Report
Wind Measurement
Site: Olăneşti, Moldova
07.09.2012
DEWI-GER-WM11-01040-01.01
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Service Wind measurement based on the procedure DEWI-06-PV,
accredited by IEC 17025:2005
Site Olăneşti, Moldova
Commissioning
date
16.05.2011
Project 21000992, Rev.03, 28.02.2011
Order 22001040
Standard IEC 61400-12-1 (2005-12), Annexes F, G and I
Client Ecoenergo S.A.
Att. Mr. Stefan Seligson
20a bd. Emmanuel Servais
L-2535 Luxembourg
Testing laboratory DEWI GmbH
Deutsches Windenergie – Institut
Ebertstraße 96
D- 26382 Wilhelmshaven
Germany
This document may not be reproduced other than in full except with the written permission of
DEWI GmbH.
DEWI GmbH
Wilhelmshaven, Germany, 07.09.2012
Expert in charge Approved by
Dipl. Geogr. Sophie Stock
Expert in charge
Dipl.-Phys. H. Mellinghoff
Head of Expert Group
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Revision History
Document Nr. Remarks Status
DEWI-GER-WM11-01040-01.01 Initial release active
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Table of Contents
1 Introduction ................................................................................................................... 7
2 Site ................................................................................................................................ 8
2.1 Description ................................................................................................................... 8
2.2 Map .............................................................................................................................. 9
3 Picture Documentation .................................................................................................. 10
3.1 Panoramic View of the Test Site ................................................................................ 10
3.2 Pictures of the Meteorological Mast ......................................................................... 14
4 Data Acquisition and Data Processing ............................................................................ 17
4.1 General Description of the Measurement System .................................................... 17 4.1.1 Meteorological Mast ........................................................................................................... 17 4.1.2 Wind Speed ......................................................................................................................... 19 4.1.3 Wind Direction..................................................................................................................... 22 4.1.4 Air Humidity and Temperature ............................................................................................ 23 4.1.5 Data Acquisition System ...................................................................................................... 24
4.2 Data transfer .............................................................................................................. 27
4.3 Data processing ......................................................................................................... 28
4.4 Description of the Test Equipment ............................................................................ 29
4.5 Logger Configuration ................................................................................................. 32 4.5.1 From 12.06.2011 to 18.07.2011, Logger Ammonit 32 ........................................................ 32 4.5.2 From 18.07.2011 on, Ammonit 32x ..................................................................................... 33
5 Results for the Measurement Period 01.07.2011 to 30.06.2012 ...................................... 34
5.1 Data Base ................................................................................................................... 34
5.2 Filtering ...................................................................................................................... 35
5.3 Overview of Average Wind Speed values .................................................................. 36 5.3.1 Mean values at 101.0 m ...................................................................................................... 37 5.3.2 Mean values at 99.0 m ........................................................................................................ 38 5.3.3 Mean Values at 78.0 m ........................................................................................................ 39 5.3.4 Mean Values at 61.5 m ........................................................................................................ 40 5.3.5 Mean values at 40.3 m ........................................................................................................ 41
5.4 Wind Direction Distribution of Top Wind Vane (dir1) ................................................ 42
5.5 Wind Direction Distribution of Top Wind Vane (dir1) on a monthly base ................. 44
5.6 Atmospheric Conditions ............................................................................................ 46
5.7 Wind Speed Pattern during the course of the day .................................................... 48
5.8 Maximum values during the Measurement Period ................................................... 48
5.9 Turbulence Intensity .................................................................................................. 50
5.10 Wind shear ................................................................................................................. 51
6 Signal checking and Logbook .......................................................................................... 52
6.1 Quality of the Data Base ............................................................................................ 52
6.2 Logbook ..................................................................................................................... 52
6.3 In situ Comparison of Top Anemometer Signal ......................................................... 53
