Solar Radiation Conversion

Sizmann, R.; Köpke, P.; Busen, R.

doi:10.1007/978-3-642-61245-9_2

Cited by 11 publications

(3 citation statements)

References 28 publications

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“…Reference may be made to [5] with regard to a thermodynamic treatment -particularly an exergy analysis -of the various energy conversion processes.…”

Section: Photothermal Conversion 2 Photovoltaic Conversion 3 Photocmentioning

confidence: 99%

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Solar Technology

Luther

Nast

Fisch

et al. 2000

Ullmann's Encyclopedia of Industrial Chemistry

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“…Reference may be made to [5] with regard to a thermodynamic treatment -particularly an exergy analysis -of the various energy conversion processes.…”

Section: Photothermal Conversion 2 Photovoltaic Conversion 3 Photocmentioning

confidence: 99%

“…The radiation properties of the sun and the geometry of the solar-terrestrial system result in an irradiance of E sc ¼ 1367 AE 1% W=m 2 at the top of the Earth's atmosphere (at the time of the equinoxes) [5]; where E sc is termed the solar constant. The associated extraterrestrial spectrum ( Fig.…”

Section: Terrestrial Solar Radiationmentioning

confidence: 99%

Solar Technology

Luther

Nast

Fisch

et al. 2000

Ullmann's Encyclopedia of Industrial Chemistry

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“…However, this error has insignificant influence on the results. Some of the above papers were reviewed in references [8,9].…”

Section: Introductionmentioning

confidence: 99%

Optimization of Multicolor Photothermal Power Plants in the Solar System: A Finite - Time Thermodynamic Approach

Bădescu

Dinu

1996

J. Phys. III France

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Solar Technology

Luther¹,

Nast²,

Fisch³

et al. 2012

Ullmann's Encyclopedia of Industrial Chemistry

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The article contains sections titled: 1. Introduction 1.1. Concerning the Importance of Solar Energy Conversion 1.2. Terrestrial Solar Radiation 1.3. Methods of Solar Energy Conversion 1.4. Matching of Solar Energy Production and Consumption 2. Solar Thermal Energy 2.1. Development and Historical Aspects 2.2. Solar Thermal Energy Conversion 2.3. Technical Utilization of Solar Energy 2.3.1. Low‐Temperature Applications 2.3.1.1. Design and Function of Flat Collectors 2.3.1.2. Systems for Heating Water 2.3.1.3. Systems for Room Heating 2.3.1.4. Other Low‐Temperature Applications 2.3.2. Medium‐Temperature and High‐Temperature Applications 2.3.2.1. Solar Concentration 2.3.2.2. Concepts for Solar Thermal Power Plants 2.3.2.3. Development for Realization 2.3.2.4. Solar Thermal Power Plants 2.3.2.5. Future Plants and Potential 2.3.2.6. Economic Aspects 2.3.2.7. Process Heat for Chemical Applications 3. Passive Utilization of Solar Energy 3.1. Introduction 3.2. Building Design 3.2.1. Site Analysis 3.2.2. Design 3.2.3. Heat Conservation 3.3. Elements of Passive Utilization 3.3.1. Collection 3.3.2. Storage and Distribution 3.3.3. Shading and Cooling 3.3.4. Daylight 3.4. Performance of a Solar House 4. Photovoltaic Systems 4.1. Principle of Operation, PV Materials, and State‐of‐the‐Art Solar Cells 4.2. General Structure of PV Systems 4.3. Photovoltaic Generators 4.3.1. Module Technology and Specifications 4.3.2. Tracking and Concentration 4.4. Power Conditioning Systems 4.5. Storage 4.6. Stand‐Alone PV Systems 4.7. Grid‐Connected PV Systems 4.8. Design Considerations and Modeling 4.9. Operational Experience 4.9.1. PV Module Performance 4.9.2. PV System Efficiency, Annual Energy Output 4.10. Economic Aspects, Market, Energy Payback, Prospects 4.10.1. Stand‐Alone PV Systems 4.10.2. Grid‐Connected PV Systems 4.10.3. Energy Payback Time 4.10.4. Multifunctional Use of PV Modules 5. Photoelectrochemical Solar Energy Conversion 5.1. Principles of Photoelectrochemical Solar Energy Conversion 5.2. Dye‐Sensitized Photoelectrochemical Solar Cells 5.3. Solar Wastewater Detoxification 5.4. Direct Photoelectrochemical Water Splitting 6. Economic Aspects

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Solar Radiation Conversion

Cited by 11 publications

References 28 publications

Solar Technology

Solar Technology

Optimization of Multicolor Photothermal Power Plants in the Solar System: A Finite - Time Thermodynamic Approach

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