Presentation by Daniel Ketzer ITAS/KIT/Stockholm University - at the young researchers meeting on multifunctional landscapes, Gothenburg June 7-8, 2016.
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FirstGreen Consulting is a company working in the area of renewable energy, energy efficiency and climate change
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A complete presentation on solar cells.
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It is a presentation as a part of our course project. We have analyzed two solar power plants -
1. Welspun solar power plant in Neemuch district of Madhya Pradesh.
2. Solar power plant installation in the permanent campus of IIT Hyderabad.
FirstGreen Consulting is a company working in the area of renewable energy, energy efficiency and climate change
The team has extensive experience in handling the Renewable, and energy efficiency projects
FirstGreen is providing energy sector consultancy in the sustainable energy, with expertise ranging from carbon advisory to technical consulting, to project implementation and project management.
A complete presentation on solar cells.
It includes working of solar cells,solar cell Models, parameters,Applications,solar energy harvesting,Generation wise comparison of solar cells,Kitchen made solar cells.This presentation can be a wild card entry to the arena of solar cells.
This new minute lecture gives an introduction to photovoltaic (PV) systems for residential use, providing an answer to following questions:
* How does a PV system work?
* What can be expected from a PV system?
* What types of systems are available?
* How is technology expected to evolve?
We are providing detailed info regarding working principle of solar water heater in this presentation. If you are looking for their quality suppliers and manufacturers, you can visit our site.
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Tikopia: A climate smart, sustainable and multifunctional islandSIANI
Presentation by Thilde Bech Bruun, University of Copenhagen - at the young researchers meeting on multifunctional landscapes, Gothenburg June 7-8, 2016.
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Presentation by Mario Torralba, PhD student, University of Copenhagen - at the young researchers meeting on multifunctional landscapes, Gothenburg June 7-8, 2016.
We are providing detailed info regarding working principle of solar water heater in this presentation. If you are looking for their quality suppliers and manufacturers, you can visit our site.
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Conference:
4th International Workshop on Networks of Cooperating Objects for Smart Cities 2013 (CONET/UBICITEC 2013)
Title of the paper:
Smart Lighting in Multipurpose Outdoor Environments: Energy Efficient Solution using Network of Cooperating Objects
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Anna Florea
Ahmed Farahat
Dr. Corina Postelnicu
Prof. Jose L. Martinez Lastra, Dr.Sc.
Prof. Francisco J. Azcondo Sánchez
If you would like to receive a reprint of the original paper, please contact us
The marketization of energy commodities is conducive to the enviro.docxoreo10
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I have better understanding on the energy and environment and also learn much about the e energy and environment after a semester’s study and research. The environment in which we are living is changing, and energy consumption and environmental pollution are happening at every moment, so we should be responsible for the environment and the people in the future. As the resources and environment of the earth are limited, we will not enjoy them without any harm on resources and environment. Therefore, we should protect the environment and develop much new energy, which is also the main objective of our subject.
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Firstly, the solar power is not favored by people in the energy market initially. People do not pay much attention to the solar energy until recent years. MIT is one of the best and famous universities in the world, and its scientists has established a research group which found a new method for extracting solar energy. They converted solar energy into thermal energy, and then they convert the thermal energy into solar energy again. Then, the efficiency of the extraction of solar energy is greatly improved (JAMES, 2017). If the method is practically applied, many companies, in the solar market, will adopt it for extracting solar energy. Furthermore, as the cost is low, its price will be cheaper and it will bring more profits to those companies. Secondly, the solar panel is also an important factor. It is widely used now, such as solar water heater and ...
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non-intelligent maximum power point tracking technique has the best tracking power conversion efficiency. The
advantages and disadvantage of solar PV together with the solar optimization and innovational growth trends were
examined. This research showed that clean and renewable energy sources will continue to grow and the solar energy
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Willie Nelson is a name that resonates within the world of music and entertainment. Known for his unique voice, and masterful guitar skills. and an extraordinary career spanning several decades. Nelson has become a legend in the country music scene. But, his influence extends far beyond the realm of music. with ventures in acting, writing, activism, and business. This comprehensive article delves into Willie Nelson net worth. exploring the various facets of his career that have contributed to his large fortune.
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Introduction
Willie Nelson net worth is a testament to his enduring influence and success in many fields. Born on April 29, 1933, in Abbott, Texas. Nelson's journey from a humble beginning to becoming one of the most iconic figures in American music is nothing short of inspirational. His net worth, which estimated to be around $25 million as of 2024. reflects a career that is as diverse as it is prolific.