6.4 Uncertainty Components .......................................................................................... 56
7 Deviations from the Norm ............................................................................................. 58
8 References .................................................................................................................... 59
9 Appendix ....................................................................................................................... 60
9.1 Anemometer Calibration Protocols ........................................................................... 60
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9.1.1 Calibration Protocol v1 (until replacement 27.12.2011) ...................................................... 60 9.1.2 Calibration Protocol v1 (from 27.12.2011) ........................................................................... 63 9.1.3 Calibration Protocol v2 ......................................................................................................... 66 9.1.4 Calibration Protocol v3 ......................................................................................................... 70 9.1.5 Calibration Protocol v4 ......................................................................................................... 73 9.1.6 Calibration Protocol v5 (from 18.07.2011) ........................................................................... 76
9.2 Wind Vane Laboratory Test Report ........................................................................... 79 9.2.1 Test Report dir1 .................................................................................................................... 79 9.2.2 Test Report dir2 .................................................................................................................... 80
9.3 Logger Climate Chamber Test Report ........................................................................ 81
9.4 Instrumentation Overview Sheet .............................................................................. 83
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Table of Symbols
α Shear factor
vi Wind speed referring to the i-th signal counted from top of the
tower [m/s]
v SC Wind speed after application of the site calibration [m/s]
diri Wind direction referring to the i-th signal counted from top of
the tower
TI i Turbulence intensity referring to vi [-] σ
vi Standard deviation of the wind speed vi [m/s]
T Air temperature [K]
B Air pressure [hPa]
ρ Air density [kg/m³]
R o Gas constant of dry air (R dry= 287.05) [J/(kg K)]
Definitions
Turbulence intensity at main
tower: v
vTI
σ= (1)
Air density for dry air: (2)
Shear factor: _lnln (3)
Uncertainty contribution from
anemometer behaviour , 0.05 ⁄ 0.005 · · √3 (4)
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1 Introduction
Following an order of Ecoenergo S.A. a one year wind measurement campaign has been performed
at a site near the village of Olăneşti, Moldova. The DEWI station number is Station.426.
The DEWI working title of the station is “Station.426, Olăneşti”.
The aim of the measurement is to study the wind and meteorological conditions at the site in order
to compile a database that can be used for wind energy yield assessment for a wind farm. The
measurement of the wind is performed at several heights with a maximum height of 101.0 m. The
wind direction has been measured at two heights, air temperature and relative humidity
measurement have been performed at one height.
The norms and guidelines [1] and [2] have been considered in the layout of the system setup.
Anemometer calibration has been performed according to [3], by DEWI a full member of MEASNET.
The wind measurement is performed with anemometers of the type First Class Advanced.
DEWI is responsible for the installation of the instruments on the mast. The data acquisition system
and transfer system are provided by DEWI. The mast is provided by EGERES company from Izmir in
Turkey.
This report is based on the data of the following measuring period:
Period of measurements: 01.07.2011 (00:00) to 30.06.2012 (23:50) (CET).
It is ensured that the results presented in this report have been measured in an unbiased manner,
following the latest methodological developments and to the best knowledge of the participating
persons.
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2 Site
2.1 Description
The test site is located in south eastern Moldova, near the village of Antoneşti. The nearest city is
Triaspol in 46 km distance in northwestern direction. The tower is located in a flat agriculture area,
characterized by fields with some trees and a few building around (see 3.1). It is located at an
altitude of approximately 145 m above sea level.
The coordinates of the met mast location are given in Tab. 2.1. These coordinates were measured by
DEWI within the accuracy of the GPS measuring device.
East North
Met Mast 29°54’06.0’’ 46°27´50.5’’
Tab. 2.1: Coordinates of met mast position (Geographical Coordinates, WGS 84).
The magnetic declination at the site is 5°49'degrees E, changing by 0°6'E/year, according to reference
[5], i.e. approximately 6 degrees. All directions are given with respect to True North in this report; i.e.
from the compass measured direction values 6 degrees have been subtracted. Consistency with the
data base has been checked.
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2.2 Map
Fig. 2.1: Map showing the location of the met mast.
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3 Picture Documentation
The panoramic pictures have been taken during the installation from 06.06.2011 to 12.06.2011.
3.1 Panoramic View of the Test Site
Fig. 3.1: View towards north. The land around the site is used agriculturally mostly.
Fig. 3.2: View towards northeast. Parts of the guy wiring can be seen infront of the buildings.
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Fig. 3.3: View towards east. Parts of the guy wiring can be seen.
