Paul B. Maccready Papers, Date (Inclusive): Ca
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Solar Vehicle Case Study
UNIVERSITY OF MINNESOTA SOLAR VEHICLE PROJECT Weather Data Vital for Solar-Powered Vehicle Race When the University of Minnesota Solar Vehicle Project (UMNSVP) team was looking for a weather station to compete in the 2017 Bridgestone World Solar Challenge, they contacted Columbia Weather Systems. “One of the most important resources for our race strategy is real-time weather data,” said Electrical Technical Advisor Spencer Berglund. Founded in 1990, UMNSVP is a student-administered, designed, and built project that teaches members about engineering and management in a complete product development environment. The diverse design and construction challenges help further the school’s mission to “create the best engineers possible.” Over the years they have built 13 solar cars, competing in over 30 racing events across three con- tinents. A new car is designed and built every two years. “One of the most important resources for our race strategy is real-time weather data.” The Challenge - Spencer Berglund, The biennial Bridgestone World Solar Challenge event challenges univer- Electrical Technical sity teams from around the world to engineer, build, and race a vehicle Advisor that is powered by the sun. In preparing for the 2017 race, Berglund said, “Our lack of accurate weather data is a large limiting factor in maxi- mizing our race performance.” The Solution A Magellan MX500™ Weather Station was mounted on a support vehicle providing met data to help optimize power for the new solar-powered, Cruiser-Class car dubbed “Eos II.” Besides speed, Cruiser-Class vehicles focus on practicality and number of people in the car. Gearing up for the race, Berglund related, “We’ve been test driving a lot for the past few days and have been using your weather station for gathering accurate power to drive data for our car. -
Development of a Racing Strategy for a Solar Car
DEVELOPMENT OF A RACING STRATEGY FOR A SOLAR CAR A THESIS SUBMITTED TO THE GRADUATE SCHOOL OF NATURAL AND APPLIED SCIENCES OF MIDDLE EAST TECHNICAL UNIVERSITY BY ETHEM ERSÖZ IN PARTIAL FULFILLMENT OF THE REQUIREMENTS FOR THE DEGREE OF MASTER OF SCIENCE IN MECHANICAL ENGINEERING SEPTEMBER 2006 Approval of the Graduate School of Natural and Applied Sciences Prof. Dr. Canan Özgen Director I certify that this thesis satisfies all the requirements as a thesis for the degree of Master of Science Prof. Dr. Kemal İder Head of Department This is to certify that we have read this thesis and that in our opinion it is fully adequate, in scope and quality, as a thesis for the degree of Master of Science Asst. Prof. Dr. İlker Tarı Supervisor Examining Committee Members Prof. Dr. Y. Samim Ünlüsoy (METU, ME) Asst. Prof. Dr. İlker Tarı (METU, ME) Asst. Prof. Dr. Cüneyt Sert (METU, ME) Asst. Prof. Dr. Derek Baker (METU, ME) Prof. Dr. A. Erman Tekkaya (Atılım Ü., ME) I hereby declare that all information in this document has been obtained and presented in accordance with academic rules and ethical conduct. I also declare that, as required by these rules and conduct, I have fully cited and referenced all material and results that are not original to this work. Name, Last name : Ethem ERSÖZ Signature : iii ABSTRACT DEVELOPMENT OF A RACING STRATEGY FOR A SOLAR CAR Ersöz, Ethem M. S., Department of Mechanical Engineering Supervisor : Asst. Prof. Dr. İlker Tarı December 2006, 93 pages The aerodynamical design of a solar race car is presented together with the racing strategy. -
Guide to the Paul Maccready Innovative Lives Presentation
Guide to the Paul MacCready Innovative Lives Presentation NMAH.AC.0842 Alison Oswald 2003 Archives Center, National Museum of American History P.O. Box 37012 Suite 1100, MRC 601 Washington, D.C. 20013-7012 [email protected] http://americanhistory.si.edu/archives Table of Contents Collection Overview ........................................................................................................ 1 Administrative Information .............................................................................................. 1 Scope and Contents........................................................................................................ 2 Biographical / Historical.................................................................................................... 