A Modular Ceramic Cavity-Receiver for High-Temperature High-Concentration Solar Applications
- Author
- HISCHIER, I1 ; POZIVIL, P1 ; STEINFELD, A2
[1] Department of Mechanical and Process Engineering, ETH Zürich, 8092 Zürich, Switzerland
[2] Solar Technology Laboratory, Paul Scherrer Institute, 5232 Villigen, Switzerland - Source
Journal of solar energy engineering. 2012, Vol 134, Num 1 ; 011004.1-011004.6 ; ref : 22 ref
- Publisher
- American Society of Mechanical Engineers, New York, NY
- Publication country
- United States
- Document type
- Article
- Language
- English
- Keyword (fr)
- Carbure de silicium Cavité Centrale solaire tour Concentrateur parabolique composé Convection Céramique Electronique puissance Energie solaire Haute température Méthode Monte Carlo Méthode volume fini Méthode élément fini Production énergie électrique Propriété matériau Puissance absorbée Revêtement réfléchissant Récepteur cavité Signal entrée Simulation numérique Taux concentration Température air Tracé rayon Transfert chaleur Turbine gaz
- Keyword (en)
- Silicon carbide Cavity Solar tower Compound parabolic concentrators Convection Ceramic materials Power electronics Solar energy High temperature Monte Carlo method Finite volume method Finite element method Electric power production Properties of materials Power input Reflective coatings Cavity receivers Input signal Numerical simulation Concentration factor Air temperature Ray tracing Heat transfer Gas turbine
- Keyword (es)
- Silicio carburo Cavidad Central solar torre Convección Cerámica Electrónica potencia Energía solar Alta temperatura Método Monte Carlo Método volumen finito Método elemento finito Producción energía eléctrica Propiedad material Señal entrada Simulación numérica Indice concentración Temperatura aire Trazado rayos Transferencia térmica Turbina gas
- Classification
- Pascal
- 001 Exact sciences and technology / 001D Applied sciences / 001D05 Electrical engineering. Electrical power engineering / 001D05H Power electronics, power supplies
- Pascal
- 001 Exact sciences and technology / 001D Applied sciences / 001D05 Electrical engineering. Electrical power engineering / 001D05I Electrical power engineering / 001D05I02 Electric power plants / 001D05I02E Miscellaneous
- Pascal
- 001 Exact sciences and technology / 001D Applied sciences / 001D06 Energy / 001D06C Natural energy / 001D06C02 Solar energy / 001D06C02C Solar thermal conversion / 001D06C02C3 Solar thermal power plants
- Pascal
- 001 Exact sciences and technology / 001D Applied sciences / 001D06 Energy / 001D06D Energy. Thermal use of fuels / 001D06D03 Equipments for energy generation and conversion: thermal, electrical, mechanical energy, etc / 001D06D03D Engines and turbines
