Commit 0b98436a authored by kuhan's avatar kuhan
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Nordtank update

parent d9e96c67
## Background Information
- CLASSIFICATION: flat(flat landscape), coastal(water and land)
- COUNTRY : Denmark
- ALTITUDE : 2 [m]
- POSITION : [55˚ 41' 39.2'' N 12˚ 5'17'' E](https://geohack.toolforge.org/geohack.php?pagename=risoe_m&params=55_41_39.2_N_12_5_17_E_)
- ALTITUDE : 5 [m]
- POSITION : [55˚ 41' 3.97'' N 12˚ 5'48.08'' E](https://geohack.toolforge.org/geohack.php?pagename=risoe_m&params=55_41_3.97_N_12_5_48.08_E_)
(Note: Geohack often includes national high resolution maps, otherwise try Google Earth)
## Short summary
This resource dataset consists of 10-minute wind speed and wind direction measurements from the tall met mast at Risø, Roskilde in Denmark. The period includes 12 years of measurements, which starts in 1995.
This dataset consists of raw time series from a mast, turbine power and load measurements (appr. 35 Hz) together with 10-minute statistics of these measurements. The 36m mast and the 41/550kW turbine is located inside DTU Risø campus, Denmark. The period includes more than 1900 hours of mast and turbine measurements recorded during the period Oct04 - Apr06.
## Map
![A map of Denmark](./Resource/risoe_m/msmap.gif)
![A map of Denmark](./ts_wt/nordtank/msmap.gif)
**Figure 1:** A map of Sealand, Denmark
![A map of Denmark](./Resource/risoe_m/risoemap.gif)
**Figure 2:** A map of Sealand, Denmark
## Photos
![](./Resource/risoe_m/pic_01.jpg) **Photo 01:** Risoe met mast.
![](./Resource/risoe_m/risomast.jpg) **Photo 02:** 125m met mast located at DTU Risoe Campus, Denmakr.
![A map of Denmark](./ts_wt/nordtank/map_01.jpg)
**Figure 2:** Windturbine location at former test station, inside DTU Risoe Campus.
## Drawings
![](./Resource/risoe_m/layout.gif) **Drawing 01:** Layout of 90 mast.
## Mast (relative positions with reference to the reference POSITION)
1. 125 [m] (0,0,0)
![](./ts_wt/nordtank/layout.gif) **Drawing 01:** Layout of 36m mast & turbine.
## Photos
![](./ts_wt/nordtank/photo_01.gif) **Photo 01:** Nordtank NTK500/41 Wind turbine seen towards west
![](./ts_wt/nordtank/photo_03.JPG) **Photo 02:** Wind turbines on former test station
![](./ts_wt/nordtank/photo_05.JPG) **Photo 03:** Met. mast seen from Nordtank wind turbine
![](./ts_wt/nordtank/blade_2.JPG) **Photo 04:** Vortex generators on blade
![](./ts_wt/nordtank/blade_3.JPG) **Photo 05:** Blade root with SG-installation
![](./ts_wt/nordtank/photo_11.JPG) **Photo 06:** Landscape, seen from WT, direction NE
![](./ts_wt/nordtank/photo_12.JPG) **Photo 07:** Landscape, seen from WT, direction E
![](./ts_wt/nordtank/photo_13.JPG) **Photo 08:** Landscape/water, seen from WT, direction W
![](./ts_wt/nordtank/photo_14.JPG) **Photo 09:** Landscape, seen from WT, direction SW
![](./ts_wt/nordtank/photo_15.JPG) **Photo 10:** Landscape, seen from WT, direction NW
![](./ts_wt/nordtank/photo_16.JPG) **Photo 11:** Landscape, seen from WT, direction S
![](./ts_wt/nordtank/photo_17.JPG) **Photo 12:** Landscape, seen from WT, direction SE
![](./ts_wt/nordtank/photo_18.jpg) **Photo 13:** Nacelle mounted METEK 3-D sonic anemometer
Photo
Nordtank NTK500/41 Wind turbine seen towards west
Wind turbines on former test station
Met. mast seen from Nordtank wind turbine
Vortex generators on blade
Blade root with SG-installation
Landscape, seen from WT, direction SE
Landscape, seen from WT, direction E
Landscape/water, seen from WT, direction W
Landscape, seen from WT, direction SW
Landscape, seen from WT, direction NW
Landscape, seen from WT, direction S
Landscape, seen from WT, direction SE
Nacelle mounted METEK 3-D sonic anemometer
## Reports
1. [Description of the 500kW Nordtank wind turbine](./ts_wt/nordtank/WT_description.pdf)
2. [Presentation of the Nordtank measurement system](./ts_wt/nordtank/Nordtank_poster.pdf)
3. [Online wind turbine measurement laboratory](./ts_wt/nordtank/Nordtank_paper.pdf)
4. [Cup anemometer](./ts_wt/nordtank/Riso_P2546A_cup_anemometer.pdf)
## MAST
1 36 [m] (-80,0,0)
## WIND TURBINES
1 Nordtank A/S NTK 500/41 500 [kW] (0,0,0)
## Project description
The meteorologist of Risø have since the start of Risø in 1956 collected climatological data from measuring masts both within Denmark and outside the country. The data have mostly been collected to obtain relevant climate statistics for the locality in question. Examples can be: Establishment of a climatology of atmospheric dispersion for a planned site for a power plant or an other production facility. Estimation of the the local windspeed distribution for evaluation of wind power resource or of the extreme wind load on structures and buildings. Description of seasonal and long term exchange between the atmosphere and different types of vegetation. The data have also proven useful to in connection with events of various kinds, such as tracking storm surges across the country, estimating contaminated regions for transient events as different as nuclear and industrial accidents and air borne diseases.
