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Books on the topic 'WIND ENERGY PROJECT'

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Author: Grafiati
Published: 11 September 2023

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1

Hoffman, Steve, Robert B. Schainker, and William Steeley. Wind storage-enhanced transmission research and development project: Final project report. [Sacramento, Calif.]: California Energy Commission, 2012.

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2

J, Smith S., California Energy Commission. Public Interest Energy Research., and Pacific Northwest National Laboratory (U.S.). Joint Global Change Research Institute., eds. California in context: Long-term scenarios of energy efficiency and renewable energy : PIER project report. [Sacramento, Calif.]: California Energy Commission, 2007.

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3

American Bar Association. Section of Real Property, Trust, and Estate Law, ed. A practitioner's guide to real estate and wind energy project development. Chicago, Illinois: American Bar Association, Real Property, Trust, & Estate Law, 2015.

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4

), Sweetwater County (Wyo, ed. Environmental assessment for the White Mountain energy project, Sweetwater County, Wyoming. Rock Springs, Wyo: Bureau of Land Management, Rock Springs Field Office, 2010.

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5

Inc, RLA Consulting. Central and South West wind power project development: U.S. Department of Energy-EPRI Wind Turbine Verification Program. Palo Alto, CA: Electric Power Research Institute, 1996.

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6

San Bernardino County (Calif.), ed. Draft environmental impact statement/environmental impact report (EIS/EIR) for the Granite Mountain Wind Energy Project. Barstow, Calif: U.S. Department of the Interior, Bureau of Land Management, 2008.

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7

Masiello, Ralph. Research evaluation of wind generation, solar generation, and storage impact on the California grid: PIER final project report. Sacramento, Calif.]: California Energy Commission, 2010.

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8

Inc, Global Energy Concepts. Central and South West Wind Power Project first year operating experience, 1996-1997: U.S. Department of Energy-EPRI Wind Turbine Verification Program. Palo Alto, CA: Electric Power Research Institute, 1997.

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9

LLC, Alta Windpower Development. Draft plan amendment & draft environmental impact statement, environmental impact report for the Alta East Wind Project. Bakersfield, Calif: Kern County, Planning and Community Development Department, 2008.

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10

Curriculum, Project for Energy-Enriched, and National Science Teachers Association, eds. Wind, water, fire, and earth: Energy lessons for the physical sciences : a selection of units from the Project for Energy Enriched Curriculum. Washington, DC: National Science Teachers Association, 1986.

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11

Fleischman, Gerald. Facilitation of wind power development in Idaho: Final report for the Idaho Wind Energy Education and Outreach in the Agricultural Sector and Facilitation of the Development of Wind Power on State Endowment Land Project. [Boise, Idaho]: Idaho Office of Energy Resources, 2008.

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12

National Academies Press (U.S.), ed. Environmental impacts of wind-energy projects. Washington, D.C: National Academies Press, 2007.

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13

Cox, Warren E. Community wind power projects. Hauppauge, N.Y: Nova Science Publisher's, Inc., 2011.

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14

Johnson, Peter. Offshore Wind Energy Projects: Summary of a Workshop. Washington, D.C.: Transportation Research Board, 2011. http://dx.doi.org/10.17226/13333.

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15

Simon, Dunnett, Piggott Hugh, and Intermediate Technology Development Group, eds. Small wind systems for rural energy services. London: ITDG Pub., 2003.

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16

United States. Dept. of Energy. Office of Program Analysis, ed. Summary results of an assessment of research projects in the federal wind energy research program. Washington, DC: U.S. Dept. of Energy, Office of Energy Research, Office of Program Analysis, 1991.

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17

Robert, Gardner. Energy: Green science projects about solar, wind, and water power. Berkeley Heights, NJ: Enslow Publishers, 2011.

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18

Martínez, Ruiz Indalecio, Gonzálvez Cayetano Hernández, THERMIE Programme, OPET Network, Commission of the European Communities. Directorate-General Energy., and Instituto para la Diversificación y Ahorro de la Energía., eds. Renewable energy yearbook: Representative projects in the European Communities : status in 93. [Luxembourg]: [Office for Official Publications of the European Communities], 1994.