- Discipline
- Electrical engineering. Electroenergetics Energy
- Origin
- Inist-CNRS
- Database
- PASCAL
- INIST identifier
- 25539219
Sauf mention contraire ci-dessus, le contenu de cette notice bibliographique peut être utilisé dans le cadre d’une licence CC BY 4.0 Inist-CNRS / Unless otherwise stated above, the content of this bibliographic record may be used under a CC BY 4.0 licence by Inist-CNRS / A menos que se haya señalado antes, el contenido de este registro bibliográfico puede ser utilizado al amparo de una licencia CC BY 4.0 Inist-CNRS
Access to the document
Install on your browser
DOI
10.1115/1.4005107 
https://dx.doi.org/10.1115/1.4005107
"O:13:\"PanistOpenUrl\":36:{s:10:\"\u0000*\u0000openUrl\";N;s:6:\"\u0000*\u0000idc\";N;s:6:\"\u0000*\u0000fmt\";s:7:\"journal\";s:6:\"\u0000*\u0000doi\";s:17:\"10.1115\/1.4005107\";s:6:\"\u0000*\u0000pii\";s:0:\"\";s:7:\"\u0000*\u0000pmid\";s:0:\"\";s:9:\"\u0000*\u0000atitle\";s:92:\"A Modular Ceramic Cavity-Receiver for High-Temperature High-Concentration Solar Applications\";s:9:\"\u0000*\u0000jtitle\";s:35:\"Journal of solar energy engineering\";s:9:\"\u0000*\u0000stitle\";s:18:\"J. sol. energy eng\";s:7:\"\u0000*\u0000date\";s:4:\"2012\";s:9:\"\u0000*\u0000volume\";s:3:\"134\";s:8:\"\u0000*\u0000issue\";s:1:\"1\";s:8:\"\u0000*\u0000spage\";s:0:\"\";s:8:\"\u0000*\u0000epage\";s:0:\"\";s:8:\"\u0000*\u0000pages\";s:17:\"011004.1-011004.6\";s:7:\"\u0000*\u0000issn\";s:9:\"0199-6231\";s:8:\"\u0000*\u0000eissn\";s:0:\"\";s:9:\"\u0000*\u0000aulast\";s:8:\"HISCHIER\";s:10:\"\u0000*\u0000aufirst\";s:1:\"I\";s:9:\"\u0000*\u0000auinit\";s:0:\"\";s:10:\"\u0000*\u0000auinitm\";s:0:\"\";s:5:\"\u0000*\u0000au\";a:2:{i:0;s:10:\"POZIVIL, P\";i:1;s:12:\"STEINFELD, A\";}s:9:\"\u0000*\u0000aucorp\";s:0:\"\";s:7:\"\u0000*\u0000isbn\";s:0:\"\";s:8:\"\u0000*\u0000coden\";s:6:\"JSEEDO\";s:8:\"\u0000*\u0000genre\";s:7:\"article\";s:7:\"\u0000*\u0000part\";s:0:\"\";s:9:\"\u0000*\u0000btitle\";s:0:\"\";s:8:\"\u0000*\u0000title\";s:92:\"A Modular Ceramic Cavity-Receiver for High-Temperature High-Concentration Solar Applications\";s:8:\"\u0000*\u0000place\";s:12:\"New York, NY\";s:6:\"\u0000*\u0000pub\";s:40:\"American Society of Mechanical Engineers\";s:10:\"\u0000*\u0000edition\";s:0:\"\";s:9:\"\u0000*\u0000tpages\";s:0:\"\";s:9:\"\u0000*\u0000series\";s:0:\"\";s:8:\"\u0000*\u0000proxy\";s:30:\"http:\/\/proxyout.inist.fr:8080\/\";s:12:\"\u0000*\u0000integrite\";b:1;}"
Panist access
