1. 1. SOLAR RESOURCE AND METEOROLOGICAL PARAMETERS ASSESSMENT
1.1. (1) SOLAR RADIATION MEASUREMENT AND WEATHER STATION
1.1.1. CNRS
1.1.2. UEVORA
1.1.3. LNEG
1.1.4. UAL
1.1.5. Fraunhofer
1.2. (2) ADVISING ON SOLAR RADIATION MEASUREMNT AND DATA PROCESSING
1.2.1. UEVORA
1.2.2. UAL
1.3. (3) DNI MEASUREMNT AND ANALYSIS
1.3.1. UEVORA
1.3.2. LNEG
2. 2. SERVICES ON REFLECTORS AND CONCENTRATORS
2.1. 2.1. EXPERIMENTAL SERVICES ON REFLECTORS
2.1.1. (4) CHARACTERIZATION OF OPTICAL PROPERTIES OF SOLAR REFLECTORS
2.1.1.1. ENEA
2.1.1.2. IMDEA
2.1.1.3. Fraunhofer
2.1.1.4. LNEG
2.1.1.5. CEA
2.1.2. (5) DURABILITY OF SOLAR REFLECTORS UNDER ACCELERATED AGING
2.1.2.1. CEA
2.1.2.2. FRAUNHOFER
2.1.2.3. LNEG
2.1.3. (6) OUTDOOR EXPOSURE OF SOLAR REFLECTORS
2.1.3.1. CNRS
2.1.3.2. CEA
2.1.3.3. IMDEA
2.1.3.4. CYI
2.1.3.5. Fraunhofer
2.1.3.6. LNEG
2.1.4. (7) OPTICAL PROPERTIES OF MIRRORS. REFLECTANCE MEASUREMENT. FACETS CHARACTERIZATION
2.1.4.1. ENEA
2.1.4.2. CEA
2.1.4.3. UEVORA
2.1.4.4. Fraunhofer
2.1.5. (8) CORROSION AND MATERIAL PROTECTION STUDIES UNDER ARTIFICIAL AGING TESTS
2.1.5.1. DLR
2.1.5.2. CEA
2.1.5.3. Fraunhofer
2.1.5.4. LNEG
2.1.6. (9) CORROSION AND MATERIAL PROTECTION STUDIES UNDER OUTDOOR EXPOSURE
2.1.6.1. IMDEA
2.1.6.2. Fraunhofer
2.1.6.3. LNEG
2.1.7. (10) MEASUREMENTS ON MATERIAL PROPERTIES
2.1.7.1. CNRS
2.1.7.2. ENEA
2.1.7.3. CEA
2.1.7.4. ETH
2.1.7.5. IMDEA
2.1.7.6. LNEG
2.1.8. (11) HELIOSTAT CONTROL ALGORITHMS
2.1.8.1. CNRS
2.1.8.2. IMDEA
2.1.8.3. CYI
2.1.8.4. UAL
2.1.8.5. Fraunhofer
2.2. 2.2. AVAILABLE SERVICES ON CONCETRATORS' EXPERIMENTAL CHARACTERIZATION
2.2.1. (12) PHOTOGRAMMETRY MEASUREMENT OF CONCENTRATOR'S SHAPE
2.2.1.1. ENEA
2.2.1.2. CYI
2.2.1.3. Fraunhofer
2.2.2. (13) GEOMETRICAL ASSESSMENT OF SOLAR CONCENTRATORS (SINGLE FACETS, POINT AND LINE FOCUS COLLECTORS)
2.2.2.1. ENEA
2.2.2.2. CEA
2.2.2.3. Fraunhofer
2.2.3. (14) DEFLECTOMETRY MEASUREMENT OF CONCENTRATOR'S SHAPE
2.2.3.1. ENEA
2.2.3.2. Fraunhofer
2.2.4. (15) OPTICAL AND THERMAL CHARACTERIZATION OF SOLAR CONCENTRATORS
2.2.4.1. CNRS
2.2.4.2. ENEA
2.2.4.3. CEA
2.2.4.4. UEVORA
2.2.4.5. IMDEA
2.2.5. (16) HELIOSTAT(S) PERFORMANCE QUALIFICATION
2.2.5.1. CEA
2.2.5.2. IMDEA