Fig. 3.4: View towards southeast. An electrical power line runs infront of the trees.
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Fig. 3.5: View towards south. An electrical power line runs along the row of trees.
Fig. 3.6: View towards southwest.
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Fig. 3.7: View towards west.
Fig. 3.8: View towards northwest. Parts of the guy wiring can be seen.
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3.2 Pictures of the Meteorological
Fig. 3.9: Met mast with detail of the top section.
eorological Mast
et mast with detail of the top section.
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Fig. 3.10: Top anemometer Thies First Class Advanced (v1) at 101.0 m, boom mounted anemometer Thies First Class
Advanced (v2) at 99.0 m and top wind vane Thies Classic (dir1) 98.9 m. The flashlight is mounted in 95.0 m height.
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Fig. 3.11: Detail of Anemometer Thies First Class Advanced v3 at 78.0 m.
Fig. 3.12: Thies First Class Advanced v4 at 61.5 m and Thies Classic wind vane (dir2) at 61.3 m height.
Fig. 3.13: First Class Advanced v5 at 40.3 m.
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4 Data Acquisition and Data Processing
4.1 General Description of the Measurement System
4.1.1 Meteorological Mast
A lattice was used for the meteorological mast. This mast has been provided by EGERES company
from Izmir, Turkey. The tower height is 100.0 m. It has been erected at an altitude of about 145 m
above sea level.
The mast layout has been designed to meet the requirements of IEC 61400-12-1 [1].
The installation of the mast and all sensors has been performed by DEWI (for details please see Tab.
4.1).
On 27.12.2011 the top anemometer v1 had to replaced due to malfunction. This replacement has
been performed by DEWI staff and a mast fitter team. The mast configuration was not influenced
significantly by these exchanges.
The orientation of the booms was checked by DEWI with both compass and GPS during the
installation and have been verified.
A flashlight of type “Carmanah M601” has been mounted at a height of 95.0 m. It is electrically
independent of the measurement system.
The following sketch gives the major dimensions of the tower, as well as the booms and mountings
(please see 9.4 for more details).
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Fig. 4.1: Sketch of the met mast and its dimensions. Not to scale.
All booms :
horizontal tube diameter 48 mm
Vertical tube diameter 34 mm
V_4
292°
protectionLightning V_1
V_2 NDir_1
V_3
NDir_2V_4
V_5
V_2
292°
W E
S
N
228°
Detail
Lightning protection
V_3
292°
V_5
292°670 mm
3.05 m
1.1
7 m
50
.0 m
670 mm
78
.0 m
670 mm
3.05 m
1.1
7 m
1.1
7 m
2.60 m
99.0
m
40.3
m
61
.3 m
550 mm
1.1
7 m
2.60 m
61
.5 m
0.90 m
3.05 m
1.1
7 m
2.0
0 m
16 mm
34 mm
0.6
0 m
0.80 m
10
1.0
m
3.05 m
1.1
7 m
98
.9 m
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4.1.2 Wind Speed
The measurement of wind speed was performed at several heights. Five anemometers have been
installed.
At the top of the tower, at 101.0 m, a cup anemometer of the type Thies First Class Advanced has
been mounted on a single top boom (Fig. 4.1). The anemometer is classified following IEC 61400-12-
1, Annex I [1] as a class 3.0 B sensor [2].Due to malfunction starting 28.10.2011, the top anemometer
had to be replaced (for details see Tab. 4.1).
A second anemometer (v2) of the same type (Thies First Class Advanced) was mounted in 99.0 m (Fig.
4.1.).
Three more anemometers of type Thies First Class Advanced have been mounted on single booms in
78.0 m (v3), 61.5 m (v4) and 40.3 m (v5) height above ground (see Fig. 4.1).
The anemometer v5 has been connected since 18.07.2011 (17:00 h), (please see 4.1.5 for details).
For mounting details please see Fig. 4.1 and 9.4.
All anemometers have been calibrated by DEWI GmbH in the wind tunnel (MEASNET [4], DAkkS/DKD
accreditation) before the wind measurement period. The respective calibration certificates are given
in the appendices (see section9.1).