As part of the International Master of Science Program in Wind Energy at DTU, a complete interactive wind turbine measurement laboratory has been developed. A 500 kW stall regulated wind turbine has been instrumented with sensors for recording 1) turbine operational parameters, 2) meteorological conditions, 3) electrical quantities and 4) mechanical loads in terms of strain gauge signals. The data acquisition system has been designed and implemented by Risø together with students and teachers from DTU. It is based on LabVIEW© combined with a MySQL database for data management. The system enables online access for real-time recordings, which are used both for demonstration purposes, in individual [student] exercises and in scientific investigations. Long-term registration of wind turbine loads results in a unique database of non-commercial time series, which are available for practicing fatigue calculations and extreme loads estimation in basic wind turbine courses. Power quality analysis is carried out based on high speed sampled, three-phase voltage and current signals. The wide spectrum of sensors enables a detailed study of the correlation between meteorological, mechanical and electrical quantities. Measurements are acquired by a PC placed at the wind turbine site near Risø National Laboratory. The PC can be remotely controlled from DTU, which gives the students the opportunity to work on an operating wind turbine. Furthermore, measurements are published on WindData.com, which facilitates cooperation with other Universities. WTMLAB enables development of new data acquisition utilities, enables hands-on experiences with wind turbine operations, enables design of new test procedures and algorithms and for collaboration with other universities and research institutions through the Internet. The database is open and published on the Internet. Thus, co-operation with other Institutions and Universities is possible – and welcome.
## Measurement system
Data from the Risø sites consist typically of atmospheric pressure and wind direction, wind speed in several heights, and temperature in at least two heights, such that climatology for wind speed and direction, wind variation with height and thermal stability can be established. At some stations also measurements of humidity, incoming solar radiation, and wind variability are obtained. Typically the measurements consist of ten minuttes averages recorded every ten minuttes. Details of the data are reported on the individual pages for each measuring station. Further information Further information can be obtained from Gunnar Jensen, the department of Wind Energy and Atmospheric Physics, Risø National Laboratory. Phone +4546775007. E-mail: gunnar.jensen@risoe.dk
1. [List of mast signals](./Resource/risoe_m/Mast_signals.csv)
The wind turbine is equipped with a data acquisition system for recording meteorological properties (wind speed, wind direction, air temperature, atmospheric pressure and rain), wind turbine operational properties (electric active power, nacelle position, rotor speed, rotor position, status signals) and structural loads in terms of strain gauge measurements from the blade root, the main shaft, tower top and tower bottom. DATA ACQUISITION A PC-based data acquisition system has been designed to monitor and collect data from the wind turbine sensors. The output signals from all sensors are conditioned to the +/- 5 V range. The signals are either continuously varying (strain gauges, temperature…) or of digital types such as train of pulses (rotational speed, anemometer…) or on/off levels (status of brake, blade tips and generator). All signals - except outputs from voltage and current transformers - are connected to one of three RISØ P2558A data acquisition units (DAU). One DAU unit is located in the bottom of the wind turbine tower, another in the nacelle and the third is mounted on the hub – it is rotating and transmitting data over a RF-link. The serial channel from each DAU is connected to the PC over a multi-port serial plug-in board. The selected scan rate of 35 Hz is sufficient for meteorological properties and structural load measurements, but it is far too slow when studying the impact of the wind turbine on the power