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19

Caduto, Michael J. Catch the wind, harness the sun. North Adams, MA: Storey Pub., 2011.

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20

Wind power: 20 projects to make with paper. Richmond Hill, Ont: Firefly Books, 2010.

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21

Grover, Dr Stephen. A guidebook for estimating the local economic benefits of small wind power projects for rural counties in Washington State. Portland, OR: ECONorthwest, 2005.

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22

Bansal, N. K., and Jyotirmay Mathur. Wind energy utilization: An appraisal of projects in India and Germany : proceedings of a joint Indo-German workshop, January 29-30, 2002, ASSOCHAM House, New Delhi, India. Edited by Max Mueller Bhavan (New Delhi, India) and Associated Chambers of Commerce & Industry of India. New Delhi: Anamaya Publishers, 2002.

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23

United States. General Accounting Office. RCED. and United States. Congress. House. Committee on Government Operations. Environment, Energy, and Natural Resources Subcommittee., eds. Rangeland management: BLM's range improvement project data base is incomplete and inaccurate : report to the Chairman, Environment, Energy, and Natural Resources Subcommittee, Committee on Government Operations, House of Representatives. Washington, D.C: U.S. General Accounting Office, 1993.

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24

Office, General Accounting. Rangeland management: Profile of the Bureau of Land Management's grazing allotments and permits : fact sheet for the chairman, Environment, Energy, and Natural Resources Subcommittee, Committee on Government Operations, House of Representatives. Washington, D.C: The Office, 1992.

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25

Saluja, Gurudeo S. Wind Energy for Easterhoull Chalets: Demonstration Project. European Communities / Union (EUR-OP/OOPEC/OPOCE), 1989.

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26

Communities, European. Non-Nuclear Energy-Joule II European Wind Turbine Standards Project. European Communities, 1996.

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27

Lord, R., J. R. C. Armstrong, D. Lindley, and P. L. Rendall. Realization and Demonstration of a Wind Turbine of 200Kw Demonstration Project (Energy). European Communities, 1987.

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28

O'Flaherty, T. Utilization of Wind Energy in Conjunction with a Heat Pump for Greenhouse Heating: Demonstration Project. European Communities / Union (EUR-OP/OOPEC/OPOCE), 1989.

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29

Simon, Manner, and Niedermaier Tilman. Part I Commercial Arbitration in the Energy Sector, 4 Renewable Energy Disputes. Oxford University Press, 2018. http://dx.doi.org/10.1093/law/9780198805786.003.0004.

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This chapter relates to renewable energy disputes. ‘Renewable energies’ are understood in a broad sense as energy resources which are naturally replenished on a human timescale. The chapter focuses on wind and solar photovoltaics (solar PV) energy, describing typical project and contract structures, as well as challenges and disputes relating to their financing; development; construction; and operation, maintenance, and service. It pays special attention to questions relating to the individual contractual relationships between the project company, the project developer, the contractor(s), sub-contractors, and sub-suppliers. The chapter also contains a detailed, user-oriented analysis of the advantages and disadvantages relating to arbitrating commercial disputes in this sector.
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30

Davidson, Michael R., Fredrich Kahrl, and Valerie J. Karplus. Towards a Political Economy Framework for Wind Power. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198802242.003.0013.

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The authors propose a general taxonomy of the political economy challenges to wind power development and integration, highlighting the implications in terms of actors, interests, and risks. Applying this framework to three functions in China’s electricity sector—planning and project approval, generator cost recovery, and balancing area coordination—the authors find evidence of challenges common across countries with significant wind investments, despite institutional and industry characteristics that are unique to China. The authors argue that resolving these political economy challenges is as important to facilitating the role of wind and other renewable energies in a low-carbon energy transition as providing dedicated technical and energy policy support. China is no exception.
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31

California Wind Energy Projects. Windbooks, Incorporated, 1991.

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32

Hassan, Munir. Wind: Projects and Transactions. Globe Law and Business Limited, 2014.