Early Life and Musical Beginnings
Humble Origins
Willie Hugh Nelson was born during the Great Depression. a time of significant economic hardship in the United States. Raised by his grandparents. Nelson found solace and inspiration in music from an early age. His grandmother taught him to play the guitar. setting the stage for what would become an illustrious career.
First Steps in Music
Nelson's initial foray into the music industry was fraught with challenges. He moved to Nashville, Tennessee, to pursue his dreams, but success did not come . Working as a songwriter, Nelson penned hits for other artists. which helped him gain a foothold in the competitive music scene. His songwriting skills contributed to his early earnings. laying the foundation for his net worth.
Rise to Stardom
Breakthrough Albums
The 1970s marked a turning point in Willie Nelson's career. His albums "Shotgun Willie" (1973), "Red Headed Stranger" (1975). and "Stardust" (1978) received critical acclaim and commercial success. These albums not only solidified his position in the country music genre. but also introduced his music to a broader audience. The success of these albums played a crucial role in boosting Willie Nelson net worth.
Iconic Songs
Willie Nelson net worth is also attributed to his extensive catalog of hit songs. Tracks like "Blue Eyes Crying in the Rain," "On the Road Again," and "Always on My Mind" have become timeless classics. These songs have not only earned Nelson large royalties but have also ensured his continued relevance in the music industry.
Acting and Film Career
Hollywood Ventures
In addition to his music career, Willie Nelson has also made a mark in Hollywood. His distinctive personality and on-screen presence have landed him roles in several films and television shows. Notable appearances include roles in "The Electric Horseman" (1979), "Honeysuckle Rose" (1980), and "Barbarosa" (1982). These acting gigs have added a significant amount to Willie Nelson net worth.
Television Appearances
Nelson's char
How about Huawei mobile phone-www.cfye-commerce.shop
Potential of Agrophotovoltaic systems to reduce land use competition between biomass and power production
1. KIT – University of the State of Baden-Wuerttemberg and
National Research Center of the Helmholtz Association
Institute for Technology Assessment and Systems Analysis (ITAS)
Department for Physical Geography and Quaternary Geology, Stockholm University
www.kit.edu
Daniel Ketzer
Source: University Montpellier Source: University Montpellier Source: Makota Takazawa
Potential of Agrophotovoltaic systems to reduce land use
competition between biomass and power production
Agr4D-Young Researchers Meeting Gothenburg
June 7th, 2016
5. ITAS, Stockholm University5
Background
Possible quantitative and qualitative extra yield
Consistent insolation rates under PV-systems will be
enabled (Patent application by Fraunhofer ISE, under
review)
Daniel KetzerJune 7th, 2016
Photosynthetically Active Radiation (PAR) in %
6. ITAS, Stockholm University6
Project APV-RESOLA
Daniel KetzerJune 7th, 2016
Source: Fraunhofer ISE
1: Energy
autarky
with future
energy
storage.
2: Direct-
marketing
of power
to
residential
areas
nearby.
3: Power
feed-in
into
national
electricity
and gas
grids.
7. ITAS, Stockholm University7
APV-Consortium
Funding: German Ministry for Education & Research, BMBF
Projection duration: March 2015 to June 2019
Budget: 3.2 Mio. €, of which 87.5% public funds
Consortium from research and industry
Project leader: Stephan Schindele, Fraunhofer ISE
June 7th, 2016 Daniel Ketzer
8. ITAS, Stockholm University8
Research design APV-RESOLA
Work packages
Technology
Energy industry
Agriculture
Biodiversity
Society
Concept of Responsible Research and Innovation
Sustainable innovation concept: aims at providing
innovation supporting advice for politicians, service
contractors, and technology developers
Daniel KetzerJune 7th, 2016
9. ITAS, Stockholm University9
APV-Pilot at Heggelbachhof
June 7th, 2016
Source: Google Maps / Representation by Fraunhofer ISE
Daniel Ketzer
Reference area
APV pilot
area
Working direction
10. ITAS, Stockholm University10
APV-Pilot at Heggelbachhof
June 7th, 2016 Daniel Ketzer
APV pilot
area
Source: Fraunhofer ISE
Source: Hilber Solar
Prototype
11. ITAS, Stockholm University11
Targets APV-technology
Political targets: Additional RE capacity
Decentralized energy production
Regional added value from RE
Impact: Food vs. fuel dilemma
Changes in biodiversity
Changes in landscape/ scenery
APV-technology as a solution for:
Double use of areas by combining agriculture with open
space PV (up to 6 m above ground)
Benefits for plant cultivation
Additional added value without risking existing agricultural
businesses
June 7th, 2016 Daniel Ketzer
12. ITAS, Stockholm University12
Outlook
Installation of pilot plant: Summer 2016
Plant cultivation studies at pilot plant
Second citizen workshop
Stakeholder-workshops to analyze interactions between actors
Identify target conflicts within R&D strategies
Innovation concept for a sustainable technology implementation
Recommendations for
Politics
Agriculture
Technology developers and researchers
Daniel KetzerJune 7th, 2016
13. ITAS, Stockholm University13
Contact: daniel.ketzer@kit.edu
Thank you very much for your attention!
