffle Chad David Sachleben Stephen Alexander Schramm Zachary Louis Seamon** Jon Stephen Taylor** David Edward Turner* Zachary Alexander White Tyler Davis Witmer* Mark William Wroblewski** Bachelor of Science in Mechanical Engineering Jeremy David Alcott Williams Tyler J. Alokonis
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MAE Annual Report
Stephen James Andursky David Scott Arboneaux Mohammad Monther Asad Skye Kendall Baber Nicholas Alexander Barnett Matthew C. Barrow Christoper Carson Bartley Justin Walter Berry Joshua Joseph Boker Philip James Brainard Tod Steven Camara*** Timothy Joseph Connors Jeffrey William Conrad* Mark Robert Coulson Joshua T. Davis David Elias Debusca Anthony Joseph Del Rocco Alexander Robert Dembski Joseph P. Dygert Clifton Conrad Edwards Nicholas Thomas Ellis Lee W. Eltringham Chris M. Engler Jeffrey Norbert Esker* Curtis Allen Evick Carla Ann Feragotti Michael Andrew Filter Patrick Jackson Fluharty Angela Cristine Foehrkolb Nathaniel David Gandee Matthew Ray Gapen Jason Curtis Hamilton* Andrew Joseph Hammond Joseph Jebrine Hasan Stephen Andrew Hayes Jared Michael Heilman Christopher Edward Heim* Michael Everett Hellyer Eric Nolan Huffaker Tyler Scott Jacobsen Zachary Louis Kamen David Patrick Kannapel Mohamed Ahmed Khoori
2012-2013
Russell Jeffrey Kight Kevin Weller Kramer Dev Raj Kumar Trenton Jameson Larrabee* Brandon Lee Lewis* Robert Frye Lilly, III Andrew Richard Lucas James Edgar Ludovici Kevin Luo*** Mark Edward Magee*** Joseph Harry Maldonado Joseph D. Marconi** Nicholas Guido Mariani*** Mitchell Gaetano Marozzi John Timothy Martin Jerry Hunter Mason*** Joseph Michael Matheny* Jordan Christopher Matijevich Joshua Robert Matthews David L. McGrain Wade Michael Mendoza Matthew Raymond Michael Arthur Robert Minnick Ronald Andrew Mongold** Cory James Morgan Michael Dennis Murphy Annamarie Elizabeth Murray Anand Narayanan Michael James Nussbaum** Nicholas Mark Ouellette Anthony Joseph Paletta, Jr. Donald Allen Palo Stephen Michael Parker Rex Dean Persinger*** Nicholas Haven Pivar Nathan Edward Price Andrew Steven Pustay Mina Hany Rafla Timothy William Repko** Ryan Lee Respet Coty Michael Riffle Garrett Tyler Rinker*** Daniel David Rivenbark, Jr.
Matthew Curtis Robinson*** Taylor Davidson Rush Chad David Sachleben Zachary Louis Seamon** Brandon David Shreves Michael William Snyder Steven James Sucevich Jon Stephen Taylor** David Andrew Thompson Travis Lee Thompson Jeremiah James Trinone David Edward Turner* David Thomas Vanderwijst* John Michael Vassiliou* Rodi Vis** David Weichsel** Christopher Michael White Zachary Alexander White Gifford Roy Williams Jason Lee Williamson Mark William Wroblewski** Andrew Jay Young Master of Science in Aerospace Engineering Francis James Barchesky Frederick Martin Beamer Ondrej Karas Zachary James Merceruio Daniele Tancredi Master of Science in Mechanical Engineering Prabash Eroshana Abeyratne Praveen Reddy Baddam Ramamoorthy Balakrishnan Peter Bonsack Xueqin Chen Chia-Nung Chou Matthew Allen Cunningham Karthik Reddy Dandu Nithin Jose Nathan Kimble Jaclyn N. Kokx
Anveeksh Koneru Phillip Ryan McElfresh Brock A. Merritt Robert Francis Minehart III Robert Gordon Murphy Nathan Synnott Music James Robert Perry Adam Russell Sayres Perry L. Spaur II Ganesh Vadula Zhou Xin Jinlong Yan Tian Zhang Doctor of Philosophy in Aerospace Engineering Adi Adumitroaie Meagan Lynne Hubbell Doctor of Philosophy in Mechanical Engineering Nicholas Jaye Hansford Gulfam Iqbal Derek Ross Johnson Aaron Joshua Kessman John Sandro Rivas Murillo
2012-2013
Bachelor of Science in Aerospace Engineering Corey Thomas Ash Frank Anthony Avenoso, Jr., Kyle Matthew Beckett Sean David-Andrew Belardo Robert Aloysius Bianchi Nelson Alberto Bonilla Michael James Brooks Trevor W. Caplinger** Joseph Anthony Castaldo Travis Michael Corwell Spencer Quentin Elyard** Evan Daniel Ford*** Dustin Joseph Frohnapfel***
WVU Benjamin M. Statler college of Engineering and mineral resources
Bachelor of Science in Mechanical Engineering McKinley Lee Adkins Omar Mohammed Alajmi Omar Saqer Al-Mutairi Mohammed Jawad Anbari* Corey Thomas Ash Frank Anthony Avenoso, Jr.