2.2.5.3. Fraunhofer
2.2.6. (17) PARABOLIC TROUGH COLLECTOR'S CHARACTERIZATION
2.2.6.1. CNRS
2.2.6.2. ENEA
2.2.6.3. CEA
2.2.6.4. UEVORA
3. 3. EXPERIMENTAL SERVICES ON ABSORBERS AND RECEIVERS
3.1. 3.1. EXPERIMENTAL SERVICES ON ABSORBERS
3.1.1. (18) ACCELERATED AGING OF ABSORBERS AND ABSORBING COATINGS
3.1.1.1. CNRS
3.1.1.2. DLR
3.1.1.3. CEA
3.1.1.4. IMDEA
3.1.1.5. Fraunhofer
3.1.1.6. LNEG
3.1.2. (19) OPTICAL PROPERTIES/CHARACTERIZATION OF ABSORBERS AND RECEIVERS AND THEIR COATING
3.1.2.1. CNRS
3.1.2.2. ENEA
3.1.2.3. CEA
3.1.2.4. IMDEA
3.1.2.5. Fraunhofer
3.1.2.6. LNEG
3.1.3. (20) SURFACE PROPERTIES OF ABSORBERS & RECEIVERS AND THEIR COATING
3.1.3.1. CNRS
3.1.3.2. CEA
3.1.3.3. Fraunhofer
3.1.3.4. LNEG
3.2. 3.2. EXPERIMENTAL SERVICES ON LINEAR FOCUS RECEIVERS
3.2.1. (21) OUTDOOR OPTICAL AND THERMAL PERFORMANCE OF PTC LINEAR RECEIVERS
3.2.1.1. CNRS
3.2.1.2. CEA
3.2.1.3. UEVORA
3.2.2. (22) OUTDOOR OPTICAL AND THERMAL PERFORMANCE OF LINEAR FRESNEL RECEIVERS
3.2.2.1. UEVORA
3.2.2.2. CYI
3.2.3. (23) INDOOR QUALIFICATION OF LINEAR RECEIVERS FOR PTC
3.2.3.1. DLR
3.2.4. (24) INDOOR QUALIFICATION OF LINEAR RECEIVERS FOR LFC
3.2.4.1. Fraunhofer
3.2.5. (25) TESTING OF COMPONENTS FOR PARABOLIC TROUGHS SOLAR FIELDS WITH DIRECT STEAM GENERATION UNDER REAL OPERATING CONDITIONS
3.2.6. (26) TESTING OF COMPONENTS FOR PARABOLIC TROUGHS SOLAR FIELDS WITH OIL UNDER REAL OPERATING CONDITIONS
3.2.6.1. CNRS
3.2.7. (27) LINEAR FRESNEL CONTROL ALGORITHMS
3.2.7.1. CYI
3.3. 3.3. EXPERIMENTAL SERVICES ON ANTI-REFLECTIVE MATERIALS
3.3.1. (28) SURFACE PROPERTIES OF ANTI-REFLECTIVE COATINGS FOR SOLAR RECEIVERS
3.3.1.1. CEA
3.3.2. (29) OPTICAL PROPERTIES OF SOLAR GLASS ENVELOPES WITH & WITHOUT ANTI-REFLECTIVE COASTINGS
3.3.2.1. ENEA
3.3.2.2. CEA
3.3.2.3. IMDEA
3.3.2.4. LNEG
3.3.3. (30) DURABILITY TESTS OF ANTI-REFLECTIVE COASTINGS ON GLASS ENVELOPES
3.3.3.1. CEA
3.3.3.2. Fraunhofer
3.3.4. (31) STATIC CONTACT ANGLE MEASUREMENTS ON THE SURFACE OF ANTI-REFLECTIVE COASTINGS
3.3.4.1. CEA
3.4. 3.4. EXPERIMENTAL SERVICES ON POINT FOCUS RECEIVERS
3.4.1. (32) THERMAL AND THERMODYNAMIC CHARACTERIZATION OF PROTOTYPE RECEIVERS FOR CENTRAL RECEIVER ON TOWER TECHONOLOGIES UNDER REAL OPERATING CONDITIONS