2 Names and Subjects ...................................................................................................... 2 Container Listing ............................................................................................................. 3 Series : Original Videos (OV 842.1-9), 2002-11-08................................................. 3 Series : Reference Videos, 2002-11-08................................................................... 4 Series 3: Digital images, 2002-11-08....................................................................... 5 Paul MacCready Innovative Lives Presentation NMAH.AC.0842 Collection Overview Repository: Archives Center, National Museum of American History Title: Paul MacCready Innovative Lives Presentation Identifier: -
4.2 Battery Storage Technology 4.2.1 New Emerging Battery Technology and Global Best Practices
VOLUME 10 Issue # 8 52 INTERNATIONAL ELECTRIC VEHICLE ELECTRIFYING INDIA: OWNER : Building Blocks For A Sustainable EV Ecosystem FirstSource Energy India Private Limited PLACE OF PUBLICATION : 95-C, Sampat Farms, 7th Cross Road, Bicholi Mardana Distt-Indore 452016, Madhya Pradesh, INDIA Tel. + 91 96441 22268 www.EQMagPro.com EDITOR & CEO : ANAND GUPTA [email protected] 26 PUBLISHER : ANAND GUPTA PRINTER : ANAND GUPTA TRENDS & ANALYSIS SAUMYA BANSAL GUPTA [email protected] PUBLISHING COMPANY DIRECTORS: ANIL GUPTA ANITA GUPTA DISTRIBUTED SOLAR PROJECTS Amazon to install solar rooftops at fulfilment sort centres CONSULTING EDITOR : SURENDRA BAJPAI HEAD-SALES & MARKETING : GOURAV GARG [email protected] Sr. CREATIVE DESIGNER ANAND VAIDYA [email protected] 30 22 GRAPHIC DESIGNER : RATNESH JOSHI DISTRIBUTED SOLAR PROJECTS BUSINESS & FINANCE SUBSCRIPTIONS : Budweiser beer maker AB In- The Rise Fund, a Global GAZALA KHAN CONTENT Bev goes green; inks pact... Impact Fund Managed by... [email protected] Disclaimer,Limitations of Liability While every efforts has been made to ensure the high quality and accuracy of EQ international and all our authors research articles with the greatest of care and attention ,we make no warranty concerning its content,and the magazine is provided on an>> as is <<basis.EQ international contains advertising and 33 third –party contents.EQ International is not liable for any third- party content or error,omission or inaccuracy in any advertising material ,nor is it responsible for the availability of external web sites or their contents The data and information presented in this magazine is provided for informational purpose only.neither EQ INTERNATINAL ,Its affiliates,Information providers nor content providers shall have any liability for investment decisions based up on or the results obtained from the information provided. -
IGC Plenary 2005
Agenda of the Annual Meeting of the FAI Gliding Commission To be held in Lausanne, Switzerland on 5th and 6th March 2010 Agenda for the IGC Plenary 2010 Day 1, Friday 5th March 2010 Session: Opening and Reports (Friday 09.15 – 10.45) 1. Opening (Bob Henderson) 1.1 Roll Call (Stéphane Desprez/Peter Eriksen) 1.2 Administrative matters (Peter Eriksen) 1.3 Declaration of Conflicts of Interest 2. Minutes of previous meeting, Lausanne, 6th-7th March 2009 (Peter Eriksen) 3. IGC President’s report (Bob Henderson) 4. FAI Matters (Mr.Stéphane Desprez) 4.1 Update by the Secretary General 5. Finance (Dick Bradley) 5.1 2009 Financial report 5.2 Financial statement and budget 6. Reports not requiring voting 6.1 OSTIV report (Loek Boermans) Please note that reports under Agenda items 6.2, 6.3 and 6.4 are made available on the IGC web-site, and will not necessarily be presented. The Committees and Specialists will be available for questions. 6.2 Standing Committees 6.2.1 Communications and PR Report (Bob Henderson) 6.2.2 Championship Management Committee Report (Eric Mozer) 6.2.3 Sporting Code Committee Report (Ross Macintyre) 6.2.4 Air Traffic, Navigation, Display Systems (ANDS) Report (Bernald Smith) 6.2.5 GNSS Flight Recorder Approval Committee (GFAC) Report (Ian Strachan) 6.2.6 FAI Commission on Airspace and Navigation Systems (CANS) Report (Ian Strachan) Session: Reports from Specialists and Competitions (Friday 11.15 – 12.45) 6.3 Working Groups 6.3.1 Country Development Report (Alexander Georgas) 6.3.2 Grand Prix Action Plan (Bob Henderson) 6.3.3 History Committee (Tor Johannessen) 6.3.4 Scoring Working Group (Visa-Matti Leinikki) 6.4 IGC Specialists 6.4.1 CASI Report (Air Sports Commissions) (Tor Johannessen) 6.4.2 EGU/EASA Report (Patrick Pauwels) 6.4.3 Environmental Commission Report (Bernald Smith) 6.4.4 Membership (John Roake) 6.4.5 On-Line Contest Report (Axel Reich) 6.4.6 Simulated Gliding Report (Roland Stuck) 6.4.7 Trophy Management Report (Marina Vigorita) 6.4.8 Web Management Report (Peter Ryder) 7. -