Mohammad Bahzad* Kyle Matthew Beckett Sean David-Andrew Belardo Sheldon Michael Blackshire Jonathan Ross Blanton Mark Patrick Boardman Michael Warren Boggs Matthew Thomas Boots*** Luke Zachary Bowman Charles Abbott Bright Joseph Martin Bright*** Michael James Brooks Robert Scott Buckholtz Joseph Anthony Castaldo Justin Ronald Chambers** Thomas Lowell Clark Matthew Dale Clause Buchanan Travis Michael Corwell Charles Joseph Diable, II Benjamin Philip Dillaman Spencer Quentin Elyard** Yasir Abdulrahim Farhat Evan Daniel Ford*** Michael Jacob Frawley Ryan David French Brandon Tyler Friend Dustin Joseph Frohnapfel*** Ashley Marie Ganskopp David Tyler George* Adrienne Golembiewski Alexander Samson Goodman Lucas Taylor Goodwin Andrew Julian Goossens Daniel David Griffin*** Caraline Fain Griffith Ibrahim Baker Habadi John Thomas Hailer** Brendan McNeil Harness Tyler Lee Hartman Sean Thomas Hilty Logan John Hintze Luke Aaron Hintze Jared Robert Hoffmann
Andrew Wayne Hoover *** Trevor Walter Hubbell Drew Curtis Hurst** Alexander Trenor Hypes Mark David James*** Eric Wayne Johnson Chad Wesley Jones*** Michael Thomas Jordan, III** Stephen Lorimer Joyce Matthew Thomas Kimble* Calvin Jacob Klaski Andrew Thomas Korenkiewicz Justin Michael Kuster Brandon Thomas Lane David Andrew Lang Jessica Marie Lankford** Bryan Denver Layfield*** Seth Cameron Leffel Jeremy C. Lerose Katherine Patricia Lingg Keith Delano Little Caleb Michael Lucas Ronnie Allan Mayhorn, II Brody Logan McCann Matthew James Milanese*** Arthur Randolph Mowery Andrew David Mull Christine Cohane O’Brien Byron Wain Patterson*** Jeremy Nicholas Pepper** Nicholas Joseph Phipps Benjamin David Pitzer Michael Allen Powell Benjamin Nathan Province* Nathan Cole Ramsey Brian Harrison Ranft Caleb Michael Rice* Kathryn Marie Riley Taylor James Roberts* Logan Albert Robertson** Jonathan Rojas Adam Chase Rothlisberger Brandon Mathew Rudy
Brandon M. Russell Andrew T. Russell Russell Richard Safreed, IV Zachary Paul Santer*** Matthew David Schmidt*** Harith Bahaman Shah* Victor Oli Sivaneri* Matthew Bowman Smith Clinton Patrick Smith*** Eric Michael Smithberger** Sean Paul Snedegar Philip Wesley Spencer Edward Lyon Stettinius Joshua Levi Stombock Miranda Nannette Straub** Kyle Robert Thomas Matthew Colin Underwood* Harold Lloyd Vass Alex Peder Walter Squires* Adam Glenn Ward Nathan Paul Weese Rowan Morgana Weiblen Brendan James Williams Jennifer Leigh Williams* Austin Lee Winn Michael Stuart Wise Collins Foster Youngblood Master of Science in Aerospace Engineering Jeremy Austin Luckett Amanda McGrail Zachary Galen Napolillo Diego Palacio William Vogel
Raphael William Alwi Dodrill Sodith Kumar Reddy Gandavarapu Phillip Michael Gansor Megan Gorrell Sai Praneeth Gunturu Edward R. Jackson Sean Lockard Vijaymaran Manickam Dumbi Otunyo Volkan Ozyar Kevin Louis Peil Mark Shoukry Douglas Ward Jackson Wolfe Ruizhi Zhong Doctor of Philosophy in Mechanical Engineering Theodros Sisai Bejitual Song Chen Huang Guo Jonathan Kweder Ming Li Yihong Li Andrew Lowery Kevyn Campbell McBride Oscar Francisco Delgado Neira Arvind Thiruvengadam Padmav Ahmed Mohamed Sayed Christina Wildfire Jun Tu Feng Zhen
Master of Science in Mechanical Engineering Derrick Allan Banerjee Andres Cavezza Fernando Cosso Sean David Cronin Elizabeth Emma DeFusco Manoj Kumar Dobbala *Cum Laude
** Magna Cum Laude
***Summa Cum Laude
Graduates
Ashley Marie Ganskopp Andrew Mark Garrett* David Tyler George* Alexander Samson Goodman Lucas Taylor Goodwin Andrew Julian Goossens Caraline Fain Griffith Tyler John Hagen* Robert Brandon Hamilton Tyler Lee Hartman Sean Thomas Hilty Logan Tyler Holshey*** Mark David James*** Andrew Johnson Matthew Thomas Kimble* Nicholas James Linville Steven Michael Majstorovic*** Matthew James Milanese*** Mohanad Al Nuaimi Byron Wain Patterson*** Jeremy Nicholas Pepper** Brian Harrison Ranft Caleb Michael Rice* Logan Albert Robertson** Zachary Paul Santer*** Justin Ross Shirkey Victor Oli Sivaneri* Clinton Patrick Smith*** Eric Michael Smithberger** Kyle Robert Thomas Matthew Colin Underwood* Alex Peder Walter Squires* Andrew James Wilhelm Amir Ali Ahmad Zainal
Mechanical and Aerospace Engineering
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ALUMNI Aerospace Engineering Academy of Distinguished Alumni DML James H. Rodman, Jr.
Terri L. Tramel
BSAE 1984, WVU MSTM 2005, University of Pennsylvania JD 1991, Villanova University
BSAE 1985, WVU MSME 1989, University of California-Davis PhD 2001, University of Tennessee-Knoxville
Rear Admiral James H. Rodman, Jr. earned his bachelor’s degree in aerospace engineering from West Virginia University in 1984, his juris doctorate from the Villanova University School of Law in 1991, and his executive master’s in technology management from the University of Pennsylvania’s Wharton School and School of Engineering and Applied Science in 2005.
Terri (Brock) Tramel earned her bachelor’s degree in aerospace engineering from WVU in 1985. One of the first women to join a United States Air Force program designed to recruit more engineers, Brock reported for officer training to Lackland AFB in Texas after graduation. While in the Air Force, she worked in turbine engine test data analysis until an injury forced her retirement from the military.
RODMAN
DistinguishedAlumni
After receiving his direct commission into the engineering duty officer (EDO) program in 1985, Rodman reported to Philadelphia Naval Shipyard 104 as an EDO in training and assistant ship superintendent. In 1988, he reported to Naval Ship Systems Engineering Station 104 as a project officer and completed his EDO qualification. Rodman transferred to Naval Weapons Station, in Earle, N.J., in 1993, where he served as ordnance safety officer and commanding officer of WEAPSTA EarleDet601EOT. In 1996, he joined the Space and Naval Warfare Program and was assigned to Space and Naval Warfare Systems Command (SPAWAR) 0366 at the National Reconnaissance Office (NRO) serving as the gaining command liaison officer for NRO’s Operational Support Office.