Through an in-situ comparison of the anemometers the measurement was controlled continuously
(see section 6.3).
Fig. 4.2: Top anemometer v1 on top boom at 101.01 m height before mounting.
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Fig. 4.3: Anemometer v2 at 99.0 m height before mounting.
Fig. 4.4: Anemometer v3 at 78.0 m height before mounting.
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Fig. 4.5: Anemometer v4 at 61.5 m height before mounting.
Fig. 4.6: Anemometer v4 at 40.3 m height before mounting.
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4.1.3 Wind Direction
The main wind direction was measured at a height of 98.9 m on the met mast with a wind vane of
type Thies First Class (see Fig. 4.1). The boom points towards 112 degrees, the North marker of the
wind vane points towards the tower.
A second wind vane of the same type has been mounted on a boom at a height of 61.3 m. The boom
points towards 112 degrees, the North marker of the wind vane points towards the tower.
The vanes use a ratio metric measurement principle.
Mounting details are given in Fig. 4.1 and 9.4.
The magnetic declination at the site has been considered (see section 2.1). All directions are given
with respect to True North.
The accuracy of the sensors is 1 degrees. The accuracy from the alignment of the wind vanes on the
boom is considered to be 3 degrees.
The function of the wind vanes have been checked by DEWI (see 9.2).
Fig. 4.7: Main wind vane dir1 before mounting.
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Fig. 4.8: Wind vane dir2 before mounting.
4.1.4 Air Humidity and Temperature
The relative humidity and air temperature sensor was measured at a height of 50.0 m.
The sensor is mounted on a boom that is 0.2 m long.
Fig. 4.9: Air temperature and relative humidity sensor t1 at height 50.0 m before mounting it with the weather shield to
the tower.
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4.1.5 Data Acquisition System
The Control Cabinet has been placed 3.7 m above ground. The data acquisition system was provided
by DEWI.
During the initial installation, a logger of type Ammonit METEO 32 has been installed. It has been
replaced on 18.07.2011 by a logger of type Ammonit METEO 32x, which actually had been planned
from beginning on. The model Ammonit 32x offers more measurement channels, which are
necessary to connect the 5th anemometer.
From 18.07.2011 on the measured data were recorded by a data logger of type Ammonit METEO-32x
with a sampling rate of 1 Hz. The internal software had the firmware V 1.9. The logger has several
different ways of connecting to signals. These can be pulses, analogue signals or a readily digitized
data stream. The wind speed (pulses) were recorded directly by pulse counting input channels of the
logger. The logger provides also dedicated input channels for air temperature and relative humidity
as analogue channels. Wind direction is measured using a ratiometric four-wire principle.
Both data loggers have been calibrated in a climate chamber test (see 0). All channels were checked
by means of a DKD/ DAkkS-calibrated reference source. The measured values are averaged
(10 minutes) by the logger and are stored.
All input channels have been directly fed into the data logger. An additional overvoltage protection is
not in place.
The system has been powered by a 20 Watt ET-M53620 solar panel charging a battery.
The availability of the measuring system (logger uptime) during the presented power curve
measuring campaign was 99.9 %.
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Fig. 4.10: Ammonit 32 of initial installation. Front cover taken off at this moment.
Fig. 4.11: Interior of Cabinet at height 3.7 m.
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Fig. 4.12: Solar panel before mounting.
Fig. 4.13: Flashlight before mounting.
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4.2 Data transfer
The system features a Siemsens TC63 modem. Signal strength of the modem is Q6. The access to the
logger has been protected by an individual password which knowledge was restricted to the DEWI
team.
The serial number is 355633001040049. The network operator is “Orange Moldova” The SMS phone
number is +37369261637.
The measured data were transmitted to a DEWI headquarters daily (via GSM modem) and there they
were checked and stored on a weekly basis. Various attempts have been made to operate the data
sending by Email in combination with the operator Orange Moldovia, but it appeared that at some
part of the transmission chain out of the control of DEWI this transmission had been blocked as the
system at the site reported that data had been send out.
The GSM dial in download connection furthermore provides automated modes to ensure that the
configuration of the system can be tracked to the status of every connection.
Fig. 4.14: Detail of the GSM modem.