More information: www.agrophotovoltaik.de
June 7th, 2016 Daniel Ketzer
14. ITAS, Stockholm University14
Literature I
ARGE Monitoring PV-Anlagen, 2005. Photovoltaik-Freiflächenanlagen - Aktuelle Erfahrungen und Konfliktlinien. Bonn,
Bundesministerium für Umwelt, Naturschutz und Reaktorsicherheit.
ARGE Monitoring PV-Anlagen, 2007. Leitfaden zur Berücksichtigung von Umweltbelangen bei der Planung von PV-
Freiflächenanlagen, s.l.: Bundesministerium für Umwelt, Naturschutz und Reaktorsicherheit.
Beck, M., Bopp, G., Goetzberger, A., Obergfell, T., Reise, C., & Schindele. (2012). Combining PV and Food Crops to
Agrophotoltaic - Optimization of Orientation and Harvest.
BMBF (2011), “National Research Strategy 2030. Our Route towards a biobased economy”. [Online] Available at:
http://www.bmbf.de/pub/bioeconomy_2030.pdf. [Accessed 26 06 2014]
BMELV, 2012. Greening in der EU-Agrarpolitik. [Online]
Available at: http://www.bmelv.de/SharedDocs/Standardartikel/Landwirtschaft/Agrarpolitik/Greening.html
[Accessed 20 02 2013].
Brudermann, T., Reinsberger, K., Orthofer, A., Kislinger, M., & Posch, A. (2013). Photovoltaics in agriculture: A case study on
decision making of farmers. Energy Policy, 61, 96–103. doi:10.1016/j.enpol.2013.06.081
Dupraz, C., Marrou, H., Talbot, G., Dufour, L., Nogier, a., & Ferard, Y. (2011). Combining solar photovoltaic panels and food crops
for optimising land use: Towards new agrivoltaic schemes. Renewable Energy, 36(10), 2725–2732.
doi:10.1016/j.renene.2011.03.005
EuPD Research (2012): Die Zukunft des PV-Freiflächensegments in Deutschland. Eine Potenzialanalyse bis 2017. Im Auftrag der
Wattner AG, Köln. Wattner AG, Köln. Available online at http://www.wattner.de/uploads/media/2012-03_Wattner_-
_Studie_EuPD_Research_-_Die_Zukunft_des_PV-Freiflaechensegments_in_Deutschland_bis_2017.pdf, checked on 6/28/2014.
Fachausschuss Nachhaltiges Energysystem 2050 (2010), “Eine Vision für ein nachhaltiges Energiekonzept auf Basis von
Energieeffizienz und 100 % erneuerbaren Energien”, available at:
http://www.fvee.de/fileadmin/politik/10.06.vision_fuer_nachhaltiges_energiekonzept.pdf (accessed 29 June 2014).
FNR (2013): Cultivation of Renewable Materials in Germany. FNR Mediathek. [Online] Available at:
http://mediathek.fnr.de/media/downloadable/files/samples/r/z/rz_fnr4_0252_grafik_nawaro_anbau_101013_eng.jpg [Accessed 26
06 2014]
Daniel KetzerJune 7th, 2016
15. ITAS, Stockholm University15
Literature II
Fraunhofer ISE (2014): Aktuelle Fakten zur Photovoltaik in Deutschland. Edited by Harry Wirth. Fraunhofer Institute for Solar
Energy Systems ISE, Freiburg. Freiburg. Available online at
http://www.ise.fraunhofer.de/de/veroeffentlichungen/veroeffentlichungen-pdf-dateien/studien-und-konzeptpapiere/aktuelle-fakten-
zur-photovoltaik-in-deutschland.pdf, updated on 5/28/2014, checked on 6/28/2014.
Germer, J. et al., 2011. Skyfarming an ecological innovation to enhance global food security. Journal für Verbraucherschutz und
Lebensmittelsicherheit, pp. 237-251.