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In 2001, Rodman received orders to Naval Network and Space Operations Command (NNSOC) 0766, where he served as operations and executive officer. In 2003, he returned to the NRO as executive officer of SPAWAR0866. He assumed command of Naval Network Warfare Command (NETWARCOM) Network Engineering (formerly NNSOC0266) in 2004, providing architecture, systems engineering, and integration support to NETWARCOM’s worldwide space and terrestrial communications enterprise. In 2006, Rodman assumed command of SPAWAR0466, supporting program executive officer space systems and SPAWARPMW-146 in the assembly, integration, and testing of the Mobile User Objective System. In 2008, he served as space domain director on the national staff of the Navy Net-Centric Warfare Group (NNWG) and in 2009, was named NNWG’s vice commander. He returned to active duty in 2011 as SPAWAR’s Chief Engineer. Rodman’s decorations include Meritorious Service Medal (two gold stars), Joint Service Commendation Medal, Navy and Marine Corps Commendation Medal (three), and the Navy and Marine Corps Achievement Medal.
MAE Annual Report
2012-2013
TRAMEL
She took a position as a quality engineer with Aerojet Corporation, working on solid propulsion systems for the MX missile. She also began work on her master’s in mechanical engineering, specializing in aerospace sciences, at the University of California, Davis. Upon completion of her degree in 1989, she began to perform research on the national aero-space plane (NASP) with the TechSystems division of Aerojet. In 1991, Tramel moved to Sverdrup Technology Corporation and was assigned to the Arnold Engineering Development Center in Tennessee to continue work on the NASP. In 1996, Tramel was promoted to analysis engineer and performed a variety of work, primarily with propulsion and turbine engines. In 1997, she began work on her doctorate at the University of Tennessee, focusing on laser processing of materials. Her dissertation, completed in 2001, centered on laser surface alloying technologies for metals. Since 2000, Tramel has been employed at NASA’s Marshall Space Flight Center in Huntsville, Ala. She has performed increasing levels of technical leadership within NASA over the past 12 years, including serving as the system management leader for the Aries Launch System, as project manager for the LOX/methane rocket engine development project, and currently as the technical specialist at the laboratory level for all materials and materials processing projects. Tramel has made numerous presentations and published technical articles on laser alloying, cryogenic fluid management, various aspects of rocket propulsion and propulsion testing, and other technical- and management-related topics.
WVU Benjamin M. Statler college of Engineering and mineral resources
Mechanical and Aerospace Engineering
Mechanical Engineering Academy of Distinguished Alumni Thomas E. Watson
Visiting Committee
BSME 1966, Virginia Tech MSME 1969, WVU After earning his bachelor’s degree in mechanical engineering from Virginia Tech in 1966, Thomas Watson completed his master’s degree in the discipline from West Virginia University in 1969. He served in the United States Army as an ordnance officer until 1972, when he joined McQuay International at its Staunton, Va., facility.
WATSON
Watson has worked his way up the ranks in McQuay, providing technical and management leadership in the design and manufacture of refrigeration and air conditioning equipment, including several generations of controls. Initially, he worked as a product engineer, responsible for both reciprocating and centrifugal chillers. His responsibilities included work on pressure vessel codes, electrical controls, and refrigerant controls. He was promoted to senior design engineer, performing research and development on centrifugal compressors, including rotor dynamics, lubrication, bearing design, and compressor aerodynamics. He also worked on solid state controls and microprocessor controls for centrifugal chillers. In 1980, Watson was promoted to manager of product engineering, and in 1984 he became engineering manager, responsible for all engineering and laboratory functions in the Staunton facility.
Robert Aquaro Tracy Baker John Benner Gregg Corley Christine Cropp David Doman Gary Fleming William Fourney Mark Horstemeyer Neil Jubeck Richard Kleine Abbie Layne Robb Lenhart James Lewis Aubra McKisic Tim Pawlak James Snider John Tomblin Bob Welch Scott Wenger
Robert J. Aquaro & Associates, LLC Progressive Energy Los Alamos National Laboratory ATK Tactical Systems Company Arion Systems, Inc. AFRL/RBCA NASA Langley Research Center University of Maryland Mississippi State University Naval Air Warfare Center (retired) Cummins U.S. Department of Energy (retired) IBM U.S. Naval Test Pilot School Trinity Tank Car, Inc. ANSYS, Inc. AAI Corporation Wichita State University Toyota Motor Manufacturing, West Virginia, Inc. NASA
Since 1997 Watson has served as chief engineer, involved in global new product development, supporting facilities in China, Japan, Italy, and North American. He holds five patents related to refrigerant, gas, and chiller compressors and is a licensed professional engineer in the Commonwealth of Virginia.
DistinguishedAlumni
Watson also has a long and distinguished record of service to the primary professional society in his field, the American Society of Heating, Refrigeration and Air Conditioning Engineers (ASHRAE). A member since 1972, Watson now serves as president of ASHRAE, a building technology society founded in 1894 with more than 50,000 members worldwide. En route to the presidency, he served on and chaired more than a dozen technical committees, served on the Board of Directors, and was elected to the rank of Fellow in the society in 2008.