grid. Thus, another part of the acquisition system works at a higher sampling rate (12.8 kHz) on transducer signals originating from the 3 phase voltages and currents at the 690 V generator terminals – see Figure 1. The signals are connected to a signal-conditioning interface that performs sample and hold operation, scales the signals to the ± 5 V level and delivers the conditioned signals to a 12-bit multi-channel ADC plug-in board in the PC. A standard desktop PC is used as the central component of the data acquisition system. The PC is connected to the Internet and thereby to DTU from where it can be operated remotely. Dedicated measurement software has been developed under LabVIEW©. Data are collected in 10 minutes intervals and the complete time series plus statistics derived from this series are saved on disk ready for later treatment. The electric power signals are treated differently due to the fast sampling rate. The idea is to aggregate power quality parameters over 10 minutes’ intervals – synchronous with the DAU intervals so atmospheric, mechanical and electrical behaviour directly can be correlated. To diminish the amount of data, on-line data reduction is compulsory. Autumn 2006, a 3d-Sonic anemometer has been installed on the nacelle. The signals (sx,sy,sz &st) has been recorded with 10 Hz both with operating, idling and parked
## ACKNOWLEDMENTS :
1. [List of mast signals](./ts_wt/nordtank/msst_signals.csv) ACKNOWLEDMENTS :
- INSTITUTION : Risoe National Laboratories
- ADDRESS : Post box 49, DK4000 Roskilde, Denmark
- TEL/FAX : +45 46775007 / +45 46755619
......@@ -45,7 +75,18 @@ Data from the Risø sites consist typically of atmospheric pressure and wind dir
- FUND AGENTS : Internal
- PERIOD : 1956-01-01 - 2001-12-31
- Naming_authority : 'DTU Data'
- DOI : 'https://doi.org/10.11583/DTU.14153204'
- DOI : 'https://doi.org/10.11583/DTU.141532xx'
ACKNOWLEDMENTS : Uwe Schmidt Paulsen, Risoe National Laboratory
INSTITUTION : Risoe National Labs
ADDRESS : Post box 49, DK4000 Roskilde, Denmark
TEL/FAX : +45 46775044 /
CONTACTS : Kurt S. Hansen / Uwe Schmidt Paulsen
LINKS : / www.risoe.dk
COLLABS :
FUND AGENTS :
PERIOD : 2003-11-01 00:00:00 -
PUBLICATIONS :
## Public data
1. Resource data (NetCDF)
......
SITE_CODE,CHANNEL_ID,CHANNEL_NAME,MAST_ID,height,SIGNAL_TYPE,MAST_NO,mast_description,mast_height,instrument_manufacturer,instrument_spec,instrument_type,instrument_description
nm92,301055,s24t,3067,24,st,1,Standard Risoe met.tower,70,metek,usa-1,sonic,
nm92,301056,s24u,3067,24,su,1,Standard Risoe met.tower,70,metek,usa-1,sonic,
nm92,301057,s24v,3067,24,sv,1,Standard Risoe met.tower,70,metek,usa-1,sonic,
nm92,301058,s24w,3067,24,sw,1,Standard Risoe met.tower,70,metek,usa-1,sonic,
nm92,301059,s24x,3067,24,sx,1,Standard Risoe met.tower,70,metek,usa-1,sonic,
nm92,301060,s24y,3067,24,sy,1,Standard Risoe met.tower,70,metek,usa-1,sonic,
nm92,301061,s24z,3067,24,sz,1,Standard Risoe met.tower,70,metek,usa-1,sonic,
nm92,301048,s47t,3067,47,st,1,Standard Risoe met.tower,70,metek,usa-1,sonic,
nm92,301049,s47u,3067,47,su,1,Standard Risoe met.tower,70,metek,usa-1,sonic,
nm92,301050,s47v,3067,47,sv,1,Standard Risoe met.tower,70,metek,usa-1,sonic,
nm92,301051,s47w,3067,47,sw,1,Standard Risoe met.tower,70,metek,usa-1,sonic,
nm92,301052,s47x,3067,47,sx,1,Standard Risoe met.tower,70,metek,usa-1,sonic,
nm92,301053,s47y,3067,47,sy,1,Standard Risoe met.tower,70,metek,usa-1,sonic,
nm92,301054,s47z,3067,47,sz,1,Standard Risoe met.tower,70,metek,usa-1,sonic,
nm92,301041,s70t,3067,70,st,1,Standard Risoe met.tower,70,metek,usa-1,sonic,
nm92,301042,s70u,3067,70,su,1,Standard Risoe met.tower,70,metek,usa-1,sonic,
nm92,301043,s70v,3067,70,sv,1,Standard Risoe met.tower,70,metek,usa-1,sonic,
nm92,301044,s70w,3067,70,sw,1,Standard Risoe met.tower,70,metek,usa-1,sonic,
nm92,301045,s70x,3067,70,sx,1,Standard Risoe met.tower,70,metek,usa-1,sonic,
nm92,301046,s70y,3067,70,sy,1,Standard Risoe met.tower,70,metek,usa-1,sonic,
nm92,301047,s70z,3067,70,sz,1,Standard Risoe met.tower,70,metek,usa-1,sonic,
nm92,301040,wd68,3067,67.5,d,1,Standard Risoe met.tower,70,risoe,80,vane,
nm92,301039,ws24,3067,24,s,1,Standard Risoe met.tower,70,risoe,70,cup,
nm92,301038,ws47,3067,47,s,1,Standard Risoe met.tower,70,risoe,70,cup,
