Reference Users
Hukseflux Thermal Sensors is specialised in heat flux- and thermal conductivity measurement. The company focuses on technology and not on specific markets.
Thermal sensors designed by Hukseflux are employed in many different applications. Some examples are given below.
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General Industrial
Applications
| Customer |
Application |
Purpose |
Sensor Type |
Image |
| Ticor South Africa |
Titanium furnace monitoring |
Safety process monitoring |
NF01 |
 |
| Corus |
Steel blast furnace monitoring |
Safety, process montoring |
NF01 |
 |
| Alcan |
Aluminum furnaces |
Study and optimisation |
HF01 |
 |
| Energie Centrum Nederland |
Experimental boiler for biomass co-firing |
Study, fouling detection |
RHF01 |
 |
| Hydro Aluminium Germany |
Aluminium furnaces |
Study and optimisation |
HF01 and ALUSYS |
 |
| Glaverbel Belgium |
Glass production |
Study of energy balance |
HF01 |
 |
| Comalco Research & Technical Support |
Aluminum furnaces |
Study and optimisation |
HF01 |
 |
| NASA Glenn Research Center |
High heat flux in rockets |
Scientific study |
NF02 |
 |
| Volvo Cars |
Environmental testing |
Simulation of solar exposure |
LP02 |
 |
| Sumitomo Chemical Industries |
Thermal conductivity Testing |
Plastics analysis |
THASYS |
 |
| Dubai Aluminium |
Aluminium furnaces |
Study and optimisation |
HF01 and ALUSYS |
 |
Fouling Detection
| Customer |
Application |
Purpose |
Sensor Type |
Image |
| Exxonmobil |
Fluidised bed |
Process improvement, fouling detection |
HF05 |
 |
| Unilever |
Fouling research in food industry |
Process improvement, fouling detection |
HF05 |
 |
| Clyde Bergemann Power Group |
Coal fired electrical power plant |
Process improvement, slagging detection |
CBW01 |
 |
| RWE |
Coal fired electrical power plant |
Process improvement, slagging detection |
CBW01 |
 |
| VTT process |
Coal fired electrical power plant |
Study, fouling detection |
RHF01 |
 |
Meteorology
| Customer |
Application |
Purpose |
Sensor Type |
Image |
| Campbell Scientific |
Eddy correlation systems |
Integration in systems |
HFP01, NR01 |
 |
| Priva |
Greenhouse automation |
Integration in systems |
LP02 |
 |
| Wilhelm Lambrecht GmbH |
General meteorological AWS |
Integration in systems |
LP02 |
 |
| Wageningen University |
Radiation balance studies |
climate research |
NR01 |
 |
| CNRS |
Radiation balance studies |
climate research |
NR01 |
 |
Solar
Concentrators
| Customer |
Application |
Purpose |
Sensor Type |
Image |
| Abengoa Solar New Technologies |
Solar concentrator heat flux |
Process optimisation |
SCS02 |
 |
General Thermal
Research
| Customer |
Application |
Purpose |
Sensor Type |
Image |
| AKZO Coatings |
Paint thermal conductivity measurement |
determination of material properties |
THASYS |
 |
| Teijin Twaron |
Composite thermal analysis |
determination of material properties |
THASYS |
 |
| Deloro Stellite |
Slurry thermal analysis |
determination of material properties |
THASYS |
 |
| Shell Global Solutions UK |
Oil thermal analysis |
determination of material properties |
THASYS |
 |
| CTG Italcementi Group |
- |
determination of material properties |
HFP01 |
 |
| Mapper Lithography |
Design of experiment |
determination of equipment performance |
- |
 |
| Kema |
Plastics thermal analysis |
determination of material properties |
THASYS |
 |
| Basell |
Plastics thermal analysis |
determination of material properties |
THASYS |
 |
Building Research
| Customer |
Application |
Purpose |
Sensor Type |
Image |
| Building Research Institute |
Building thermal analysis |
determination of insulation |
HFP01 |
 |
| Acciona Infrastructures |
Building thermal analysis |
determination of insulation |
HFP01 |
 |
| Gobierno Vasco -Departamento de Vivienda |
Building thermal analysis |
determination performance of building elements |
HFP01 |
 |
| Universität Stuttgart |
Building thermal analysis |
determination of insulation |
HFP03 |
 |
Oven Performance
Analysis
| Customer |
Application |
Purpose |
Sensor Type |
Image |
| Masterfoods |
Oven analysis |
Study of process, optimisation |
RC01 |
 |
| Stork |
Oven analysis |
Study of process, optimisation |
RC01 |
 |
| Allied Bakeries |
Oven analysis |
Study of process, optimisation |
RC01 |
 |
Soil Analysis
| Customer |
Application |
Purpose |
Sensor Type |
Image |
| Fugro |
Soil thermal conductvity analysis |
Electricity survey |
TP02 |
 |
| Institut für Weltraumforschung (IWF) |
Reolith thermal conductvity analysis |
Lunar rover design |
Special |
 |
| Olex Australia PTY Limited |
Soil thermal conductvity analysis |
High-voltage cable survey |
FTN01 |
 |
| Prysmian Cables & Systems |
Soil thermal conductvity analysis |
High-voltage cable survey |
TNS01 |
 |
| British Geological Survey |
Soil thermal conductvity analysis |
Geological survey |
FTN01 |
 |
Fire -Flame -Flare
Research
| Customer |
Application |
Purpose |
Sensor Type |
Image |
| Zeeco Inc |
Flare monitoring |
Offshore plateform safety |
HF03 |
 |
| Tyco Thermal Controls |
Fire research |
Flammability testing |
SBG01 |
 |
| John Zink USA |
Oil drilling platforms |
Safety system for flares |
HF02 |
 |