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Editorial and Professional Service EDITORIAL BOARDS V’yacheslav Akkerman, co-editor, Physical Review E; co-editor, Combustion & Flame; co-editor, Energy and Fuels; co-editor, Combustion Theory & Modeling; coeditor, Physics of Plasmas; co-editor, Journal of Aerospace Engineering; co-editor, Chemical Engineering Science; co-editor, Journal of Mechanical Engineering Science; co-editor, Journal of Power & Energy
of the American Ceramics Society; reviewer, Materials Characterization; reviewer, Applied Physics Letters; reviewer, Journal of Alloys and Compounds
Brad Seanor, reviewer, ASCE Journal of Aerospace Engineering
Patrick Browning, reviewer, ASME Turbo Expo 2012; reviewer, AIAA Journal
Samir Shoukry, reviewer, Composites Part B; reviewer, Transportation Research
Darran Cairns, reviewer, Portuguese Foundation for Science and Technology John Christian, reviewer, 2013 AIAA GNC Student Paper Award; reviewer, Journal of the Astronautical Sciences; reviewer, Journal of Guidance, Control, and Dynamics; reviewer, Journal of Small Spacecraft
Record; reviewer, Journal of Bridge Engineering
Kostas Sierros, reviewer, IEEE Transactions on Device and Materials Reliability; reviewer, Renewable & Sustainable Energy Reviews; reviewer, Applied Surface Science James Smith, associate editor, SAE International Journal of Engines; editorin-chief, International Journal of Innovation Studies; associate editor, The International Journal of Computers and Their Applications
Nigel Clark, reviewer, Society of Automotive Engineers – Conference Paper; reviewer, International Journal of Hydrogen Energy; reviewer, Ambient Ultrafine Particles: An HEI Perspective
Xueyan Song, reviewer, Nanoscience and Nanotechnology; reviewer, Journal of
Yu Gu, reviewer, Journal of Aeronautics & Aerospace Engineering
Greg Thompson, reviewer, International Journal of Sustainable Transportation;
Wade Huebsch, reviewer, Journal of Aerospace Engineering Bruce Kang, reviewer, Applied Surface Science; reviewer, International Journal of Hydrogen Energy
David Lewellen, reviewer, The Bulletin of the American Meteorological Society; reviewer, Monthly Weather Review; reviewer, The Quarterly Journal of the Royal Meteorological Society; author/reviewer, Annual Review of Fluid Mechanics
Editorial and Professional Service
Edward Sabolsky, reviewer, Journal of Materials Science; reviewer, Journal
Larry Banta, reviewer, Journal of Power Sources; reviewer, ASME International Conference on Fuel Cell Science, Engineering, and Technology of Aircraft; reviewer, Journal of Guidance, Control, and Dynamics; reviewer, SAE 2012 Aerospace and Defense Ground Support Equipment Conference
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Mario Perhinschi, editorial board member, The Scientific World Journal – Aerospace Engineering; member, Recent Patents on Space Technology; editorial board member, International Scholarly Research Network Aerospace Engineering; editorial board member, Immune Computation
Hailin Li, reviewer, Applied Energy; reviewer, International Journal for Engine Research; reviewer, International Journal of Green Energy; reviewer, International Journal of Mechanical and Materials Engineering; reviewer, International Journal of Sustainable Engineering; reviewer, International Journal of Hydrogen Energy; reviewer, Journal of Energy Conversion and Management; reviewer, ASME Transaction Journal of Energy Resource Technology; reviewer, International Journal of Engineering and Technology Innovation; reviewer, ASME IBED 2012 Fall Conference
Alfred Lynam, reviewer, SAE Aerospace Journal Ken Means, reviewer, NIOSH Journal; reviewer, Asia Pacific Journal of Chemical Engineering; reviewer, Polish Journal of Chemical Technology
Victor Mucino, reviewer, SAE Transactions; reviewer, Research Proposals for Council for Science and Technology of Queretaro
Sam Mukdadi, associate editor, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control
Marcello Napolitano, reviewer, 2012 AIAA GNC Conference; reviewer, 2012 AIAA MST Conference; reviewer, AIAA Journal of Guidance, Dynamics, and Control; reviewer, IEEE Control System Technology; reviewer, IEEE Transactions on Aerospace Electronic Systems
MAE Annual Report
2012-2013
the American Ceramic Society reviewer, Journal of Automobile Engineering; reviewer, SAE International
Scott Wayne, reviewer, Elsevier Journal of Fuel Nathan Weiland, merit reviewer, U.S. Department of Energy, 2013 Project Peer Review in Gasification Technology Area; reviewer, Energy & Fuels, Combustion Science and Technology; reviewer, Journal of Energy Resources Technology; reviewer, Journal of Propulsion and Power; reviewer, Fuel Processing Technology; reviewer, Energies; reviewer, ASME IMECE Conference; reviewer, ASME Turbo Expo Conference; reviewer, NETL (University Turbine Systems Research Proposals)
Nick Wu, editorial board member, Interface
PROFESSIONAL SERVICE Patrick Browning, committee member, Society of Automotive Engineers on AeroTech Unmanned Aerial Systems
Darran Cairns, member, Ad Hoc Committee Scout Jamboree Science Behind the Sport
Ismail Celik, member, ASME; member, Organizing Committee for the American Physics Society Division of Fluid Dynamics; theme leader, U.S.-China Clean Energy Center Advanced Coal Technology Consortium John Christian, chair, Sensor Systems for Guidance, Navigation, and Control Technical Area 2013 AIAA Guidance, Navigation, and Control Conference; chair, Invited Session on “LIDAR Sensors for Spacecraft Navigation” 2013 AIAA Guidance, Navigation, and Control Conference; member, AIAA Society and Aerospace Technology Technical Committee Nigel Clark, committee member, National Academies Committee on Medium and Heavy-Duty Vehicle Fuel Consumption, Part 2; member, West Virginia Governor’s Task Force on Natural Gas Vehicles; panel moderator, Natural Gas as the Bridge to Sustainability and Economic Growth