3.4.1.1. CNRS
3.4.1.2. IMDEA
3.4.1.3. CYI
3.4.2. (33) LAB-SCALE TEST BED USED FOR THE EVALUATION OF OPEN VOLUMETRIC RECEIVERS
3.4.2.1. ETH
3.4.2.2. IMDEA
3.4.3. (34) CHARACTERIZATION OF THERMAL PERFORMANCE OF PROTOTYPE RECEIVERS FOR SOLAR DISH TECHNOLOGY COUPLED WITH MGT ENGINE
3.4.3.1. ENEA
4. 4. SERVICE ON HEAT TRANSFER FLUIDS
4.1. (35) QUALIFICATION HTF BASED ON PARTICLES
4.1.1. CNRS
4.1.2. IMDEA
4.2. (36) CHARACTERIZATION OF HTF THERMAL PROPERTIES
4.2.1. ENEA
4.2.2. UEVORA
4.2.3. CNRS
4.3. (37) CHARACTERIZATION OF HTF/HSM CHEMICAL STABILITY
4.3.1. CNRS
4.3.2. ENEA
4.3.3. Fraunhofer
4.3.4. LNEG
4.4. (38) QUALIFICATION HSM/HTF
4.4.1. CNRS
4.4.2. ENEA
4.4.3. UEVORA
4.4.4. Fraunhofer
5. 5. SERVICES ON AUXILIARY EQUIPMENT
5.1. (39) TESTING OF ROTATING CONNECTIONS FOR PT RECEIVER (FLEXIBLE HOSES, BALL-JOINTS, ETC...)
5.1.1. CNRS
5.2. (40) FLEXIBLE OR BALL-JOINTS CONNECTIONS TESTING FOR MOLTEN SALT LOOP
5.2.1. ENEA
5.3. (41) TESTING IN MOLTEN SALT LOOP OF AUXILIARY COMPONENTS (VALVES, HEAT TRACING, INSTRUMENTATION)
5.3.1. UEVORA
5.3.2. CYI
5.4. (42) SENSOR DEVELOPMENT AND TESTING
5.4.1. CNRS
5.4.2. CYI
5.4.3. Fraunhofer
5.5. (43) HEAT EXCHANGERS CHARACTERIZATION
5.5.1. CNRS
5.5.2. ENEA
5.6. (44) MOLTEN SALT POOL TO STEAM HEAT EXCHANGERS
5.6.1. CYI
6. 6. SERVICES ON THERMAL ENERGY STORAGE (MEDIA & SYSTEM)
6.1. (45) STUDY ON MOLTEN SALTS IN PARABOLIC TROUGH COLLECTORS AND PIPE SECTION
6.1.1. ENEA
6.2. (46) CHARACTERIZATION OF MATERIALS AND COMPONENTS FOR TES
6.2.1. ENEA
6.2.2. UEVORA
6.2.3. IMDEA
6.2.4. Fraunhofer
6.3. (47) FEASABILITY OF MATERIALS FOR SENSIBLE AND LATENT THERMAL STORAGE SYSTEMS
6.3.1. CIEMAT
6.3.2. ENEA
6.3.3. UEVORA
6.3.4. Fraunhofer
6.4. (48) QUALIFICATION OF HEAT STORAGE USING PACKED BEDS UNDER REAL OPERATING CONDITIONS
6.4.1. CNRS
6.4.2. ENEA
6.5. (49) THERMAL AND THERMOCHEMICAL PROPERTIES EVALUATION FOR THERMAL STORAGE MATERIAL
6.5.1. CNRS
6.5.2. ENEA
6.5.3. ETH
6.5.4. IMDEA
6.6. (50) DEVELOPMENT AND CHARACTERIZATION OF MATERIALS AND COMPONENTS FOR TES
6.6.1. CNRS
6.6.2. ENEA
6.6.3. UEVORA
6.6.4. IMDEA
6.6.5. Fraunhofer
6.7. (51) ADVANCED SOLID CONCEPTS FOR THERMAL ENERGY STORAGE