"O:12:\"IstexOpenUrl\":35:{s:10:\"\u0000*\u0000openUrl\";N;s:6:\"\u0000*\u0000fmt\";s:7:\"journal\";s:6:\"\u0000*\u0000doi\";s:17:\"10.1115\/1.4005107\";s:6:\"\u0000*\u0000pii\";s:0:\"\";s:7:\"\u0000*\u0000pmid\";s:0:\"\";s:9:\"\u0000*\u0000atitle\";s:92:\"A Modular Ceramic Cavity-Receiver for High-Temperature High-Concentration Solar Applications\";s:9:\"\u0000*\u0000jtitle\";s:35:\"Journal of solar energy engineering\";s:9:\"\u0000*\u0000stitle\";s:18:\"J. sol. energy eng\";s:7:\"\u0000*\u0000date\";s:4:\"2012\";s:9:\"\u0000*\u0000volume\";s:3:\"134\";s:8:\"\u0000*\u0000issue\";s:1:\"1\";s:8:\"\u0000*\u0000spage\";s:0:\"\";s:8:\"\u0000*\u0000epage\";s:0:\"\";s:8:\"\u0000*\u0000pages\";s:17:\"011004.1-011004.6\";s:7:\"\u0000*\u0000issn\";s:9:\"0199-6231\";s:8:\"\u0000*\u0000eissn\";s:0:\"\";s:9:\"\u0000*\u0000aulast\";s:8:\"HISCHIER\";s:10:\"\u0000*\u0000aufirst\";s:1:\"I\";s:9:\"\u0000*\u0000auinit\";s:0:\"\";s:10:\"\u0000*\u0000auinitm\";s:0:\"\";s:5:\"\u0000*\u0000au\";a:2:{i:0;s:10:\"POZIVIL, P\";i:1;s:12:\"STEINFELD, A\";}s:9:\"\u0000*\u0000aucorp\";s:0:\"\";s:7:\"\u0000*\u0000isbn\";s:0:\"\";s:8:\"\u0000*\u0000coden\";s:6:\"JSEEDO\";s:8:\"\u0000*\u0000genre\";s:7:\"article\";s:7:\"\u0000*\u0000part\";s:0:\"\";s:9:\"\u0000*\u0000btitle\";s:0:\"\";s:8:\"\u0000*\u0000title\";s:92:\"A Modular Ceramic Cavity-Receiver for High-Temperature High-Concentration Solar Applications\";s:8:\"\u0000*\u0000place\";s:12:\"New York, NY\";s:6:\"\u0000*\u0000pub\";s:40:\"American Society of Mechanical Engineers\";s:10:\"\u0000*\u0000edition\";s:0:\"\";s:9:\"\u0000*\u0000tpages\";s:0:\"\";s:9:\"\u0000*\u0000series\";s:0:\"\";s:8:\"\u0000*\u0000proxy\";s:30:\"http:\/\/proxyout.inist.fr:8080\/\";s:12:\"\u0000*\u0000integrite\";b:1;}"
Istex access
"O:16:\"UnpaywallOpenUrl\":35:{s:8:\"\u0000*\u0000email\";s:27:\"assistance-portail@inist.fr\";s:6:\"\u0000*\u0000fmt\";N;s:6:\"\u0000*\u0000doi\";s:17:\"10.1115\/1.4005107\";s:6:\"\u0000*\u0000pii\";N;s:7:\"\u0000*\u0000pmid\";N;s:9:\"\u0000*\u0000atitle\";N;s:9:\"\u0000*\u0000jtitle\";N;s:9:\"\u0000*\u0000stitle\";N;s:7:\"\u0000*\u0000date\";N;s:9:\"\u0000*\u0000volume\";N;s:8:\"\u0000*\u0000issue\";N;s:8:\"\u0000*\u0000spage\";N;s:8:\"\u0000*\u0000epage\";N;s:8:\"\u0000*\u0000pages\";N;s:7:\"\u0000*\u0000issn\";N;s:8:\"\u0000*\u0000eissn\";N;s:9:\"\u0000*\u0000aulast\";N;s:10:\"\u0000*\u0000aufirst\";N;s:9:\"\u0000*\u0000auinit\";N;s:10:\"\u0000*\u0000auinitm\";N;s:5:\"\u0000*\u0000au\";N;s:9:\"\u0000*\u0000aucorp\";N;s:7:\"\u0000*\u0000isbn\";N;s:8:\"\u0000*\u0000coden\";N;s:8:\"\u0000*\u0000genre\";N;s:7:\"\u0000*\u0000part\";N;s:9:\"\u0000*\u0000btitle\";N;s:8:\"\u0000*\u0000title\";N;s:8:\"\u0000*\u0000place\";N;s:6:\"\u0000*\u0000pub\";N;s:10:\"\u0000*\u0000edition\";N;s:9:\"\u0000*\u0000tpages\";N;s:9:\"\u0000*\u0000series\";N;s:8:\"\u0000*\u0000proxy\";s:30:\"http:\/\/proxyout.inist.fr:8080\/\";s:12:\"\u0000*\u0000integrite\";N;}"