Yu Gu, senior member, American Institute of Aeronautics and Astronautics; member, Institute of Electrical and Electronics Engineers Wade Huebsch, senior member, AIAA; member, Sigma Xi Bruce Kang, member, ASME; member, TMS; member, SEM John Kuhlman, associate fellow, AIAA; member, ASEE; WVU chapter advisor, Tau Beta Pi
David Lewellen, chair, American Meteorological Society for 26th Conference on Severe Local Storms Hailin Li, member, SAE; member, American Society of Mechanical Engineers; member, Board of Associates of ASME I.C. Engine Division; member, Combustion Institute
Alfred Lynam, member, American Institute of Aeronautics and Astronautics; member, American Astronautical Society
Ken Means, life member, ASME; life member, American Society of Heating, Refrigeration, and Air Conditioning Engineers (ASHRAE); member, Tau Beta Pi; member, Sigma Xi; chairman, National Council for Examiners of Engineering and Surveying (NCEES); advisor, Society of Automotive Engineers (SAE)
David Mebane, member, Materials Research Society; member, Society for Industrial and Applied Mathematics Gary Morris, member, AIAA; member, ASME; member, National Association of
Daneesh Simien, panelist, NSF Nithi Sivaneri, panel member, NSF Graduate Fellowship Program; panel member, NASA Aeronautics Scholarship Program James Smith, co-chairman, 2012 SAE International Congress and Exhibition on New SI Engine and Component Design; panelist, TransTech Energy Business Development Conference; advisory board member, Marcellus Utica Vehicle Association Xueyan Song, session chair, TMS 2012 of MS&T; member, MRS; member, Microscopy and Microanalysis; member, ASEE; member, Electrochemical Society
Greg Thompson, member, SAE; member, ASME; member, Sigma Xi; member, ASEE
Scott Wayne, member, SAE International; member, ASEE Nathan Weiland, member, The Combustion Institute; member, Coal, Biomass, and Alternative Fuels Technical Committee for the ASME Turbo Expo Conference; chair, ASME Turbo Expo Conference Session 3-1 “Deposition and Modeling of Alternate Fuels in Gas Turbines�; member, ASME
Nick Wu, secretary, Sensor Division in the Electrochemical Society
ASME FELLOWS
Patent Practitioners
Ever Barbero, professor
Victor Mucino, member, Board of Directors SAE; member, Mexican Academy of
Ismail Celik, professor
Engineering, Active in Global Affairs of the Academy
John Kuhlman, professor
Sam Mukdadi, conference organizer, ASME International Mechanical
James E. Smith, professor
Engineering Congress and Exposition HPC Steering Committee
SAMPE FELLOWS
Marcello Napolitano, member, AIAA
Ever Barbero, professor
Andrew Nix, past chair, ASME International Gas Turbine Institute (IGTI) Aircraft Engine Committee; vanguard chair, ASME IGTI Heat Transfer Committee; technical track chair, ASME Summer Heat Transfer Conference in Gas Turbine Heat Transfer; reviewer, ASME IGTI and AIAA Gas Turbine Engine Technical Committee
SAE FELLOWS
Jacky Prucz, member, ASEE; member, ASME-Mechanical Engineering Department Heads Committee
James E. Smith, professor
Edward Sabolsky, co-chair, The American Ceramic Society Electronic Materials and Applications Conference; co-chair, The Electrochemical Society; president elect, American Ceramic Society; member, The American Ceramics Society; member, The Electrochemical Society
Brad Seanor, member, AIAA Samir Shoukry, member, ASME; member, ASCE; member, FAA Airport Pavement Committee
Kostas Sierros, member, Materials Research Society; member, ASME; member, Society of Information Display; member, Society of Advancement of Materials and Process Engineering
Nigel Clark, professor and Berry Chair
INSTITUTE of MECHANICAL ENGINEERS FELLOWS James Smith, professor
Editorial and Professional Service
Terence Musho, member, ASME; member, AVS; member, ASEE; member, WVU
23
Journal Papers Published 2012 Adumitroaie, A. (*) and Barbero, E.J., “Stiffness and Strength Prediction for Plain Weave Textile Reinforced Composites,” Mechanics of Advanced Materials and Structures, 19:169–183, 2012, http://dx.doi.org/10.1080/15376494.2011.57 2245 Aung, N.N.*, Liu, X, “High Temperature Electrochemical Sensor for In-situ Monitoring of Hot Corrosion,” Corrosion Science 65 (2012) 1-4 Bakhoum, E.G., and Cheng, M.H. “MEMS Acceleration Sensor with Large Dynamic Range and High Sensitivity,” IEEE J. of Microelectromechanical Systems 21.5 (2012): 1043-48, print Bakhoum, E.G. and Cheng, M.H., “Miniature Moisture Sensor Based on Ultracapacitor Technology,” IEEE trans. on Components, Packing and Manufacturing Technology 2.7(2012): 1151-57, print Barbero, E.J. and Campo, F. (*), “Sol-GelSimulation—II: Mechanical Response,” J. Non-crystalline Solids, 358 (4), February 2012, 728–734, http://dx.doi. org/10.1016/j.jnoncrysol.2011.12.005 Bejitual, T.S.*, Ramji, K., Kessman, A.J.*, Sierros, K.A., Cairns, D.R., “Corrosion of an amorphous indium tin oxide film on polyethylene terephthalate at low concentrations of acrylic acid,” Materials Chemistry and Physics, 132 (2012) 395-401 Bychkov, V., Akkerman, V., Valiev, D., Law, C.K., “Gas Compression Moderates Flame Acceleration in Deflagration-to-Detonation Transition,” Combustion Science and Technology 184 (7-8), 1066–1079 (2012) Campo, F. (*) and Barbero, E.J., “Sol-GelSimulation—I: Scattering Response,” J. Non-crystalline Solids, Volume 358, Issue 4, 15 February 2012, pages 721-727, http://dx.doi.org/10.1016/j.jnoncrysol.2011.10.023 Cayan, F., Pakalapati, S.R., Celik, I., Xu, C., and Zondlo, J., “A Degradation Model for Solid Oxide Fuel Cell Anodes Due To Impurities In Coal Syngas: Part I Theory And Validation,” Fuel Cells, v. 12, n. 3, p. 464-473 (2012) Chen, S., Song, X., Chen, X.,Chen, Y., Barbero, E., Thomas, E.L., Barnes, P., “Effect of precursor calcination temperature on the microstructure and thermoelectric properties of Ca3Co4O9 ceramics,” J Sol-Gel SciTechnol, DOI 10.1007/s10971-012-2894-4, 2012 Cheng, M.H., Guo, G., Banta, L.E., and Bakhoum, E.G., “Identification of Arm Locomotion and Controller Synthesis for Assistive Robotic Systems,” ICIC Express Letters, vol. 6, no. 10, October 2012, pp. 2659-2665