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4.3 Data processing
The logger is configured to save data in units of 1/10 Hz for wind speed, and mV for analogue
channels. The direction is stored as an integer value between 0 and 360 degrees. Offsets to True
North have been set in the data logger. The error code for wind direction data is “777”.
DEWI has performed monthly intermediate evaluations of the data and issued a report for each
month of the measurement campaign.
The software used in an in-house development, Alda in version 1.4.0.1. It converts the recorded data
into correct physical quantities, calculates statistics and provides graphics to visualize the data.
Further tools written in the pattern scanning languages perl and awk have been used for assessing
specific issues.
Data has been visualized using Alda and Gnuplot 4.4, xfig 3.2.5b.
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4.4 Description of the Test Equipment
Sensor Type Make Installation
Date
Dismatling
Date Range Resolution Accuracy Measuring Height Calibration
Wind speed I, v1
Cup
anemometer
Serial No:
11102691
Thies First Class
Advanced 12.06.2011 27.12.2011
0.3 –
0.75 m/s 0.05 m 0.1 m/s 101.0 m
See Appendix 9.1.1
Wind speed I, v1
Cup
anemometer
Serial No:
10115151
Thies First Class
Advanced 27.12.2011
operative
until end of
data
acquisition
0.3 –
0.75 m/s 0.05 m 0.1 m/s 101.0 m
See Appendix 9.1.1
Wind speed II, v2
Cup
anemometer
Serial No:
11102690
Thies First Class
Advanced 12.06.2011
operative
until end of
data
acquisition
0.3 –
0.75 m/s 0.05 m 0.1 m/s 99.0 m
See Appendix 9.1.2
Wind speed III,
v3
Cup
anemometer
Serial No:
11102689
Thies First Class
Advanced 12.06.2011
operative
until end of
data
acquisition
0.3 –
0.75 m/s 0.05 m 0.1 m/s 78.0 m See Appendix 9.1.4
Wind speed IV,
v4
Cup
anemometer
Serial No:
11102688
Thies First Class
Advanced 12.06.2011
operative
until end of
data
acquisition
0.3 –
0.75 m/s 0.05 m 0.1 m/s 61.5 m See Appendix 9.1.5
Wind speed IV,
v5
Cup
anemometer
Serial No:
11102687
Thies First Class
Advanced 12.06.2011 18.07.2011
0.3 –
0.75 m/s 0.05 m 0.1 m/s 40.3 m See Appendix 9.1.5
Wind speed IV,
v5
Cup
anemometer
Thies First Class
Advanced 18.07.2011
operative
until end of
0.3 –
0.75 m/s 0.05 m 0.1 m/s 40.3 m See Appendix 9.1.5
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Sensor Type Make Installation
Date
Dismatling
Date Range Resolution Accuracy Measuring Height Calibration
Serial No:
11102687
data
acquisition
Wind direction I,
dir1
Wind vane
Serial No:
07101001
Thies Classic
4.3150.00.212 19.06.2011
operative
until end of
data
acquisition
0 –
360 degre
es
0 ... 2000
Ω
resistance 1 degree 98.9 m See Appendix 9.2.1
Wind direction II,
dir2
Wind vane
Serial No:
07101000
Thies Classic
4.3150.00.212 19.06.2011
operative
until end of
data
acquisition
0 –
360 degre
es
0 ... 2000
Ω
resistance 1 degree 61.3 m See Appendix 9.2.2
Air temperature PT 100
Serial No: 80741
Galltec
KPC 1/6-ME 12.06.2011
operative
until end of
data
acquisition
-30
°C...+70°C analogue 0.2 KC 50.0 m ---
Relative
humidity I 12.06.2011
operative
until end of
data
acquisition
0...100 %°
RH analogue 2 % ---
Air pressure I
Capacitive
Serial No: B10
0215
Vaisala
PTB110 12.06.2011
operative
until end of
data
acquisition
500 –
1100°hPa 0.1°hPa 0.6°hPa 3.7 m
Data acquisition
system
Data logger of
type Meteo32
Serial
No.:C100438
Version V 1.9
28.06.2010
Ammonit 12.06.2011 18.07.2012
Analogue:
12 bit
Counter:
16°bit
Temperature:
0.1 K
Pressure:
1 hPa
0.01 %
0.01 %
0.1 %
0.5 hPa
---- See Appendix 0
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Sensor Type Make Installation
Date
Dismatling
Date Range Resolution Accuracy Measuring Height Calibration
Data acquisition
system
Data logger of
type Meteo32x
Serial
No.:C110163
Version V 1.9
29.08.2010
Ammonit 12.06.2011
operative
until end of
data
acquisition
Analogue:
12 bit
Counter:
16°bit
Temperature:
0.1 K
Pressure:
1 hPa
0.01 %
0.01 %
0.1 %
0.5 hPa
---- See Appendix 0
Solar Panel ET-M53620 etsolar 12.06.2011
operative
until end of
data
acquisition
--- --- --- 12.5 m
Tab. 4.1: Table of test equipment.