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33

Environmental Impacts of Wind-Energy Projects. Washington, D.C.: National Academies Press, 2007. http://dx.doi.org/10.17226/11935.

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34

Committee on Environmental Impacts of Wind-Energy Projects, Board on Environmental Studies and Toxicology, Division on Earth and Life Studies, and National Research Council. Environmental Impacts of Wind-Energy Projects. National Academies Press, 2007.

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35

Committee on Environmental Impacts of Wind-Energy Projects, Board on Environmental Studies and Toxicology, Division on Earth and Life Studies, and National Research Council. Environmental Impacts of Wind-Energy Projects. National Academies Press, 2007.

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36

Environmental Impacts of Wind Energy Projects Committee, Board on Environmental Studies and Toxicology, Division on Earth and Life Studies, and National Research Council. Environmental Impacts of Wind-Energy Projects. National Academies Press, 2007.

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37

Telles, Marco A. Wind Energy: Technology, Commercial Projects And Laws. Novinka Books, 2006.

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38

Alkire, Jessie. Wind Energy Projects: Easy Energy Activities for Future Engineers! ABDO Publishing Company, 2018.

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39

Koch, Grady, and Elias Koch. LEGO Wind Energy: Green Energy Projects with Mindstorms EV3. Apress, 2019.

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40

Offshore Wind Energy Projects: Summary of a Workshop. Washington, D.C.: Transportation Research Board, 2011. http://dx.doi.org/10.17226/22839.

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41

Krasnopolskaia, Iuliia. Design and Parametric Modeling of Pretensioned and Stiffened Membranes Project Work. Technische Universität Dresden, 2021. http://dx.doi.org/10.25368/2022.407.

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This research aimed to develop conceptually the pretensioned and stiffened membrane structures, using an experimental approach and computer simulation. The physical method of form finding included the pretensioned fabric with the glued grid made of the wooden sticks. Relaxation of the stressed membrane contributed to forming the specific anticlastic hyparic surface by energy release. The influence of the rigid elements pattern, intensity and direction of pretensioning on the final shape was investigated. The tensegrity structures were also built applying the same form finding way. These experiments led to the modelling of resulting samples with parametric design tools, namely Rhino and Grasshopper. Optimization of the final shape was carried out by changing parameters such as stiffenings configuration and membrane strength. This digital approach demonstrated successful simulation and rationalization of considered structures. Moreover, the final models can be used for further structural analysis and BIM. Considered membrane structures have very efficient load-bearing behavior. They are characterized by small weight, high light transmission and the ability to create large usable spaces free from columns. The most dangerous loads for membrane structures are wind and ponding. In practice, PTFE coated glass-fibre fabric and PVC coated polyester fabric are most suitable for pretensioned and stiffened membrane structures. The role of stiff elements can be played by steel profiles or metal tubes. The average time for the construction of a membrane structure is 6-15 months. Resulted pretensioned and stiffened membrane structures can be used as pavilions, roofs and awnings. They are distinguished by spectacular architectural view and very effective structural system. In addition, membrane tensile structures are characterized by high eco-efficiency and sustainability compared to other types of construction.
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42

Wind Power Trends and Offshore Wind Projects in the United States. Nova Science Pub Inc, 2013.

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43

Energy Green Science Projects about Solar, Wind, and Water Power. Enslow Publishing, LLC, 2011.

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44

Robert, Gardner. Energy: Green Science Projects about Solar, Wind, and Water Power. Enslow Publishing, LLC, 2011.

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45

Energy: Green Science Projects about Solar, Wind, and Water Power. Enslow Publishing, LLC, 2011.

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46

Meier, Paul F. The Changing Energy Mix. Oxford University Press, 2020. http://dx.doi.org/10.1093/oso/9780190098391.001.0001.