JournalPapers
Cushing, S.K.*, Li, J.,*, Meng, F.,*, Senty, F.R.+, Suri, S.*, Zhi, M.*, Li, M.*, Bristow, A.D., Wu, N.Q., “Photocatalytic activity enhanced by plasmonic resonant energy transfer from metal to semiconductor,” Journal of the American Chemical Society, 134 (2012), 15033-15041
24
Darrah, M., Fuller, E., Thilanka, M.*, Duling, K., Gautam, M., “Using Genetic Algorithms for Tasking Teams of Raven UAVs,” Journal of Intelligent and Robotic Systems, doi 10.1007/s10846-012-9696-3, July 20, 2012
Gong, M., Gemmen, R., Liu, X., “Modeling of Oxygen Reduction Mechanism for 3PB and 2PB pathways at Solid Oxide Fuel Cell Cathode from Multi-step Charge Transfer,” Journal of Power Sources 201 (2012) 204-218 Gross, J.*, Gu, Y., Rhudy, M.*, Gururajan, S., and Napolitano, M.R., “Flight Test Evaluation of Sensor Fusion Algorithms for Attitude Estimation,” IEEE Transactions on Aerospace and Electronic Systems, vol.48, no.3, pp. 2128-2139, July 2012 Gutierrez, J.M.(*), E.J. Barbero, D.R. Cairns, V.H. Mucino, and J.A. Mayugo(+), “Dynamic Roughness and Power Dissipation of Polymer Films Actuated with Liquid Crystal Polymer Inclusions,” Smart Mater. & Structures, vol. 21, Nov. 2012, pp. 1-11, http://dx.doi.org/doi:10.1088/0964-1726/21/1/015003 Hackett, G.A.+, Gerdes, K., Song, X.,Chen, Y., Shutthanandan, V., Engelhard, M., Zhu, Z., Thevuthasan, S., Gemmen, R., “Performance of solid oxide fuel cells operated with coal syngas provided directly from a gasification process,” Journal of Power Sources, 214, 142-152, 2012 Hamilton, R.F.+, Buford, M.+, Xiang, C.*, Wu, N.Q., and Holian, A.+, “NLRP3 inflammasome activation in murine alveolar macrophages and related lung pathology is associated with MWCNT nickel contamination,” Inhalation Toxicology, 24, 2012, 995-1008 Huebsch, W.W., Gall, P.D., Hamburg, S.D., Rothmayer, A.P., “Dynamic roughness as a means of leading edge separation flow control,” AIAA Journal of Aircraft, vol. 49 (1), 2012, pp. 108-115 Jiang, L., Li, Y., and Cheng, M.H., “Analysis of Piezoelectric Energy Harvesting Device with Adjustable Resonance Frequency.” J. of Electronics (China) 29.3/4, 2012, 310-18, print Johnson, D., Ayre, L., Clark, N.N., Balon, T., and Moynihan, P., “Diesel Exhaust Aftertreatment with Scrubber Process: NOx Destruction,” SAE International Journal of Engines, August 2012, vol. 5, pp. 782-789 Kessman, A.J.*, DeFusco, E.E.*, Hoover, A.W.*, Sierros, K.A., Cairns, D.R., “Structural, mechanical and tribological properties of fluorinated mesoporous silica films: Effect of functional moiety and surfactant template concentrations,” Thin Solid Films, 520 (2012) 3896-3903 Kweder, J., Luzader, Z., Spencer, M.S.*, Lowery, A.D., Smith, J.E., “The Development and Experimental Testing of Lift Augmented Propeller,” International Journal Of Engineering and Innovative Technology, Paper ID: IJEIT, ISSN: 22773754, vol. 2, issue 5, pp. 125-134, November 5, 2012 Li, H., Neill, W.S., Chippior, W., and Taylor, J.D., 2012, “An Experimental Investigation of HCCI Combustion Stability using n-Heptane,” Transaction of ASME, Journal of Energy Resources Technology, vol. 134 (2012), 022204, issue 2, 8 pages Li, J.*, Meng, F.*, Suri, S.*, Ding, W.+, Huang, F. +, Wu, N.Q., “Photoelectrochemical performance enhanced by nickel oxide-hematite p-n junction photoanode,” Chemical Communications, 48 (2012), 8213-8215
Delgado, O.F., Clark, N.N., and Thompson, G.J., “Heavy Duty Truck Fuel Consumption Prediction Based on Driving Cycle Properties,” International Journal of Sustainable Transportation, vol. 6, pp. 1-24, November 2012, 338-361
Li, M.*, Cushing, S.K.*, Zhang, J.+, Lankford, J.*, Aguilar, Z.P. +, Ma, D.+, Wu, N.Q., “Shape-dependent surface-enhanced Raman scattering in goldRaman-probe-silica sandwiched nanoparticles for biocompatible applications,” Nanotechnology, 23 (2012), 115501
Gansor, P., Xu, C., Sabolsky, K., Zondlo, J.W, and Sabolsky, E.M., “Phosphine Impurity Tolerance of Sr2MgMoO6-Composite SOFC Anodes,” J. Power Sources 198, 7-13 (2012)
Li, M.*, Cushing, S.K.*, Zhou, X.+, Guo, S.+, and Wu, N.Q.,“Fingerprinting photoluminescence of functional groups in graphene oxide,” Journal of Materials Chemistry, 22, 2012, 23374-23379
Gatts, T., Liu, S., Liew, C., Ralston, B., Bell, C., and Li, H., 2012, “An Experimental Investigation of Incomplete Combustion of Gaseous Fuels of a Heavy-Duty Diesel Engine Supplemented with Hydrogen and Natural Gas,” International Journal of Hydrogen Energy, vol. 37 (2012), pp. 7848-7859
Li, M.*, Zhang, J.+, Suri, S.*, Sooter, L.J. +, Ma, D. +, Wu, N.Q., “Detection of adenosine triphosphate with an aptamer biosensor based on surface-enhanced Raman scattering,” Analytical Chemistry, 84, 2012, 2837–2842
MAE Annual Report
2012-2013
WVU Benjamin M. Statler college of Engineering and mineral resources
Mechanical and Aerospace Engineering
Liew, C., Li, H., Gatts, T., Liu, S., Xu, S., Rapp, B., Ralston, B., Clark, N.N., and Huang, Y., “An experimental Investigation of exhaust emissions of a 1999 Cummins ISM370 diesel engine supplemented with H2,” Journal of Engine Research, vol. 13, issue 2, April 2012, pp. 116-129
Rodríguez-Reséndiz, J., Mendoza-Mondragón, F., Gómez-Loenzo, R.A., Martínez-Hernández, M.A., Mucino, V.H., “An approach to motion control applications based on advanced programmable devices,” International Journal of Electrical Engineering Education 49 (3), pp. 243-259, 2012
Liew, C., Li, H., Liu, S., Besch, M.C., Ralston, B., Clark, N.N., and Huang, Y., “Exhaust Emissions of a H2-Enriched Heavy-Duty Diesel Engine Equipped with Cooled EGR and Variable Geometry Turbocharger,” Fuel, January 2012, vol. 91, no.1, pp. 155-163
Sabolsky, E.M., Razmyar, S., and Sabolsky, K., “Nano-ceria Enhancement of Bi2Cu0.1V0.9O5.35 (BICUVOX) Ceramic Electrolytes,” Mater.Lett.76, 47–50, 2012