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4.5 Logger Configuration
4.5.1 From 12.06.2011 to 18.07.2011, Logger Ammonit 32
Logger Status (Station426) from 12.06.2011 at 18:40:50
Logger Configuration:
Type: METEO-32
Version: V 1.9
Releasedate: 28jun10
Serial Number: C100438
User Number: 26
Clock: 12.06.2011 at 17:41:02
Logger Connection Status:
Direct Connection via: COM1 (38400bps)
Char_Receive Timeout: 750 ms
Latest GSM configuration times:
Online time 1: 00:15
Online time 2: 08:00
Online time 3: 12:00
Online time 4: 16:00
Window(s) remain(s) open for 120 minutes
Entered PIN: 1111
Logger DC output: steady-on
AD_12: &adc12 R: 0 8192 0 0 0 0 0 0 0 0
Actual Warnings:
No Warnings
Measure Interval: 1 second(s)
Store Interval: 600 measure interval(s)
Data is logged every 600 second(s) resp. ~10 minute(s).
Activated Channels: 14
Memory Capacity: 322,1 days
Current online values:
2420 2350 2120 50 53 5806 4923 31779 160 1780 58 124 0 0 / 18.0'Tin 12.4Vex 0.0Vbl 0.0Vbr
O- S-
Channel Configuration:
channelname (index): mean max min sigma
___________________________ ____ ___ ___ _____
Wind Speed 1 (CH 01): s1a s1x s1i s1s slope: 0000 offset: 0000
Wind Speed 2 (CH 02): s2a s2x s2i s2s slope: 0000 offset: 0000
Wind Speed 3 (CH 03): s3a s3x s3i s3s slope: 0000 offset: 0000
Wind Direction 1 (CH 04): d1a d1x d1i d1s offset: 0000
Wind Direction 2 (CH 05): d2a d2x d2i d2s offset: 0000
Rel. Humidity (CH 06): h1a h1x h1i h1s slope: 0000
Temperature (CH 07): t1a t1x t1i t1s slope: 0000 offset: 0000
Air Pressure (CH 08): b1a b1x b1i b1s slope: 0000 offset: 0000
Radiation (CH 09): r1a r1x r1i r1s slope: 0000
Rain (W-Speed4) (CH 10): p1a p1x p1i p1s slope: 0000 offset: 0000
Sonic Hor. (CH 11):
Sonic Dir. (CH 12):
Sonic Ver. (CH 13):
Temp. intern (CH 14): tia
Ext. Supply (CH 15): vxi
Battery left (CH 16): bla
Battery right (CH 17): bra
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4.5.2 From 18.07.2011 on, Ammonit 32x
Logger Status (Station.426) from 29.06.2012 at 02:42:24
Logger Configuration:
Type: METEO-32X
Version: V 1.9
Releasedate: 29aug10
Serial Number: C110163
User Number: 26
Clock: 29.06.2012 at 02:42:32
Logger Connection Status:
Remote Connection (Microsoft® TAPI®) active
to Modem Number: 0037369261637
Latest GSM configuration times:
Online time 1: 02:00
Online time 2: 14:00
Online time 3: 99:99
Online time 4: 99:99
Window(s) remain(s) open for 60 minutes
Entered PIN: 1111
GPRS APN: internet.orange.md
GPRS user:
GPRS pass:
SMTP relay: mail.gmx.net
SMTP user: [email protected]
SMTP pass: xxxxxxxxx
Mail_to: [email protected]
Mail_from: [email protected]
Logger DC output: steady-on
AD_12: &adc12 R: 0 8192 0 0 0 0 0 0 0 0
Measure Interval: 1 second(s)
Store Interval: 600 measure interval(s)
Data is logged every 600 second(s) resp. ~10 minute(s).
