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PXL-Tech 2018 --- opleiding elektromechanica --- energiesystemen --- energietechniek --- zonnepanelen
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Energy experts predict that wholesale electricity prices could easily rise 35 to 65 percent by 2015. Add to this the growing need for energy independence and the need to reduce carbon emissions and it is very clear that the development of low-cost renewable energy, such as solar energy, is essential for our economy and our national security. With the potential for low-cost, renewable energy that can create jobs while reducing our dependency on foreign oil, solar cell technology provides a very attractive and plausible option. Presenting a well-balanced mix of theory and applications, Solar Cell Technology and Applications addresses critical design aspects representing cutting-edge solar cell technology. It offers complete coverage of the latest advances in the field, including low-cost, high-efficiency elements and the latest approaches in solar cell designs. The book discusses: Performance parameters and cost projections for cells and complete solar energy systems Important properties of the semiconductor and compound materials best suited for the fabrication of solar cells Techniques for performance improvements in solar cells and panelsemphasizing cost, reliability, and longevity Integration of organic dye technology in the development of solar devices Mathematical expressions and their derivationshighlighting performance enhancement Using conventional nomenclature, a consistent set of symbols, and identical units for ease of comprehension, this time-saving resource supplies pioneering engineers, research scientists, professors, and students with the understanding needed to spark the advancements that must be made to maximize the economic and environmental benefits of this relatively untapped and abundant renewable energy resource.
Relation between energy and economics --- zonnecellen --- zonnekrachtcentrales --- zonnepanelen
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Relation between energy and economics --- energie (technologie) --- zonne-energie --- natuurlijke energiebronnen --- 620.91 --- Zonne-energie --- Zonnepanelen
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Electronics --- Applied physical engineering --- energie (technologie) --- opto-elektronica --- zonnepanelen --- zonne-energie --- natuurlijke energiebronnen
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The use of solar collectors for domestic hot water over the past 20 years has demonstrated that 3 heating systems are now founded on a reliable and mature technology. However, the development of similar, but more complex, systems to provide both domestic hot water and space heating (solar combisystems) resulted in a diverse range of different designs that were not carefully optimized to reflect local climate and practice. Application of energy-efficient building strategies such as improved thermal insulation and use of low temperature heat supply systems is becoming increasingly common. This trend, combined with growing environmental awareness and the subsidies available in certain countries, favours an increase in market share for solar combisystems. The need for guidelines in selecting the appropriate system and designing this system according to the specific needs of the building and the local environment is therefore now increasingly pressing. This book fills that need.
Solar heating --- Solar houses --- 697.7 --- energietechnologie --- zonnepanelen --- Solar-heated houses --- Solar homes --- Sun-heated houses --- Dwellings --- Solar buildings --- Solar heat --- Heating --- Solar thermal energy --- verwarmingsmethoden: incl. zonnewarmte --- zonne-installatie --- zonne-energie --- solar buildings --- Relation between energy and economics --- Thermodynamics
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Photovoltaic power systems --- Photovoltaic power generation --- zonne-energie --- zonnepanelen --- Photovoltaic energy conversion --- Photovoltaics --- Direct energy conversion --- Solar energy --- Solar batteries --- Photovoltaic energy systems --- Photovoltaic facilities --- Photovoltaic power plants --- Photovoltaic solar generating plants --- Power plants, Photovoltaic --- Power systems, Photovoltaic --- Solar power plants --- Power-plants --- Photovoltaic power systems.
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Advanced new technologies and sophisticated planning systems for architecture beyond the age of fossile fuels. In the very near future energy-efficient building will be the rule rather than the exception. Insulating glazing, multi-functional facades and organic solar cells are examples of important new developments in the field of solar thermal technology, photo-voltaics, heating and ventilation technology which are suitable for a wide range of uses from large-scale urban-planning projects to individual single family houses, and can make significant contributions to the conservation of natural resources in sustainable building. Carefully selected articles provide information on planning methods and techniques which will enable the user to assess and apply appropriate measures. The essays are complemented by a selection of built examples which demonstrate innovative solutions and the importance of an integrated planning process in realized projects, complete with full plans and large scale details.