Grover, S. (2013). Solar double cropping takes off in Japan. Retrieved from http://www.treehugger.com/corporate-
responsibility/solar-double-cropping-takes-japan.html
Haase, M., 2012. Development of a GIS-based spatial model for the estimation of biomass potentials in different regions of NW
Europe, Karlsruhe: Institute of Technology Assessment and Systems Analysis, ITAS.
Ho, M.-W. (2013). Japanese Farmers Producing Crops and Solar Energy Simultaneously. Retrieved from http://www.i-
sis.org.uk/Japanese_Farmers_Producing_Crops_and_Solar_Energy.php
Kappler, G., 2008. Systemanalytische Untersuchung zum Aufkommen und zur Bereitstellung von energetisch nutzbarem
Reststroh und Waldrestholz in Baden-Württemberg. Eine auf das Karlsruher bioliq-Konzept ausgerichtete Standortanalyse,
Karlsruhe: Forschungszentrum Karlsruhe.
Kazusatsumurai (2014): Solar Sharing Kazusatsumurai. Available online at http://kazusatsurumaisolar.jp/, updated on 2014,
checked on 6/28/2014Kyocera (2014), KYOCERA und vier andere Unternehmen schließen Rahmenvertrag für Entwicklung eines
430-Megawatt-Solarkraftwerks ab.
Marcheggiani, E., Gulinck, H., & Galli, A. (2013). Detection of Fast Landscape Changes : The Case of Solar Modules on
Agricultural Land General Problem Setting : Fast Changes on Arable Lands, 315–327.
Marrou, H., Guilioni, L., Dufour, L., Dupraz, C., & Wery, J. (2013). Microclimate under agrivoltaic systems: Is crop growth rate
affected in the partial shade of solar panels ? Agricultural and Forest Meteorology, 177, 117–132.
Movellan, J. (2013). Japan Next-Generation Farmers Cultivate Crops and Solar Energy. Renewable Energy World.com. Retrieved
from http://www.renewableenergyworld.com/rea/news/article/2013/10/japan-next-generation-farmers-cultivate-agriculture-and-
solar-energy
Obergfell, T., 2012. Agrovoltaik - Landwirtschaft unter Photovoltaikanlagen, Kassel: Universität Kassel, Fraunhofer ISE.
Proposal for ReNA, 2012. Research Network Agrophotovoltaic ReNA - Proposal Application, s.l.: s.n.
Daniel KetzerJune 7th, 2016
16. ITAS, Stockholm University16
Literature III
Roland Berger Strategy Consultants and Prognos AG (2010), “Wegweiser Solarwirtschaft: PV-Roadmap 2020. Wettbewerbsfähig,
klimafreundlich, dezentral - Die Solarwirtschaft als eine bedeutende Säule einer nachhaltigen Energieversorgung”, available at:
http://www.sueddeutsches-institut.de/EE/wegweiser_sw_pvrm-lang.pdf (accessed 10 June 2014).
Schindele, S., 2012. Agrovoltaik - Landwirtschaftliche Produktion unter PV-Freiflächenanlagen. Freiburg: Fraunhofer ISE.
Schindele, S., Bopp, G., Essam, R., Goetzberger, A., Obergfell, T. and Reise, C. (2014), “Agrophotovoltaic (APV) – Agricultural
Production Below Optimized Elevated Photovoltaic Systems”.
Skarka, J., Rösch, C. & Posten, C., 2011. Microalgal biomass for biofuels in Europe - production potential with regard to land and
CO2 availability. Posterpräsentation auf der 1st International Conference on Algal Biomass, Biofuels & Bioproducts im Westin
Hotel St. Louis. St. Louis, Missouri, USA, s.n.
Statistisches Bundesamt, 2012. Nachhaltige Entwicklung in Deutschland. [Online]
Available at:
https://www.destatis.de/DE/Publikationen/Thematisch/UmweltoekonomischeGesamtrechnungen/Umweltindikatoren/IndikatorenP
DF_0230001.pdf?__blob=publicationFile
Wacker, A. & Porsche, L., 2011. Alles im grünen Bereich? Bioenergie: Beitrag zu bundespolitischen Zielen und Anforderungen an
die räumliche Entwicklung. Informationen zur Raumentwicklung Heft 5/6, pp. 265-277.
Zoellner, J., Schweizer-Ries, P. and Wemheuer, C. (2008), “Public acceptance of renewable energies: Results from case studies
in Germany”, Energy Policy, Vol. 36 No. 11, pp. 4136–4141.
Daniel KetzerJune 7th, 2016