Activated Channels: 12
Memory Capacity: 391,6 days
Current online values:
1030 1040 1140 359 348 5542 4915 32833 1200 1300 58 122 / 18.0'Tin 12.2Vex 0.0Vbl 0.0Vbr O-
S-
Channel Configuration:
channelname (index): mean max min sigma
___________________________ ____ ___ ___ _____
Wind Speed 1 (CH 01): s1a s1x s1i s1s slope: 0000 offset: 0000
Wind Speed 2 (CH 02): s2a s2x s2i s2s slope: 0000 offset: 0000
Wind Speed 3 (CH 03): s3a s3x s3i s3s slope: 0000 offset: 0000
Wind Direction 1 (CH 04): d1a d1x d1i d1s offset: 0292
Wind Direction 2 (CH 05): d2a d2x d2i d2s offset: 0292
Rel. Humidity (CH 06): h1a h1x slope: 0000
Temperature (CH 07): t1a t1x slope: 0000 offset: 0000
Air Pressure (CH 08): b1a b1x slope: 0000 offset: 0000
Global Radiation (CH 09): slope: 0000
Precip. (Speed4) (CH 10): p1a p1x p1i p1s slope: 0000 offset: 0000
Analog 1 (CH 11):
Analog 2 (CH 12):
Analog 3 (CH 13):
Analog 4 (CH 14):
Counter 1 (CH 15): c1a c1x c1i c1s
...
Temp. intern (CH 22): tia
Ext. Supply (CH 23): vxi
Battery left (CH 24):
Battery right (CH 25):
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5 Results for the Measurement Period 01.07.2011 to 30.06.2012
5.1 Data Base
The following files have been used for the evaluation run:
CFG-file: .. \manualFinalRep\olanesti_101_l_ecoenergo_dewitr_v04_fr.cfg
Kor_file: ..\manualFinalRep\426_FR.kor
and ..\manualFinalRep\v5\426_FR_v5.kor
Evaluation: 28.08.2012 and 29.08.1012
The completeness of the data set is as following:
Sampling rate: 1 s
Average time: 600 s
Number of 10 minute data sets:
V1 to v4: 52679
V5: 50142
System Availability: 99.93 %
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9 Appendix
9.1 Anemometer Calibration Protocols
9.1.1 Calibration Protocol v1 (until replacement 27.12.2011)
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9.1.2 Calibration Protocol v1 (from 27.12.2011)
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9.1.3 Calibration Protocol v2
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9.1.4 Calibration Protocol v3
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9.1.5 Calibration Protocol v4
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9.1.6 Calibration Protocol v5 (from 18.07.2011)
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9.2 Wind Vane Laboratory Test Report
9.2.1 Test Report dir1
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9.2.2 Test Report dir2
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9.3 Logger Climate Chamber Test Report
Certificate of Calibration
Location of Calibration: DEWI, Wilhelmshaven EquipmentCalibrated by KN Calibration Source Voltage Burster 4462 S.Nr. 334912
Temperatures: -46 °C Calibration Source Frequency DEWI Quarzgenerator
-22 °C
22 °C Supply Source Netzteil
Climate Chamber VLK 04 / 500 / S
Serial Number 26725
Cal. Voltages 10 mV
250 mV Calibration Item500 mV Type METEO 32 X
750 mV Manufacturer Ammonit
1000 mV Serial Number C110163
1200 mV Firmware V1.9 29.Aug10
5000 mV ok
Supply Voltage external 12V V Specials Humidity Channel with Factor 10 calibrated!