nm92,301037,ws68,3067,67.5,s,1,Standard Risoe met.tower,70,risoe,70,cup,
nm92,301036,ws70,3067,70,s,1,Standard Risoe met.tower,70,risoe,70,cup,
nm92,301072,edge_B1_s1,40061,70,bm,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nm92,301074,edge_B1_s2,40061,70,bm,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nm92,301076,edge_B2_s1,40061,70,bm,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nm92,301078,edge_B2_s2,40061,70,bm,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nm92,301080,edge_B3_s1,40061,70,bm,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nm92,301082,edge_B3_s2,40061,70,bm,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nm92,301071,flap_B1_s1,40061,70,bm,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nm92,301073,flap_B1_s2,40061,70,bm,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nm92,301075,flap_B2_s1,40061,70,bm,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nm92,301077,flap_B2_s2,40061,70,bm,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nm92,301079,flap_B3_s1,40061,70,bm,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nm92,301081,flap_B3_s2,40061,70,bm,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nm92,301084,mb00_shaft,40061,70,bm,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nm92,301094,mb00_tb09m,40061,9,bm,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nm92,301091,mb00_tm15m,40061,15,bm,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nm92,301085,mb90_shaft,40061,70,bm,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nm92,301093,mb90_tb09m,40061,9,bm,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nm92,301092,mb90_tm15m,40061,15,bm,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nm92,301090,mb90_tt60m,40061,60,torq,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nm92,301086,mb_tilt,40061,70,bm,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nm92,301087,mb_yaw,40061,70,bm,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nm92,301067,np,40061,70,yp,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,nordtank,derived_yaw_misalignment,wtl,derived_yaw_misalignment
nm92,301064,pit_b1,40061,70,pa,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,unknown,counter,wtl,
nm92,301065,pit_b2,40061,70,pa,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,unknown,counter,wtl,
nm92,301066,pit_b3,40061,70,pa,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,unknown,counter,wtl,
nm92,301063,pow_hv,40061,70,pow,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,camille_bauer,power_converter,wtl,
nm92,301062,pow_lv,40061,70,pow,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,camille_bauer,power_converter,wtl,
nm92,301070,rp,40061,70,rp,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,unknown,counter,wtl,
nm92,301068,ssh,40061,70,rpm,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,unknown,counter,wtl,
nm92,301069,ssl,40061,70,rpm,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,unknown,counter,wtl,
nm92,301083,torq_shaft,40061,70,torq,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nm92,301089,tors_tt60m,40061,60,bm,1,2.75 MW variable speed and variable pitch NEG Micon wind turbine,70,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
SITE_CODE,CHANNEL_ID,CHANNEL_NAME,MAST_ID,height,SIGNAL_TYPE,MAST_NO,mast_description,mast_height,instrument_manufacturer,instrument_spec,instrument_type,instrument_description
nordtank,300993,t03,3065,7,tabs,1,Tubular standard tower, h=36 m,36,risoe,pt100,term,
nordtank,300991,wd35,3065,35,d,1,Tubular standard tower, h=36 m,36,risoe,80,vane,
nordtank,300989,ws36,3065,36,s,1,Tubular standard tower, h=36 m,36,risoe,70,cup,
nordtank,301000,edge_B1_s1,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,301097,edge_B1_s2,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,301099,edge_B2_s2,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,301101,edge_B3_s2,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,300999,flap_B1_s1,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,301096,flap_B1_s2,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,301098,flap_B2_s2,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,301100,flap_B3_s2,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,301002,mb00_shaft,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,301005,mb00_TB,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,301003,mb90_shaft,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,301006,mb90_TB,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,301008,mb_tilt,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,301007,mb_yaw,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,300995,np,30215,35,yp,1,NTK 550, 41,35,nordtank,derived_yaw_misalignment,wtl,derived_yaw_misalignment