Lindsley, W. G., Pearce, T. A., Hudnall, J.B.,Davis, K.A., Davis, S.M., Fisher, M. A., Khakoo, R., Palmer, J.E., Clark, K.E., Celik, I., Coffey, C.C., Blachere, F.M; Beezhold, Donald H. “Quantity and size distribution of cough-generated aerosol particles produced by influenza patients during and after illness,” Journal of Occupational & Environmental Hygiene, 9: 443-449, 2012 Liu, S., and Banta, L., “Estimator-Based LQR Control Model for Glass Fiber Furnace,” International Journal of Applied Glass Science, vol. 3, #3, Sept. 2012, pp. 275-286 Liu, S., Li, H., Gatts, T., Liew, C., Wayne, W.S., Thompson, G., Clark, N.N., and Nuszkowski, J., “An Investigation of NO2 Emissions from a Heavy-Duty Diesel Engine Fumigated with H2 and Natural Gas,” Combustion Science and Technology, vol. 184, December 2012, pp. 2008-2035 Lowery, A.D., and Smith, J.E., “Novel Magnetic Projectile Tracking Methodology Using a Single-Axis, Coplanar Sensor Network,” International Journal Of Engineering and Innovative Technology, Paper ID: IJEIT, ISSN: 2277-3754, vol. 2, issue 6, December 2012
Song, X., “Atomic structure and chemistry of dense nanoprecipitates in MgB2 superconductor,” Ceramic International, (2012) Song, X., Chen, Y., Chen, S.(*), Barbero, E.J., Thomas, E. L.(+), and Barnes, P.(+), “Significant enhancement of electrical transport properties of thermoelectric Ca3Co4O9+d through Yb doping,” Solid State Comm., vol. 152, issue 16, August 2012, pages 1509–1512, http://dx.doi.org/10.1016/j.ssc.2012.06.014 Thiruvengadam*, A. Besch*, C.M. Carder*, D., Oshinuga, A., Gautam, M., (2012), “Influence of Real-World Engine Load Conditions on Nanoparticle Emissions from a DPF and SCR Equipped Heavy-Duty Diesel Engine,” Environmental Science and Technology, 46, 1907-1913 Wang, D., Cai, R., Sharma, S., Jirak, J., Thummanapelli, S., Akhmedov, N., Zhang, H., Liu, X., Peterson, J., Shi, X.*, “Silver Effect in Gold (I) Catalysis: An Overlooked Important Factor,” Journal of the American Chemical Society 134, 2012, 9012-9019 Weiland, N. T., Means, N.C., and Morreale, B.D., “Product distributions from isothermal co-pyrolysis of coal and biomass,” Fuel, 94, 2012, 563-570
Lynam, A.E., Longuski, J.M., “Preliminary Analysis for the Navigation of MultipleSatellite-Aided Capture Sequences at Jupiter,” ActaAstronautica, vol. 79, OctoberNovember 2012, pp. 33-43
William, G.W., Shoukry, S.N.,Riad, M.Y.+, “Study of Thermal Stresses in Skewed Integral Abutment Steel Girder Bridges,” Structural Engineering International, vol. 22, no. 3, pp. 308-317, August 2012
Madireddy, M.R., Clark, N.N., and Schmid, N.A., “Novel technique to reconstruct instantaneous heavy-duty emissions,” Journal of Engine Research, vol.13, issue 2, April 2012, pp. 108-115
Wollenberg, L. + ,Jett, E.J. +, Wu, Y.*, Flora, D. +, Wu, N.Q., Tracy, T.+, and Gannett, P. +, “Selective filling of nanowell arrays fabricated using polystyrene nanosphere lithography with cytochrome P450 enzymes,” Nanotechnology, 23, 2012, 385101
Mahmoud, A., Sandoval, C., Teng, B., Schnermann, J., Martin, K., Mustafa, S., and Mukdadi, O., “High-resolution vascular tissue characterization in mice using 55 MHz ultrasound hybrid imaging,” Ultrasonics, 2012, in-press, appeared online Nov. 16, 2012 Meng, F.*, Hong, Z.+ , Arndt, J.*, Li, M., Zhi, M., Yang, F., Wu, N.Q., “Visible-light photocatalytic activity of nitrogen-doped La2Ti2O7nanosheets originating from band gap narrowing,” Nano Research, 5, 2012, 213-221
Nielsen, B.C., Gerdes, K., O’Connor, W., Song, X., and Abernathy, H., “Partitioning of Coal Contaminants in the Components of Liquid Tin Anode Solid Oxide Fuel Cells,” Journal of Power Sources, 211, 192-201, 2012 Pennestri, E., Mariti, L.+, Valentini, P.P., Mucino, V.H., “Efficiency evaluation of gearboxes for parallel hybrid vehicles: Theory and applications,” Mechanism and Machine Theory 49, pp. 157-176, 2012 Perhinschi M.G., Beamer F., “Flight Simulation Environment for Undergraduate Education in Aircraft Health Management,” Computers in Education Journal, vol. XXII, no. 3, July-Sept. 2012 Ren, N.+,Li, R., Chen, L. +, Wang,G. +, Liu, D. +, Wang, Y. +, Zheng, L. +, Tang, W. +, Yu, X. +, Jiang, H. +, Liu, H.+, and Wu, N.Q., “In-situ construction of titanate/silver nanoparticle/titanate sandwich nanostructure on metallic titanium surface for bacteriostatic and biocompatible implants,” Journal of Materials Chemistry, 22, 2012, 19151-19160
Yang, F., Geng, Z., Zhi, M., Koneru, A., Li, H., and Wu, N., 2012, “Dynamic Calibration of an Electrochemical Carbon Monoxide Sensor for Accelerated Analyte Quantification,” in press, IEEE Sensors Journal, accepted for publication on November 20, 2012 Zhi, M.*, Koneru, A.*, Yang, F., Manivannan, A. +, Li, J. +, Wu, N.Q., “Electrospun La0.8Sr0.2MnO3nanofibers for a high-temperature electrochemical carbon monoxide sensor,” Nanotechnology, 23, 2012, 305501 Zhi, M.*, Lee, S. +, N. Miller, N.+, Menzler, N.H. + ,N. Q. Wu, “An intermediate temperature solid oxide fuel cell with electrospun nanofiber cathode,” Energy & Environmental Science, 5, 2012, 7066-7071 Zhi, M.*, Manivannan, A.+, Meng, F.*, Wu, N.Q., “Highly conductive electrospun carbon nanofiber/MnO2 coaxial nano-cables for high energy and power density supercapacitors,”Journal of Power Sources, 208 2012, 345–353
JournalPapers
Musho, T.D., and Walker, D.G., “Quantum Simulation of Nanocrystalline Composite Thermoelectric Properties,” Nanoscale and MicroscaleThermophysical Engineering, vol. 16, no. 4, pp. 288-298, December 2012
Xiang, C.*, Li, M.*, Zhi, M.*, Manivannan, M.+, and Wu, N.Q., “Reduced graphene oxide/titanium dioxide composites for supercapacitor electrodes: shape and coupling effects,” Journal of Materials Chemistry, 22, 2012, 19161-19167
* representative of students; + signifies individuals outside of the College 25
Donors 2012-2013 THANK YOU FOR YOUR SUPPORT We have made every effort to make this list complete and accurate, but please let us know if you spot an error, so that we may correct it.
