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Spie Press Book

Holographic Applications in Solar-Energy-Conversion Processes
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Book Description

This Spotlight provides an overview of the use of holographic optical elements in a variety of solar-energy-conversion applications, such as holographic planar concentrators (HPCs), ultra-light trapping filters for thin-film PV cells, and a variety of spectrum-splitting filters for high-efficiency PV and hybrid energy-conversion systems. In addition to describing the applications, an overview of important hologram design, materials, and fabrication methods relevant to solar conversion are discussed.

Book Details

Date Published: 12 April 2016
Pages: 48
ISBN: 9781510602137
Volume: SL13

Table of Contents
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1 Introduction
1.1 Properties of solar illumination
1.2 Photovoltaics cell operating characteristics
1.3 Photovoltaics cell efficiency considerations

2 Overview of Holography
2.1 Holographic process
2.2 Hologram ray tracing
2.3 Coupled-wave analysis
2.4 Volume grating criteria
2.5 Polarization effects on hologram diffraction efficiency

3 Broadband Holographic Concentrators
3.1 Solar concentrators
3.2 Holographic planar concentrator
3.3 Cost analysis of an holographic planar concentrator

4 Holographic Light-Trapping Filters

5 Holographic Spectrum-Splitting Systems
5.1 Introduction
5.2 Spectrum-splitting design considerations
5.3 Photovoltaics cell spectral responsivity for spectrum splitting
5.4 Spectrum-splitting configurations
5.5 Hologram - lens transmission dispersive spectrum-splitting system

6 Summary
6.1 Commercialization of holographic planar concentrator modules
6.2 Holographic lenses for concentrator applications
6.3 Building-integrated photovoltaic and lighting applications
6.4 Luminescent-solar-concentrator applications
6.5 Holographic materials



Solar-energy-conversion processes and, in particular, photovoltaic (PV) systems show great promise as an abundant source of renewable energy. However, to be viable and competitive with fossil fuel energy, the energy-conversion systems must produce a kilowatt-hour of energy for $0.04 to $0.05. This means that the entire system, including the balance of system and installation costs, must be less than $1/Wp, where Wp is the peak-rated power output of the system. Therefore, any new technique must provide a significant improvement in performance and must be implemented at low cost.

This Spotlight discusses the use of special-purpose holographic optical elements (HOEs) to increase the performance of PV components and systems. They are attractive because they can be designed to realize complex optical functions and can be mass produced at low cost. The remainder of Section 1 presents the properties of solar illumination and PV cell characteristics that are relevant to system designs that incorporate HOEs. In Section 2, an overview of holographic principles and design issues is given. Section 3 investigates the broadband holographic concentrators that can be incorporated into modules similar to conventional PV modules. Section 4 covers holographic light-trapping techniques that can increase the conversion efficiency of PV cells by increasing the light absorption near the band edge of the PV cell. Section 5 discusses the use of holographic components in spectrum-splitting PV systems, which show promise for considerably increasing energy-conversion efficiency. Finally, in Section 6, an overview of other application areas where HOEs can contribute to the performance of solar-energy-conversion systems is summarized.

Raymond K. Kostuk
Jose Castro
Deming Zhang
Juan M. Russo
Shelby Vorndran
April 2016

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