Architecture and solar radiation --- Architecture --- History --- 697.7 --- 72:697.7 --- Architectuur ; energiebesparing ; fotovoltaïsche zonnepanelen --- Architectuur ; zonne-energie --- Verwarming door zonne-energie --- Architectuur ; 20ste en 21ste eeuw --- Architecture, Western (Western countries) --- Building design --- Buildings --- Construction --- Western architecture (Western countries) --- Art --- Building --- Solar architecture --- Solar radiation and architecture --- Sun protection in architecture --- Solar radiation --- 697.7 Other methods of heating (e.g. solar heating) --- Other methods of heating (e.g. solar heating) --- Zonne-energie --- Architectuur en zonneënergie --- Design and construction --- architectuur --- zonne-energie --- solar power --- architecture [discipline] --- Relation between energy and economics --- Solar physics --- Architecture, Primitive
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Building-integrated photovoltaic systems --- Buildings --- -697.7 --- 620.9 --- 621.38 --- 621.383 --- 697.7 --- 69 --- Edifices --- Halls --- Structures --- Architecture --- BIPVs (Building-integrated photovoltaic systems) --- Photovoltaics integrated into buildings --- Photovoltaic power systems --- Energy conservation --- Other methods of heating (e.g. solar heating) --- Economics of energy in general --- Electronic devices. Electron tubes. Photocells. Particle accelerators. X-ray tubes --- Photoelectric tubes and cells --- Zonne-energie --- Bouwtechniek --- Electric equipment --- Power supply --- 621.383 Photoelectric tubes and cells --- 621.38 Electronic devices. Electron tubes. Photocells. Particle accelerators. X-ray tubes --- 620.9 Economics of energy in general --- 697.7 Other methods of heating (e.g. solar heating) --- Photovoltaic cells --- Photovoltaic power generation --- Photovoltaic energy conversion --- Photovoltaics --- Direct energy conversion --- Solar energy --- Solar batteries --- Photoelectric cells --- 72:697.7 --- Architectuur ; energiebesparing ; fotovoltaïsche zonnepanelen --- Architectuur ; zonne-energie --- Verwarming door zonne-energie; Fotovoltaïsche zonne-energie (PV) --- Architectuur en zonneënergie
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Photovoltaics is one of the most promising technologies for global energy production in the context of the energy crisis and climate change.Photovoltaic modules are now available in such a wide range of forms that nearly all of the usual fl at parts of buildings can be provided with photovoltaic capabilities. In addition to producing energy, these modules offer a number of synergistic effects, since increasingly they are integrated as glazing elements and can perform such other functions as weather protection, solar control, and providing privacy. Special modules such as solar roofing tiles and solar membranes are available for particular applications.This book explains the technology, presents the available products, and communicates clearly how they are used in buildings, with a particular focus on large-scale buildings.It provides architects with all of the necessary know-how to provide a new or existing building with a photovoltaic system, covering both planning and implementation.Last but not least, it is a valuable practical instrument to prepare for communicating with the relevant manufacturers and clients. Photovoltaik ist im Kontext von Energiekrise und Klimawandel eine der vielversprechendsten Technologien zur globalen Energiegewinnung.Photovoltaikmodule stehen inzwischen in einer solch grossen Bandbreite zur Verfügung, dass nahezu alle üblichen flächigen Bauteile mit photovoltaischer Funktion versehen werden können. Neben der Energiegewinnung bieten die Module zahlreiche Synergieeffekte, indem sie zunehmend wie Verglasungsbauteile eingesetzt werden und weitere Funktionen wie Witterungs-, Sonnen-, und Sichtschutz übernehmen. Für spezielle Anwendungen stehen Sondermodule wie z.B. Solardachziegel und Solarmembranen zur Verfügung. Dieses Buch erklärt die Technologie, zeigt die verfügbaren Produkte und vermittelt anschaulich deren Einsatz am Gebäude mit Schwerpunkt auf großmaßstäblichen Bauten. Es liefert Architekten alles notwendige Know-how, um ein neues oder bestehendes Gebäude mit einer Photovoltaikanlage auszustatten - Planung und Ausführung verbindend. Nicht zuletzt ist es ein wertvolles Arbeitsinstrument, um sich auf die Kommunikation mit den relevanten Herstellern und den Bauherren vorzubereiten.
Building-integrated photovoltaic systems -- Handbooks, manuals, etc. --- Buildings -- Energy conservation -- Handbooks, manuals, etc. --- Building-integrated photovoltaic systems --- Buildings --- Electrical & Computer Engineering --- Electrical Engineering --- Engineering & Applied Sciences --- Energy conservation --- Électrification photovoltaïque --- Constructions --- Économies d'énergie --- 697.7 --- 69 --- 504.38 --- 621.383.5 --- 620.9 --- 691.6 --- 692 --- Zonne-energie --- Bouwtechniek --- Climate --- Barrier-layer photocells. Photovoltaic cells. Photodiodes. Phototransistors --- Other methods of heating (e.g. solar heating) --- Economics of energy in general --- Glass. Window glass. Plate glass. Enamel etc. --- Structural parts and elements of buildings --- 692 Structural parts and elements of buildings --- 691.6 Glass. Window glass. Plate glass. Enamel etc. --- 620.9 Economics of energy in general --- 697.7 Other methods of heating (e.g. solar heating) --- 621.383.5 Barrier-layer photocells. Photovoltaic cells. Photodiodes. Phototransistors --- Photovoltaic power systems. --- Photovoltaic energy systems --- Photovoltaic facilities --- Photovoltaic power plants --- Photovoltaic solar generating plants --- Power plants, Photovoltaic --- Power systems, Photovoltaic --- Edifices --- Halls --- Structures --- BIPVs (Building-integrated photovoltaic systems) --- Photovoltaics integrated into buildings --- Power-plants --- Architecture --- Photovoltaic power systems --- Electric equipment --- Power supply --- Glass. Window glass. Plate glass. Enamel etc --- 72:697.7 --- Verwarming door zonne-energie; Fotovoltaïsche zonne-energie (PV) --- Architectuur ; zonne-energie --- Architectuur ; energiebesparing ; fotovoltaïsche zonnepanelen --- Zonne-energie; gebouwen; fotovoltaïsche cellen (zonnecellen) --- Architectuur en zonneënergie --- Électrification photovoltaïque. --- Économies d'énergie. --- Built environment --- Électrification photovoltaïque. --- Économies d'énergie
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