DR. PAUL MACCREADY September 29, 1925 - August 28, 2007 AMA #626304
The AMA History Project Presents: Biography of DR. PAUL MACCREADY September 29, 1925 - August 28, 2007 AMA #626304 Transcribed & Edited by SS (08/2002); Update by JS (02/2017) Career: . Set many model airplane records . First soloed in a powered plane at age 16 . Flew in the U.S. Navy flight-training program during World War II . 1947: Graduated with a Bachelor of Science degree in physics from Yale University . Won second place in the National Soaring Contest at Wichita Falls, Texas, at age 21 . 1948, 1949, 1953: Won the U.S. National Soaring Championships . Pioneered high-altitude wave soaring in the U.S. 1956: Became the first American to be an international sailplane champion at a meet in France; represented the U.S. in Europe four times . Invented the MacCready speed ring used worldwide by glider pilots . Earned his master’s degree in physics in 1948 and his doctorate degree in aeronautics in 1952, both from the California Institute of Technology . 1971: Started AeroVironment, Inc. Won a few Henry Kremer Prizes for his cutting-edge designs of planes, such as planes powered by human power only . Early 1980s: Developed solar-powered planes . Received various honors and awards and is affiliated with the National Academy of Engineering, the American Academy of Arts and Sciences, the American Institute of Aeronautics and Astronautics and the American Meteorological Society . Served as the international president of the International Human Powered Vehicle Association . Wrote many articles, papers and reports dealing with physics and aeronautics . 2016 AMA Model Aviation Hall of Fame inductee This biography, written in 1986, is stored in the AMA History Project (at the time called the AMA History Program) files. -
Passive Solar Design
An Educational Reader from Solar Schoolhouse WHAT’S INSIDE Take a Solar Home Tour ........................ 2 Tracking the Earth’s Path ....................... 4 Heating Things Up ............................... 5 Passive Solar Design ............................ 6 Solar Hot Water .................................. 7 What is Photovoltaics? .......................... 8 How Photovoltaics Works ...................... 9 Cooking with Sunlight ......................... 10 Solar Fountains Run by the Sun............ 12 Building a Model Solar Village .............. 13 Solar Student Builders ........................ 14 The Next Generation of Solar Homes .... 15 Solar Laundromat .............................. 15 Sun & Games ................................... 16 solarschoolhouse.org Using the Sun to Heat, Cool and Power Your Home Sponsored by: P Take a Solar Home Tour On the outside this house looks like many others. Walking past Solar-assisted hot water it, you might not even know it was a solar home. However, once system heats water and you examine the details of its design and construction, you’ll see contributes to space heating. that for this house, its all about the Sun! Deciduous trees shade the house in summer and let the Sun’s warmth heat the house in the winter when their leaves have fallen off. Solar panels on the roof generate electricity used for lighting and appliances. Extra insulation in the roof and walls. Front overhang shades the house from the hot summer Sun, keeping it cool. Low-e windows insulate the house from fluctuations in temperature. South facing windows absorb the solarschoolhouse.org warmth of the Sun in the winter. Drought resistant landscaping A backyard clothesline lets the and water efficient irrigation Sun dry clothes energy free. uses less water than a lawn. 2 Your Solar Home Educational Reader Heavy duty blown-in recycled cellulose insulation acts as a barrier between indoor and outdoor temperatures. -
Next-Generation Solar Power Dutch Technology for the Solar Energy Revolution Next-Generation High-Tech Excellence