6.7.1. CNRS
6.7.2. UEVORA
6.7.3. IMDEA
6.7.4. UAL
6.8. (52)CHARACTERIZATION OF MATERIALS AND COMPONENTS FOR TES SYSTEMS WITH MOLTEN SALTS
6.8.1. CIEMAT
6.8.2. ENEA
6.8.3. UEVORA
6.8.4. Fraunhofer
6.8.5. LNEG
6.9. (53) QUALIFICATION OF HEAT STORAGE USING CONCRETE UNDER EXPERIMENTAL CONDITIONS
6.9.1. CNRS
6.9.2. UEVORA
6.10. (54) QUALIFICATION OF HEAT STORAGE USING PCM UNDER EXPERIMENTAL CONDITIONS
6.10.1. CNRS
6.10.2. CEA
6.10.3. Fraunhofer
6.11. (55) SIMULATION AND MODELING OF THERMAL STORAGE SYSTEMS, INTEGRATION IN STE PLANTS OR INDUSTRIAL HEAT PROCESSES
6.11.1. ENEA
6.11.2. UEVORA
6.11.3. IMDEA
6.11.4. Fraunhofer
6.11.5. LNEG
6.12. (56) ATMOSFERIC AIR PACKED BED TEST BENCH FOR SIMULATION MODELS VALIDATION
6.12.1. CNRS
6.13. (57) TESTING TES PROTOTYPES USING OIL AS HTF
6.13.1. CIEMAT
6.13.2. CNRS
6.13.3. CEA
6.14. (58) TWO-TANK MOLTEN SALT STORAGE SYSTEM FOR SIMULATION MODELS VALIDATION
6.14.1. CIEMAT
6.14.2. UEVORA
7. 7. SERVICES ON ENGINES & POWER BLOCS
7.1. 7.1. SOLARIZED STIRLING ENGINES
7.1.1. (59) TESTING OF SOLARIZED STIRLING ENGINES IN REAL CONDITIONS
7.1.1.1. CNRS
7.1.2. (60) TESTING OF SOLARIZED GAS TURBINE IN REAL CONDITIONS
7.1.2.1. CNRS
7.1.3. (61) TESTING OF SMALL STEAM TURBINES POWERED BY MOLTEN SALT STEAM GENERATOR
7.1.3.1. CNRS
7.1.3.2. CYI
7.2. 7.2. OTHER SERVICES ON ENGINES & POWER BLOCKS FOR CSP
7.2.1. (62) OPTIMIZATION OF EXHAUST GAS/MOLTEN SALT HEAT EXCHANGERS BY MEANS OF NUMERICAL SIMULATION AND EXPERIMENTAL
7.2.1.1. CNRS
8. 8. SERVICES ON CALIBRATION OF KEY SENSORS & MEASUREMENTS FOR STE
8.1. (63) ONLINE & OFFLINE DIAGNOSTICS
8.1.1. CNRS
8.2. (64) CALIBRATION OF CONCENTRATED SOLAR IRRADIANCE SENSORS
8.2.1. CNRS
8.2.2. DLR
8.3. (65) HIGH FLUX SENSORS QUALIFICATION
8.3.1. CNRS
8.3.2. DLR
8.4. (66) QUALIFICATION OF HIGHT RADIATIVE FLUX PROCESSES
8.4.1. CNRS
8.4.2. DLR
8.5. (67) CALIBRATION ON INFRARED SENSORS FOR TEMPERATURE MEASUREMENT
8.5.1. DLR
8.6. (68) NON-CONTACT TEMPERATURE MEASUREMENT AT SOLAR FURNACES
8.6.1. CIEMAT
8.6.2. CNRS
8.7. (69) HIGH TEMPERATURE OPTICAL PROPERTIES MEASUREMENT
8.7.1. CNRS
8.8. (70) CALIBRATION OF SYNTHETIC OIL MASS FLOW METERS
8.8.1. CNRS
8.8.2. ENEA