nordtank,300994,poa,30215,35,pow,1,NTK 550, 41,35,camille_bauer,power_converter,wtl,
nordtank,300996,rp,30215,35,rp,1,NTK 550, 41,35,unknown,counter,wtl,
nordtank,300997,ssh,30215,35,rpm,1,NTK 550, 41,35,unknown,counter,wtl,
nordtank,300998,ssl,30215,35,rpm,1,NTK 550, 41,35,unknown,counter,wtl,
nordtank,301016,ssld,30215,35,rpm,1,NTK 550, 41,35,unknown,counter,wtl,
nordtank,301134,st,30215,35,st,1,NTK 550, 41,35,metek,usa-1,sonic,
nordtank,301135,su,30215,35,su,1,NTK 550, 41,35,metek,usa-1,sonic,
nordtank,301136,sv,30215,35,sv,1,NTK 550, 41,35,metek,usa-1,sonic,
nordtank,301137,sw,30215,35,sw,1,NTK 550, 41,35,metek,usa-1,sonic,
nordtank,301131,sx,30215,35,sx,1,NTK 550, 41,35,metek,usa-1,sonic,
nordtank,301132,sy,30215,35,sy,1,NTK 550, 41,35,metek,usa-1,sonic,
nordtank,301133,sz,30215,35,sz,1,NTK 550, 41,35,metek,usa-1,sonic,
nordtank,301001,tor_shaft,30215,35,torq,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,301004,tor_TT,30215,35,torq,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,300990,wsn,30215,35,s,1,NTK 550, 41,35,risoe,70,cup,
SITE_CODE,CHANNEL_ID,CHANNEL_NAME,MAST_ID,height,SIGNAL_TYPE,MAST_NO,mast_description,mast_height,instrument_manufacturer,instrument_spec,instrument_type,instrument_description
nordtank,300993,t03,3065,7,tabs,1,Tubular standard tower, h=36 m,36,risoe,pt100,term,
nordtank,300991,wd35,3065,35,d,1,Tubular standard tower, h=36 m,36,risoe,80,vane,
nordtank,300989,ws36,3065,36,s,1,Tubular standard tower, h=36 m,36,risoe,70,cup,
nordtank,301000,edge_B1_s1,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,301097,edge_B1_s2,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,301099,edge_B2_s2,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,301101,edge_B3_s2,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,300999,flap_B1_s1,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,301096,flap_B1_s2,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,301098,flap_B2_s2,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,301100,flap_B3_s2,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,301002,mb00_shaft,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,301005,mb00_TB,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,301003,mb90_shaft,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,301006,mb90_TB,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,301008,mb_tilt,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,301007,mb_yaw,30215,35, mb ,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,300995,np,30215,35,yp,1,NTK 550, 41,35,nordtank,derived_yaw_misalignment,wtl,derived_yaw_misalignment
nordtank,300994,poa,30215,35,pow,1,NTK 550, 41,35,camille_bauer,power_converter,wtl,
nordtank,300996,rp,30215,35,rp,1,NTK 550, 41,35,unknown,counter,wtl,
nordtank,300997,ssh,30215,35,rpm,1,NTK 550, 41,35,unknown,counter,wtl,
nordtank,300998,ssl,30215,35,rpm,1,NTK 550, 41,35,unknown,counter,wtl,
nordtank,301016,ssld,30215,35,rpm,1,NTK 550, 41,35,unknown,counter,wtl,
nordtank,301134,st,30215,35,st,1,NTK 550, 41,35,metek,usa-1,sonic,
nordtank,301135,su,30215,35,su,1,NTK 550, 41,35,metek,usa-1,sonic,
nordtank,301136,sv,30215,35,sv,1,NTK 550, 41,35,metek,usa-1,sonic,
nordtank,301137,sw,30215,35,sw,1,NTK 550, 41,35,metek,usa-1,sonic,
nordtank,301131,sx,30215,35,sx,1,NTK 550, 41,35,metek,usa-1,sonic,
nordtank,301132,sy,30215,35,sy,1,NTK 550, 41,35,metek,usa-1,sonic,
nordtank,301133,sz,30215,35,sz,1,NTK 550, 41,35,metek,usa-1,sonic,
nordtank,301001,tor_shaft,30215,35,torq,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,301004,tor_TT,30215,35,torq,1,NTK 550, 41,35,hottinger,half_bridge,wtl,Half SG bridge for measuring bending moment.
nordtank,300990,wsn,30215,35,s,1,NTK 550, 41,35,risoe,70,cup,
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