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The energy mix is changing, and renewable energy is growing in importance. If you were born before 1989, you lived in a United States where no electricity was generated from either wind or solar power and very little from geothermal and biomass. By 2018, the combined generation from wind and solar had surpassed hydroelectricity. Fourteen states generated more than 10% of their electricity from wind and three generated more than 30%. And bioethanol, produced from corn grain, made up 10% of the US gasoline market. Changes have also occurred in the nonrenewable energy mix. Coal, which was responsible for 53% of the US electricity generation in 1998 is now only 28%, as natural gas has taken the leadership role, surpassing coal in 2015 as the primary energy for producing electricity. Similarly, the world did not see any electricity generation from wind until 1985 and none from solar until 1989. Now solar plus wind generate 7% of the worldwide electricity. The worldwide demand for all energy types is also increasing rapidly, as energy usage has increased 84% over the last twenty years. This book makes a systematic comparison of twelve different energy types to help understand the driving forces for this changing energy mix. Twelve common criteria are used to provide tools to make these comparisons, such as proven reserves, the levelized cost for each energy type, energy balances, environmental issues, and the energy footprint. Proven reserves are also projected for each renewable energy type.
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47

Bonta, David, John Hanson Mitchell, and Michael J. Caduto. Catch the Wind, Harness the Sun: 22 Super-Charged Projects for Kids. Storey Publishing, LLC, 2011.

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48

National Aeronautics and Space Administration (NASA) Staff. NASA Fixed Wing Project Propulsion Research and Technology Development Activities to Reduce Thrust Specific Energy Consumption. Independently Published, 2019.

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49

Eberl-Pacan, Reinhard, Klaus-Jürgen Edelhäuser, and Birger Gigla, eds. Bauen+ Schwerpunkt: Energie. Fraunhofer IRB Verlag, 2022. http://dx.doi.org/10.51202/9783738807141.

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Der zweite Band der Schriftenreihe »Edition Bauen+« beinhaltet wesentliche Fachbeiträge der Fachzeitschrift Bauen+ aus dem Bereich Energie. Vom Hofer Sonnenhaus mit zukunftsweisendem Energie- und Baukonzept über die Vorteile eines Makadamspeichers, ein dreigeschossiges Verwaltungsgebäude aus Holz, die beeindruckende Verwandlung einer Kirche bis zu einem Plusenergiehof auf dem Land werden wegweisende Projekte vorgestellt. Die ausgewählten Fachartikel zeigen neben den Projektbeispielen neueste Forschungsentwicklungen, die in der Praxis angekommen sind, und geben damit vielfältige Anregungen. Die Experteninterviews setzen ebenfalls interessante Impulse. Zusammengefasst wird gezeigt, wie Bauen heute funktioniert: interdisziplinär, kompetent und spezialisiert.
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50

Fleming, James Rodger. First Woman. Oxford University Press, 2020. http://dx.doi.org/10.1093/oso/9780198862734.001.0001.

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This book, based on the life and work of Joanne (Gerould) Simpson (1923–2010), charts the history of women in meteorology and the history of tropical meteorology in the context of her long and productive career as pioneer scientist, project leader, and mentor. In 1943 women had no status in meteorology, tropical weather was largely aer incognita, and Joanne Gerould, a new graduate student at the University of Chicago, had just set her sights on understanding the behavior of clouds. Establishing her career in an era of overwhelming marginalization of women in science was no easy matter, and Joanne (who published under three married names and raised three children) had to fight every step of the way. Under the mentorship of Herbert Riehl, she received a PhD degree from Chicago in 1949. Later, while working at Woods Hole, she collaborated with Riehl on their revolutionary and controversial “hot tower” hypothesis that cumulonimbus clouds were the driving force in the tropical atmosphere, providing energy to power the Hadley circulation, the trade winds, and by implication, the global circulation. The mechanism of hot towers alludes to the incessant battle between buoyancy and entrainment in tropical convection, valorizing those clouds that successfully break through the trade wind inversion to soar to the top of the troposphere. The metaphor of hot towers points to the incessant battles Joanne waged between her sky-high aspirations and the dark psychological and institutional forces dragging her down. Yet she prevailed, reaching the pinnacle of personal and professional accomplishment, especially in her years at NASA, as she conditioned the atmosphere for further breakthroughs for women in science. She is best remembered as a pioneer woman scientist, the best tropical scientist of her generation.
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