8.9. (71) CALIBRATION OF SOLAR IRRADIATION, TEMPERATURE AND PRESSURE MEASUREMENT SENSORS
8.10. (72) CALIBRATION OF RSP SOLAR IRRADIATION SENSORS
9. 9. SERVICES ON SOLAR CHEMISTRY
9.1. 9.1. WATER TREATMENT, DISINFECTION & DESALINATION
9.1.1. (73) SOLAR PHOTOCATALYTIC TREATMENT OF URBAN & INDUSTRIAL WASTEWATERS
9.1.1.1. CIEMAT
9.1.1.2. LNEG
9.1.1.3. UAL
9.1.2. (74) SOLAR PHOTOCATALYTIC WATER DISINFECTION
9.1.2.1. CIEMAT
9.1.2.2. UAL
9.1.3. (75) SOLAR REACTORS DEVELOPMENT FOR WATER TREATMENT
9.1.3.1. CIEMAT
9.1.3.2. UAL
9.1.4. (76) SOLAR THERMAL DESALINATION BY MULTI-EFFECT DISTILLATION
9.1.4.1. CNRS
9.1.4.2. CYI
9.1.5. (77) EFFICIENCY IMPROVEMENT OF LOW TEMPERATURE DISTILLATION PROCESSES BY ABSORPTION HEAT PUMPS
9.1.5.1. CIEMAT
9.1.6. (78) EFFICIENCY IMPROVEMENT OF MED PROCESSES BY ABSORPTION HEAT PUMPS
9.1.6.1. CIEMAT
9.1.7. (79) SOLAR THERMAL DESALINATION BY MEMBRANE DISTILATION
9.1.7.1. CIEMAT
9.1.7.2. Fraunhofer
9.1.7.3. UAL
9.1.8. (80) INNOVATIVE MEMBRANE DESALINATION BY MEMBRANE DESALINATION TECHONOLOGIES (MD, FO)
9.1.8.1. CIEMAT
9.1.8.2. Fraunhofer
9.1.8.3. UAL
9.1.9. (81) CHARACTERIZATION AND TESTING OF MEMBRANES FOR WATER TREATMENT
9.1.9.1. Fraunhofer
9.1.10. (82) LOW-TEMPERATURE SOLAR COLLECTORS FOR THERMAL WATER TREATMENT
9.1.10.1. CIEMAT
9.2. 9.2. HIGH TEMPERATURE SOLAR CHEMISTRY
9.2.1. (83) HIGH TEMPERATURE THERMOCHEMICAL RESEARCH UNITS
9.2.1.1. CNRS
9.2.1.2. DLR
9.2.1.3. ETH
9.2.1.4. IMDEA
9.2.2. (84) THERMAL AND THERMODYNAMIC CHARACTERIZATION OF PROTOTYPE REACTORS FOR CENTRAL RECEIVER ON TOWER TECHNOLOGIES UNDER REAL OPERATING CONDITIONS
9.2.2.1. CIEMAT
9.2.2.2. CNRS
9.2.2.3. ETH
9.2.2.4. IMDEA
9.2.3. (85) SOLAR FUELS AND THERMOCHEMISTRY
9.2.3.1. CNRS
9.2.3.2. DLR
9.2.3.3. ETH
9.2.3.4. IMDEA
9.2.3.5. LNEG
9.2.4. (86) QUALIFICATION OF SOLAR DRIVEN PROCESSES UNDER REALISTIC CONDITIONS
9.2.4.1. CIEMAT
9.2.4.2. CNRS
9.2.4.3. ETH
9.2.4.4. IMDEA
9.3. 9.3. SOLAR HYDROGEN
9.3.1. (87) SOLAR HYDROGEN PRODUCTION PROCESS QUALIFICATION
9.3.1.1. CIEMAT
9.3.1.2. CNRS
9.3.1.3. ENEA
9.3.1.4. DLR
9.3.1.5. ETH
9.3.1.6. IMDEA
9.3.2. (88) SOLAR THERMOCHEMICAL HYDROGEN/SYNGAS
9.3.2.1. CNRS
9.3.2.2. DLR
9.3.2.3. ETH
9.3.2.4. IMDEA
9.3.2.5. LNEG