Next-generation solar power Dutch technology for the solar energy revolution Next-generation high-tech excellence Harnessing the potential of solar energy calls for creativity and innovative strength. The Dutch solar sector has been enabling breakthrough innovations for decades, thanks in part to close collaboration with world-class research institutes and by fostering the next generation of high-tech talent. For example, Dutch student teams have won a record ten titles in the World Solar Challenge, a biennial solar-powered car race in Australia, with students from Delft University of Technology claiming the title seven out of nine times. 2 Solar Energy Guide 3 Index The sunny side of the Netherlands 6 Breeding ground of PV technology 10 Integrating solar into our environment 16 Solar in the built environment 18 Solar landscapes 20 Solar infrastructure 22 Floating solar 24 Five benefits of doing business with the Dutch 26 Dutch solar expertise in brief 28 Company profiles 30 4 Solar Energy Guide The Netherlands, a true solar country If there’s one thing the Dutch are remarkably good at, it’s making the most of their natural circumstances. That explains how a country with a relatively modest amount of sunshine has built a global reputation as a leading innovator in solar energy. For decades, Dutch companies and research institutes have been among the international leaders in the worldwide solar PV sector. Not only with high-level fundamental research, but also with converting this research into practical applications. Both by designing and refining industrial production processes, and by developing and commercialising innovative solutions that enable the integration of solar PV into a product or environment with another function. -
ANNUM: Year in Review 2012
YEAR IN REVIEW ANNUM 2012 Table of Contents Welcome from the Department Chair 1 Our Story 2 Undergraduate Studies 4 Empowering a Passion for Power 6 Today’s Research Challenges Create Tomorrow’s Opportunities 8 High-tech Signing 10 From Research to Real-world Problems 12 Graduate Studies 14 Harnessing the Wind 16 Breaking Boundaries to Reach New Frontiers 18 How to Harvest the Sun with Photovoltaics Research 20 Innovative Technology Lends an Ear to Silenced Voices 22 Research 24 The Allure of Control Systems Research — Bewitching and Bewildering 26 The Power and Powering of Computers 28 Internet Networks — The Next Generation 30 Big Solutions in Little Packages 32 The Power of Collaboration 34 Community 36 Innovative Entrepreneurial Thinking: Creating a Culture 38 Research Directory 40 Quick Search Colour-coded Listing by Category and Lead Researcher 42 | | ANNUM 2012 | b Directory Alphabetical Listing by Lead Researcher 48 s Department Chair, I am delighted to share with you our annually, the department buzzes with innovative research ideas and annual report for The Edward S. Rogers Sr. Department of projects. This creative energy, in turn, benefits our undergraduate Electrical & Computer Engineering (ECE) at the University programs enormously, enriching the course content and providing Aof Toronto. Founded in 1909, our department has a long and proud valuable research experience. history of education, research and service. Over the past century, it has evolved to meet the changing needs of society and the changing As a result, ECE is engaged in the dissemination and creation of role of a large research university, with a mission that includes knowledge across a wide range of areas of engineering and applied not only education and training but also research, innovation and science — from the fabrication of atomic-level structures with special knowledge creation. -
Interview with Paul B. Maccready
PAUL B. MACCREADY (1925 - 2007) INTERVIEWED BY SARA LIPPINCOTT February – March 2003 ARCHIVES CALIFORNIA INSTITUTE OF TECHNOLOGY Pasadena, California Subject area Engineering, aeronautics Abstract An interview in three sessions with Paul B. MacCready, Caltech graduate (MS physics, 1948; PhD aeronautics, 1952) and inventor and entrepreneur who became internationally known in 1977 as the “father of human-powered flight.” Conducted by Sara Lippincott, the oral history covers MacCready’s scientific and entrepreneurial career, including biographical details. MacCready discusses his family life, early education and aeronautical interests in New Haven, CT. During his youth he progressed from the construction of model airplanes to the flying of motor-propelled aircraft and gliders. MacCready recounts his soaring competitions along with his education at Yale in the 1940s; he