Photovoltaics from Milliwatts to Gigawatts. Tim Bruton
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Название: Photovoltaics from Milliwatts to Gigawatts

Автор: Tim Bruton

Издательство: John Wiley & Sons Limited

Жанр: Физика

Серия:

isbn: 9781119130062

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СКАЧАТЬ href="#ulink_a31e451e-ebf3-5aa3-8714-45115572f392">9.4 Role of the Manufacturing Industry in Europe and the United States 9.5 Role of China as a Photovoltaics Manufacturing Base 9.6 Potential for Continued Market Growth 9.7 Future Technology Development 9.8 Final Analysis References

      15  Index

      16  End User License Agreement

      List of Tables

      1 Chapter 2Table 2.1 Roadmap for the achievement of low‐cost solar systems [9]Table 2.2 Development of the FPSA block tests [11]Table 2.3 Module procurement and structures in the FPSA block tests [12]Table 2.4 Solar cell parameters for a screen‐printed silver front contact and...

      2 Chapter 3Table 3.1 Impact of the installation of 1.5 million solar lights in AfricaTable 3.2 World market by sector in the mid‐1980s

      3 Chapter 4Table 4.1 Improved process sequence, co‐firing Al BSF and SiNx fire‐through

      4 Chapter 5Table 5.1 Annual installations and cumulative installed capacity by country i...Table 5.2 Electricity generation costs for photovoltaics and other technologi...

      5 Chapter 6Table 6.1 Global growth in incentives for renewable energy [19]Table 6.2 Most competitive tenders for the supply of photovoltaic electricity...

      6 Chapter 8Table 8.1 Main causes of loss in silicon solar cellsTable 8.2 Most efficient solar modules (60‐cell) in 2020, by manufacturer and...

      7 Chapter 9Table 9.1 Ranking of the world’s largest photovoltaics manufacturers for 2008...

      List of Illustrations

      1 Chapter 1Figure 1.1 Evolution of electricity‐generating technologies to 2050Figure 1.2 Charles Fritts’ first photovoltaic array, produced in New York Ci...Figure 1.3 Ohl’s patented solar cell structure [20]Figure 1.4 Schematic of the first successful silicon solar cellFigure 1.5 (A) Normalised spectral response of a p on n silicon solar cell. ...Figure 1.6 Vanguard TV‐3 satellite on display at the Smithsonian Air and Spa...Figure 1.7 Decrease in short‐circuit current of n on p and p on n silicon so...Figure 1.8 Schematic of the Telstar silicon solar cell [46]Figure 1.9 Current–voltage curve for a Telstar cell at 28 °C at 100 mW/cm2[4...Figure 1.10 Evolution of recorded mono‐ and multicrystalline silicon solar c...Figure 1.11 Textured (100) monocrystalline silicon wafer.Figure 1.12 Bandgap and lattice constant for the important III–V alloys [62]...Figure 1.13 Structure of a 25.7% GaAs solar cell under the AM1.5 Global spec...Figure 1.14 (a) Structure of a tandem cell, showing the tunnel junction....Figure 1.15 Structure of a very high‐efficiency triple‐junction tandem III–V...Figure 1.16 Assembly of solar arrays for use in space

      2 Chapter 2Figure 2.1 Crude oil prices in $/barrel from 1946 to 2016.Figure 2.2 Import and export of crude oil in the United States from 1920Figure 2.3 US federal investments in energy R&D 1961–2008Figure 2.4 Schematic manufacturing process for silicon photovoltaic modules...Figure 2.5 Module lifetime over the duration of the FPSA programme [10]Figure 2.6 Solarex’s ‘solar breeder factory’, Frederick, MDFigure 2.7 Pellworm Island 200 kWp‐array European demonstration project

      3 Chapter 3Figure 3.1 Photovoltaic panels on an oil production platformFigure 3.2 Ogami Island lighthouse, Nagasaki, 1966.Figure 3.3 Hybrid photovoltaic–diesel microwave repeater station in Papua Ne...Figure 3.4 Typical photovoltaic‐powered ICCP system in the Libyan Oil Field....Figure 3.5 Photovoltaic‐powered parking meterFigure 3.6 Photovoltaic‐powered vehicle speed measurementFigure 3.7 UK roadside emergency telephoneFigure 3.8 Solar‐powered street light on a building siteFigure 3.9 Two‐axis tracked mirror‐enhanced solar revivers at the Carrisa Pl...Figure 3.10 First European central grid‐connected photovoltaic power plant (...Figure 3.11 Lighting in Africa: (a) photovoltaic‐powered;(b) candleFigure 3.12 Photovoltaic‐powered pump supplying water for crop irrigation in...Figure 3.13 Typical solar‐powered products from the early 1980s.

      4 Chapter 4Figure 4.1 Global photovoltaics market by technology, 1980–2017Figure 4.2 Schematic of a p/n junction solar cell, showing the flow of photo...Figure 4.3 Essential features of a simple silicon solar cellFigure 4.4 Dark (upper) and light (lower) current/voltage characteristics of...Figure 4.5 Typical solar cell from 1990Figure 4.6 Schematic layout of a Siemens reactor used in the production of s...Figure 4.7 Wacker Silso casting furnaceFigure 4.8 Cross‐section of part of a Wacker Silso ingotFigure 4.9 Cross‐section of a directionally solidified multicrystalline sili...Figure 4.10 Minority carrier lifetime and solar cell efficiency as a functio...Figure 4.11 First HCT wire sawFigure 4.12 Conceptual image of a silicon car being cut by multiple wires...Figure 4.13 Schematic inline remote‐plasma PECVD system for silicon nitride ...Figure 4.14 LBIC scan of a 1980s‐type 100 mm round monocrystalline cellFigure 4.15 Rear silver grid pattern on a pseudo square CZ waferFigure 4.16 Textured surface of an acid‐etched multicrystalline wafer [82]...Figure 4.17 Typical module construction

      5 Chapter 5Figure 5.1 Schematic evolution of the photovoltaics market as price fellFigure 5.2 Evolution of the world photovoltaics market by sectorFigure 5.3 Levelised cost of electricity in different off‐grid locations ver...Figure 5.4 Solar lighting in a Zambian homeFigure 5.5 Annual photovoltaic capacity additions for off‐grid nonresidentia...Figure 5.6 Eco House OxfordFigure 5.7 Block diagram of a typical 1000 Roof Programme domestic system [1...Figure 5.8 Cumulative installations in the German market from 1990 to 2002, ...Figure 5.9 СКАЧАТЬ