9.3.3. (89) WATER SPLITTING THERMOCHEMICAL CYCLES
9.3.3.1. CNRS
9.3.3.2. ENEA
9.3.3.3. DLR
9.3.3.4. ETH
9.3.3.5. IMDEA
9.3.4. (90) SOLAR HYDROGEN PRODUCTION AND WASTEWATER TREATMENT
9.3.4.1. CIEMAT
9.3.4.2. CNRS
9.3.4.3. LNEG
10. 10. SERVICES ON MATERIALS TESTING & QUALIFICATION
10.1. (91) SURFACE MATERIALS TREATMENT
10.1.1. CIEMAT
10.1.2. CNRS
10.1.3. DLR
10.1.4. IMDEA
10.2. (92) METALLOGRAPHY, MICRO-HARDNESS ANALYSIS, THERMOGRAVIMETRIC ANALYSIS
10.2.1. CIEMAT
10.2.2. CNRS
10.2.3. IMDEA
10.3. (93) ADVANCED MATERIALS ANALYSIS & CHARACTERIZATION TECHNIQUES
10.3.1. CNRS
10.3.2. ENEA
10.3.3. ETH
10.3.4. IMDEA
10.3.5. LNEG
10.4. (94) MATERIAL SYNTHESIS
10.4.1. CIEMAT
10.4.2. CNRS
10.4.3. ENEA
10.4.4. DLR
10.4.5. IMDEA
10.5. (95) ANALYTICAL SERVICES (OTHER MATERIALS)
10.5.1. IMDEA
10.5.2. LNEG
10.5.3. UAL
10.6. (96) GAS ANALYSIS
10.6.1. CNRS
10.6.2. ENEA
10.6.3. ETH
10.6.4. IMDEA
10.6.5. LNEG
10.6.6. UAL
10.7. (97) ORGANIC COATINGS QUALIFICATION
10.7.1. LNEG
10.8. (98) SURFACE TREATMENT & METALLIC COATINGS
10.8.1. CIEMAT
10.8.2. CNRS
10.8.3. LNEG
10.9. (99) CHARACTERIZATION OF POLYMERIC MATERIALS (ELASTOMERS AND OTHER POLYMERS)
10.9.1. DLR
10.9.2. LNEG
10.10. (100) THERMAL ANALYSIS
10.10.1. CNRS
10.10.2. ENEA
10.10.3. DLR
10.10.4. IMDEA
10.11. (101) 3D OPTICAL SURFACE METROLOGY
10.11.1. ENEA
10.11.2. Fraunhofer
11. 11. SERVICES USING EXTREME TEMPERATURE CONDITIONS IN SOLAR CONCENTRATORS
11.1. (102) TESTINF OF HIGH TEMPERATURE PROCESSES
11.1.1. CIEMAT
11.1.2. CNRS
11.1.3. DLR
11.1.4. ETH
11.1.5. IMDEA
11.1.6. METU
11.2. (103) TESTING OF MATERIALS AT HIGH TEMPERATURE
11.2.1. CIEMAT
11.2.2. CNRS
11.2.3. DLR
11.2.4. ETH
11.2.5. IMDEA
11.2.6. METU
11.3. (104) SYNTHESIS OF MATERIALS AT HIGH TEMPERATURE
11.3.1. CIEMAT
11.3.2. CNRS
11.3.3. DLR
11.3.4. ETH
11.3.5. IMDEA
11.4. (105) DEPOSITS OF COATINGS AT HIGH TEMPERATURE
11.4.1. CNRS
11.5. (106) THERMAL TREATMENT OF MATERIALS AT HIGH TEMPERATURE
11.5.1. CIEMAT
11.5.2. CNRS
11.5.3. DLR
11.5.4. ETH
11.5.5. IMDEA
11.5.6. METU
11.6. (107) TESTING OF MATERIALS AT HIGH FLUX
11.6.1. CIEMAT
11.6.2. CNRS
11.6.3. DLR
11.6.4. ETH
11.6.5. IMDEA
11.6.6. METU
11.7. (108) SOLAR PUMPED LASER TESTING
11.7.1. CNRS