Unpaywall access
"O:16:\"EuropePMCOpenUrl\":35:{s:10:\"\u0000*\u0000openUrl\";N;s:6:\"\u0000*\u0000fmt\";s:7:\"journal\";s:6:\"\u0000*\u0000doi\";s:17:\"10.1115\/1.4005107\";s:6:\"\u0000*\u0000pii\";s:0:\"\";s:7:\"\u0000*\u0000pmid\";s:0:\"\";s:9:\"\u0000*\u0000atitle\";s:92:\"A Modular Ceramic Cavity-Receiver for High-Temperature High-Concentration Solar Applications\";s:9:\"\u0000*\u0000jtitle\";s:35:\"Journal of solar energy engineering\";s:9:\"\u0000*\u0000stitle\";s:18:\"J. sol. energy eng\";s:7:\"\u0000*\u0000date\";s:4:\"2012\";s:9:\"\u0000*\u0000volume\";s:3:\"134\";s:8:\"\u0000*\u0000issue\";s:1:\"1\";s:8:\"\u0000*\u0000spage\";s:0:\"\";s:8:\"\u0000*\u0000epage\";s:0:\"\";s:8:\"\u0000*\u0000pages\";s:17:\"011004.1-011004.6\";s:7:\"\u0000*\u0000issn\";s:9:\"0199-6231\";s:8:\"\u0000*\u0000eissn\";s:0:\"\";s:9:\"\u0000*\u0000aulast\";s:8:\"HISCHIER\";s:10:\"\u0000*\u0000aufirst\";s:1:\"I\";s:9:\"\u0000*\u0000auinit\";s:0:\"\";s:10:\"\u0000*\u0000auinitm\";s:0:\"\";s:5:\"\u0000*\u0000au\";a:2:{i:0;s:10:\"POZIVIL, P\";i:1;s:12:\"STEINFELD, A\";}s:9:\"\u0000*\u0000aucorp\";s:0:\"\";s:7:\"\u0000*\u0000isbn\";s:0:\"\";s:8:\"\u0000*\u0000coden\";s:6:\"JSEEDO\";s:8:\"\u0000*\u0000genre\";s:7:\"article\";s:7:\"\u0000*\u0000part\";s:0:\"\";s:9:\"\u0000*\u0000btitle\";s:0:\"\";s:8:\"\u0000*\u0000title\";s:92:\"A Modular Ceramic Cavity-Receiver for High-Temperature High-Concentration Solar Applications\";s:8:\"\u0000*\u0000place\";s:12:\"New York, NY\";s:6:\"\u0000*\u0000pub\";s:40:\"American Society of Mechanical Engineers\";s:10:\"\u0000*\u0000edition\";s:0:\"\";s:9:\"\u0000*\u0000tpages\";s:0:\"\";s:9:\"\u0000*\u0000series\";s:0:\"\";s:8:\"\u0000*\u0000proxy\";s:30:\"http:\/\/proxyout.inist.fr:8080\/\";s:12:\"\u0000*\u0000integrite\";b:1;}"
Europe PubMed Central access
"O:11:\"BaseOpenUrl\":35:{s:10:\"\u0000*\u0000openUrl\";N;s:6:\"\u0000*\u0000fmt\";s:7:\"journal\";s:6:\"\u0000*\u0000doi\";s:17:\"10.1115\/1.4005107\";s:6:\"\u0000*\u0000pii\";s:0:\"\";s:7:\"\u0000*\u0000pmid\";s:0:\"\";s:9:\"\u0000*\u0000atitle\";s:92:\"A Modular Ceramic Cavity-Receiver for High-Temperature High-Concentration Solar Applications\";s:9:\"\u0000*\u0000jtitle\";s:35:\"Journal of solar energy engineering\";s:9:\"\u0000*\u0000stitle\";s:18:\"J. sol. energy