continues by describing his graduate work at Caltech from 1947 to 1952 and his high altitude soaring in the Sierras and Europe; he relates this to his interest in weather modification and his entrepreneurial work in cloud seeding. In 1971 MacCready founded AeroVironment with his associates Peter Lissaman and Ivar Tombach; he discusses his early clients and research. Beginning in the mid-1970s MacCready began work on the celebrated Gossamer aircraft series; the interview includes discussion concerning the advent of the Gossamer Condor in 1976-1977 and the flight of the Gossamer Albatross across the English Channel in 1979. The interview also includes his continued interest in http://resolver.caltech.edu/CaltechOH:OH_MacCready_P human-powered flight and environmental issues, as well as unmanned solar- powered flight. Administrative information Access The interview is unrestricted. Copyright Copyright has been assigned to the California Institute of Technology © 2006, 2007. -
Systems Engineering for Clean and Renewable Energy Manufacturing
WTEC Panel Report on SYSTEMS ENGINEERING FOR CLEAN AND RENEWABLE ENERGY MANUFACTURING IN EUROPE AND ASIA Matthew Realff (Chair) Jian Cao Paul Collopy Wayne Curtis Delcie Durham Ryne P. Raffaelle World Technology Evaluation Center, Inc. 1653 Lititz Pike, #417 Lancaster, PA 17601 WTEC PANEL ON SYSTEMS ENGINEERING FOR CLEAN AND RENEWABLE ENERGY MANUFACTURING Sponsored by the U.S. National Science Foundation (NSF). Dr. Matthew Realff (Chair) Dr. Ryne P. Raffaelle Georgia Institute of Technology Rochester Institute of Technology Dr. Paul Collopy Dr. Wayne Curtis University of Alabama The Pennsylvania State University Dr. Jian Cao Dr. Delcie Durham Northwestern University University of South Florida Participants in Site Visits Dr. Abhijit Deshmukh Frank Huband Purdue University Senior Vice President and General Counsel Hassan Ali Patricia Foland Advance Contractor VP for International Operations and Project Manager Asmite Damle Guide in India WTEC Mission WTEC provides assessments of international research and development in selected technologies under awards from the National Science Foundation (NSF), and the Office of Naval Research (ONR). Formerly part of Loyola University Maryland, WTEC is now a separate nonprofit research institute. The Deputy Assistant Director for Engineering is NSF Program Director for WTEC. Sponsors interested in international technology assessments or related studies can provide support through NSF or directly through separate grants or GSA task orders to WTEC. WTEC’s mission is to inform U.S. scientists, engineers, and policymakers of global trends in science and technology. WTEC assessments cover basic research, advanced development, and applications. Panels of typically six technical experts conduct WTEC assessments. Panelists are leading authorities in their field, technically active, and knowledgeable about U.S. -
The History of Solar
Solar technology isn’t new. Its history spans from the 7th Century B.C. to today. We started out concentrating the sun’s heat with glass and mirrors to light fires. Today, we have everything from solar-powered buildings to solar- powered vehicles. Here you can learn more about the milestones in the Byron Stafford, historical development of solar technology, century by NREL / PIX10730 Byron Stafford, century, and year by year. You can also glimpse the future. NREL / PIX05370 This timeline lists the milestones in the historical development of solar technology from the 7th Century B.C. to the 1200s A.D. 7th Century B.C. Magnifying glass used to concentrate sun’s rays to make fire and to burn ants. 3rd Century B.C. Courtesy of Greeks and Romans use burning mirrors to light torches for religious purposes. New Vision Technologies, Inc./ Images ©2000 NVTech.com 2nd Century B.C. As early as 212 BC, the Greek scientist, Archimedes, used the reflective properties of bronze shields to focus sunlight and to set fire to wooden ships from the Roman Empire which were besieging Syracuse. (Although no proof of such a feat exists, the Greek navy recreated the experiment in 1973 and successfully set fire to a wooden boat at a distance of 50 meters.) 20 A.D. Chinese document use of burning mirrors to light torches for religious purposes. 1st to 4th Century A.D. The famous Roman bathhouses in the first to fourth centuries A.D. had large south facing windows to let in the sun’s warmth.