Supply Voltage Battery l 0 V
Supply Voltage Battery r 0 V
Ambient temperature 25 °C
1 minute averages of 1/s samples
All analogue inputs acquire raw data in 1/10 mV
-20
-15
-10
-5
0
5
-50 -40 -30 -20 -10 0 10 20 30
Off
set
Baro
Off
set
in 1
/10 m
V (
w/o
Baro
)
Temperature in °C
Offset Drift
Rel. Humidity Temperature Global Rad. Analog 1 Analog 2 Analog 3 Analog 4 Air Pressure
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0,99999965
0,99999970
0,99999975
0,99999980
0,99999985
0,99999990
0,99999995
1,00000000
-46 -22 22
Temperatur
Korrelation
Rel. Humidity Temperature Air Pressure Global Rad. Analog 1 Analog 2 Analog 3 Analog 4 Average
9,975
9,98
9,985
9,99
9,995
10
10,005
10,01
10,015
10,02
10,025
-50 -40 -30 -20 -10 0 10 20 30
Gain
facto
r B
aro
Gain
facto
r (w
/o B
aro
)
Temperature in °C
Gain Drift
Rel. Humidity Temperature Global Rad. Analog 1 Analog 2 Analog 3 Analog 4 Air Pressure
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9.4 Instrumentation Overview Sheet
An
em
om
ete
rs
Ma
st
Inst
all
ati
on
Dis
ma
ntl
ing
Ty
pe
Ori
en
tati
on
[°]
Bo
om
len
gth
[cm
]
Bo
om
he
igh
t
[cm
]
V-B
oo
m
dia
me
ter
[cm
]
H-B
oo
m
dia
me
ter
[cm
]
Se
ctio
n
[cm
]
Ch
an
ne
l
No
Slo
pe
[mm
/s/H
z]
Off
set
[cm
/s]
Inst
itu
tio
nM
ea
sne
tD
ate
Slo
pe
[m/s
/Hz]
Off
set
[m/s
]
Ou
ter
Bo
om
dia
me
ter
[cm
]
10
1 .
0
22
68
_1
14
.33
51
.00
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01
01
15
15
1p
uls
ecu
p2
7.1
2.2
01
1T
op
--
20
03
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55
10
0D
EW
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09
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10
0.0
45
77
0,2
75
99
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24
3_
10
4.3
35
1.0
0.0
00
11
10
26
90
pu
lse
cup
12
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11
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92
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09
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00
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12
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18
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[°]
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len
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[cm
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[cm
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[mm
]
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[mm
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Exc
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To
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mo
Dir
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[°]
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fa
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fig
.
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Re
sol.
[°]
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Log
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r C
on
fig
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bra
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n
To
p A
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mo
me
ter
Incl
ina
tio
n [
°]
0,0
5
Pla
nn
ed
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b H
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[m]
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libra
tio
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m c
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[m]
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Ca
lib
.
nu
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r C
on
fig
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ali
bra
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eig
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[m]
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Da
tes
Sig
na
l Ty
pe
GSM
Mo
de
mif
Gri
dif
sta
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ne
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Pro
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Na
me
Co
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try
Cli
en
t
Sta
tio
n N
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as.
Pri
nci
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Da
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ne
sti
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via
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.
42
6
Co
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ina
tes
hd
dd
°mm
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er
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nu
fact
ure
r
To
we
r T
yp
e
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latt
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rtic
al
bo
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<=
Dia
me
ter
An
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ete
r
bo
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ng
th o
f b
oo
m (
dia
. <
an
em
o b
od
y)
[cm
]
Se
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l N
o
Bo
dy
/Cu
p
E 2
9°
54
' 0
6.0
"
Alt
itu
de
14
5 m
To
we
r S
ha
pe
N
46
° 2
7'
50
.5"
Inst
all
ati
on
pe
rfo
rme
d b
y
(DE
WI)
Ye
s
Sig
na
l
Ty
pe
Inst
all
ati
on
Da
te1
2.0
6.2
01
1
-E
xp
ect
ed
Ma
in W
ind
Dir
ect
ion
[°]
Re
vis
ion
4,
27
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11
2.0
m
He
igh
t
[m]
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pe
Ye
s1
75
He
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t
[m] D
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nce
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p a
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mo
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r
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me
nt
[cm
]
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lib
.
nu
mb
er
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pe
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na
l Ty
pe