eng\";s:7:\"\u0000*\u0000date\";s:4:\"2012\";s:9:\"\u0000*\u0000volume\";s:3:\"134\";s:8:\"\u0000*\u0000issue\";s:1:\"1\";s:8:\"\u0000*\u0000spage\";s:0:\"\";s:8:\"\u0000*\u0000epage\";s:0:\"\";s:8:\"\u0000*\u0000pages\";s:17:\"011004.1-011004.6\";s:7:\"\u0000*\u0000issn\";s:9:\"0199-6231\";s:8:\"\u0000*\u0000eissn\";s:0:\"\";s:9:\"\u0000*\u0000aulast\";s:8:\"HISCHIER\";s:10:\"\u0000*\u0000aufirst\";s:1:\"I\";s:9:\"\u0000*\u0000auinit\";s:0:\"\";s:10:\"\u0000*\u0000auinitm\";s:0:\"\";s:5:\"\u0000*\u0000au\";a:2:{i:0;s:10:\"POZIVIL, P\";i:1;s:12:\"STEINFELD, A\";}s:9:\"\u0000*\u0000aucorp\";s:0:\"\";s:7:\"\u0000*\u0000isbn\";s:0:\"\";s:8:\"\u0000*\u0000coden\";s:6:\"JSEEDO\";s:8:\"\u0000*\u0000genre\";s:7:\"article\";s:7:\"\u0000*\u0000part\";s:0:\"\";s:9:\"\u0000*\u0000btitle\";s:0:\"\";s:8:\"\u0000*\u0000title\";s:92:\"A Modular Ceramic Cavity-Receiver for High-Temperature High-Concentration Solar Applications\";s:8:\"\u0000*\u0000place\";s:12:\"New York, NY\";s:6:\"\u0000*\u0000pub\";s:40:\"American Society of Mechanical Engineers\";s:10:\"\u0000*\u0000edition\";s:0:\"\";s:9:\"\u0000*\u0000tpages\";s:0:\"\";s:9:\"\u0000*\u0000series\";s:0:\"\";s:8:\"\u0000*\u0000proxy\";s:30:\"http:\/\/proxyout.inist.fr:8080\/\";s:12:\"\u0000*\u0000integrite\";b:1;}"
Base Search access
"O:12:\"ArXivOpenUrl\":35:{s:10:\"\u0000*\u0000openUrl\";N;s:6:\"\u0000*\u0000fmt\";s:7:\"journal\";s:6:\"\u0000*\u0000doi\";s:17:\"10.1115\/1.4005107\";s:6:\"\u0000*\u0000pii\";s:0:\"\";s:7:\"\u0000*\u0000pmid\";s:0:\"\";s:9:\"\u0000*\u0000atitle\";s:92:\"A Modular Ceramic Cavity-Receiver for High-Temperature High-Concentration Solar Applications\";s:9:\"\u0000*\u0000jtitle\";s:35:\"Journal of solar energy engineering\";s:9:\"\u0000*\u0000stitle\";s:18:\"J. sol. energy eng\";s:7:\"\u0000*\u0000date\";s:4:\"2012\";s:9:\"\u0000*\u0000volume\";s:3:\"134\";s:8:\"\u0000*\u0000issue\";s:1:\"1\";s:8:\"\u0000*\u0000spage\";s:0:\"\";s:8:\"\u0000*\u0000epage\";s:0:\"\";s:8:\"\u0000*\u0000pages\";s:17:\"011004.1-011004.6\";s:7:\"\u0000*\u0000issn\";s:9:\"0199-6231\";s:8:\"\u0000*\u0000eissn\";s:0:\"\";s:9:\"\u0000*\u0000aulast\";s:8:\"HISCHIER\";s:10:\"\u0000*\u0000aufirst\";s:1:\"I\";s:9:\"\u0000*\u0000auinit\";s:0:\"\";s:10:\"\u0000*\u0000auinitm\";s:0:\"\";s:5:\"\u0000*\u0000au\";a:2:{i:0;s:10:\"POZIVIL, P\";i:1;s:12:\"STEINFELD, A\";}s:9:\"\u0000*\u0000aucorp\";s:0:\"\";s:7:\"\u0000*\u0000isbn\";s:0:\"\";s:8:\"\u0000*\u0000coden\";s:6:\"JSEEDO\";s:8:\"\u0000*\u0000genre\";s:7:\"article\";s:7:\"\u0000*\u0000part\";s:0:\"\";s:9:\"\u0000*\u0000btitle\";s:0:\"\";s:8:\"\u0000*\u0000title\";s:92:\"A Modular Ceramic Cavity-Receiver for High-Temperature High-Concentration Solar Applications\";s:8:\"\u0000*\u0000place\";s:12:\"New York, NY\";s:6:\"\u0000*\u0000pub\";s:40:\"American Society of Mechanical Engineers\";s:10:\"\u0000*\u0000edition\";s:0:\"\";s:9:\"\u0000*\u0000tpages\";s:0:\"\";s:9:\"\u0000*\u0000series\";s:0:\"\";s:8:\"\u0000*\u0000proxy\";s:30:\"http:\/\/proxyout.inist.fr:8080\/\";s:12:\"\u0000*\u0000integrite\";b:1;}"
arXiv access