$50,000 or more
$250-$499
Ansys Inc. Gregory S. Babe Thomas J. DeWitt
Jimmy P. Balsara Charles E. Battleson Dow Chemical Company General Electric Company Richard J. Kacik James H. Kirwin Lutheran Community Foundation Thomas A. Musser Charles B. Palmer Marion Parsons Alan D. Stemple James B. Stenger Kelles L. Veneri Karen E. Warden Henry M. Word
$10,000 or more The Boeing Company William L. Fourney
$1,000 or more John W. Campbell James E. Conklin Copart Inc. Eaton Corporation Marsha H. Fanucci Walter R. Haddad John L. Loth Mack Trucks, Inc. Bret A. Marks Jacky C. Prucz Alan S. Pyle UBS Foundation Robert W. Walter William S. Wayne Donald Wiebe
$100-$249
Donor Support
$500-$999
26
Boeing Company Matching Gift Program Christine L. Cropp Fidelity InvestmentsRichard E. Walters Huntington Ingalls Industries, Inc. James A. Keenan Lincoln Electric Kenneth H. Means Michael D. Morse Harold L. Phillippi Carolyn C. Seepersad Barrett L. Shrout Richard E. Walters W. Scott Wayne
MAE Annual Report
2012-2013
Rita A. Bajura Paul G. Bellia Jerry D. Blue John W. Botts David R. Bungard Kendra L. Burch John W. Byrd Larry K. Carpenter Michael J. Carter David A. Cicci Steven B. Clagett William B. Clelland Robert J. Cochenour Alva R. Cummings Mattie R. Dicarlo Dominion Foundation Matching Gift Program Richard L. Falkenstein Lionel R. Farr Timothy K. Fleming Peter D. Gall Kevin N. George Timothy M. Gessner Sheree L. Gibson Joseph M. Giordano Matthew G. Goff Patricia A. Goldie Robert A. Gore Sharron Graham John F. Halterman
James E. Hardy Samuel R. Harman John R. Hess John E. Higginbotham Thomas A. Hill Raymond R. Hill Kaye I. Hutter Johnson Controls Foundation Kinder Morgan, Inc. John M. Kuhlman Gasir Larhart Robert R. Lenhart Hailin Li Michael S. Lotito Donald W. Lyons Matthew M. Madurski James L. Mason McCulla Funeral Home W. Scott Mease Paul G. Migliore Olashuk Environmental, Inc. PDC Energy Edward L. Perry Kerri B. Phillips Trevor M. Poquette Poquette Construction LLC Mark F. Reeder John F. Rentschler Bradford J. Roberts William H. Robison Phillip M. Sabree Gary J. Schweitzer Morris M. Shor Robert D. Skelton Marcella P. Steerman Charles E. Stricklin Corey M. Strimer Caleb A. Tarleton Textron, Inc. Dennis P. Townsend Roy M. Turner Leason W. Walters James M. Weaver Chester L. Whitehair James D. Wilson Richard H. Wilson Richard Yungwirth
Up to $99 AeroJet Air Products Foundation, Inc. Steven K. Brown Jack B. Chaddock Hsi F. Chou Issac W. Crimm William Crise Jeffrey M. Cutright Ralph R. Deakins James F. Edwards Daniel P. Fowler Marcus S. Gilbert Walter P. Goodboy Joseph A. Harim Gusheng Hu Janet W. Jackowski Michael J. Kalo William H. Lentz Danielle E. Lesch Derek McClung Merck Partnership for Giving Robert D. Mills Mack T. Moore Alfred R. Nerz Norfolk Southern Foundation John D. Pellegrin Eduardo G. Perez Pauline M. Pohl Stan T. Serpento Steven P. Shaver Loretta M. Shaw Charles J. Shoemaker Ojars Skujins Jerry J. Smutney James L. Spenik Sankaran Subramaniam Suresh R. Sunderesan Donald L. Teringo W. David Teter University of Kentucky Michael A. Vann Nianqiang Wu
WVU Benjamin M. Statler college of Engineering and mineral resources
Mechanical and Aerospace Engineering
Annual Pumpkin Drop 10 a.m. - 1:30 p.m. for more information go to mae.statler.wvu.edu/students/pumpkin.php
Donor Support
October 25, 2013
27
West Virginia University Mechanical and Aerospace Engineering 2012-2013 Annual Report Department of Mechanical and Aerospace Engineering West Virginia University Benjamin M. Statler College of Engineering and Mineral Resources PO Box 6106, Morgantown, WV 26506-6106
StudentProjects
MAE 28
MAE Annual Report
2011-2013
Circulation 4,500 copies, also available online mae.statler.wvu.edu/news/annual_reports.php
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