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Currency [0]/Explanatory TextB5Explanatory Text  0Good6Good  a1 Heading 1B Heading 1 I}O2 Heading 2B Heading 2 I}?3 Heading 3B Heading 3 I}234 Heading 44 Heading 4 I}5( Hyperlink 6InputpInput ̙ ??v 7 Linked CellF Linked Cell } 8Neutral<Neutral  e"Normal 9Normal 2 :Normal 3; Normal_Sheet1 <Noteb Note   =OutputrOutput  ???????????? ???>$Percent ?Title1Title I}% @TotalHTotal OOA Warning Text: Warning Text XTableStyleMedium2PivotStyleLight16`Submission guideline$zCluster definition guidelineAECM Data templateTurbine Curves table=8 6'ECM data template submission guideline:This guideline for the Energy Conversion Model (ECM) data for registering Semi-Scheduled Generators has been published as prescribed in the Central Dispatch and Integration of Wind and Other Intermittent Generation Rule 2008 under clause 2.2.7(d).Generator intending to register as semi-scheduled must provide a completed Energy Conversion Model (ECM) data template to AEMO 3 months before participation in the market.In the interest of maintaining accuracy of the wind generation forecasts, any material changes to the ECM data must be re-submitted to AEMO and at any other time on AEMO request. Where relevant, the data entered into the ECM data template needs to be consistent with, or derived from, data in the Generating System Design Data Sheets and Generating System Setting Data Sheets, or as otherwise agreed with AEMO. Semi-scheduled generators should submit the completed ECM data template and required attachments to AEMO via the following email address -A "cluster" corresponds to a group of wind turbines of similar type in the wind farm and within a reasonable geographic area. Please see the  Cluster definition guideline for more details. Participant to propose the cluster arrangement to AEMO for approval. Cluster definition guideline ] To define a  cluster the ensemble of the following constraints should be roughly satisfied : 4 @ i. no more than 50 wind turbines (with some degree of flexibility) (this would correspond to clusters of approximately 100 MW each).Eii. no more than 7 km x 7 km (with some degree of flexibility)=iii. only identical turbines are included in a cluster|NOTE: Identical turbines means turbines supplied by same manufacturer, having the same model and characteristic power curve.MThe factors that are expected to affect the definition of such clusters are : b Important changes in the terrain complexity throughout the area covered by the wind farm e Changes in the meteorology due to the size of the area covered (presence of local patterns) o Physical separation of parts of the wind farm (considerable distance between groups of wind turbines) U Different timing in the development/commissioning of parts of the wind farm ; Different types of wind turbines in the wind farm 5 More than one connection points to the grid s Wake effects. Presence of wake effects among clusters would increase complexity in the modelling process. Wind Farm Standing Data: IdWind Farm Parameters MandatoryValueComments DescriptionWind farm identificationNameYesKName of the wind farm. To be same as specified in the Registration process.DUID Cluster IDUnique ID(s) of the cluster(s) of wind turbines in the farm to be proposed by the participant. Maximum 10 characters allowed. Example- SYDWND_C1, SYDWND_C2. NOTE: Cluster ID(s) to be same as specified in the Registration processRegionsName of the Region where the wind farm is installed. Needs to be the same as specified in the Registration process.Wind farm StatusStatus of the wind farm<New future wind farm or extension of an existing wind farm? >From which date is or will the wind farm be fully operational?Provide the plan for progressive commissioning of the wind farm with expected dates of commissioning per wind turbine - as per Rules Cl 5.8.4OFrom which date will the wind farm be first connected to the grid or energised?HProvide the date when the wind farm is expected to commence generation. Wind farm nominal data Registered Capacity (MW)4The total installed capacity of the Wind Farm (MW). !Wind farm location & terrain data&Geographical coordinates (UTM WGS-84) NolGeographical coordinates of a representative point of the wind farm, example: UTM WGS84 Z55 E304898 N5489758"Geographical coordinates (Lat/Lon)dGeographical coordinates of a representative point of the wind farm, example: -40.72067 / 144.68691 Wind farm altitude (m ASL)Wind farm geometry (map)SGiven as a map with marked wind turbines position (high resolution image/ PDF file)Orography information (map)Given as a map of the wind farm area in numerical format with the highest available spatial resolution (recommended not inferior than 200 m) (e.g. WASP [Wind Atlas Analysis and Application Program] format)$Mesoscale roughness coefficient (m) iGiven as a unique representative value for the mesoscale roughness coefficient of the wind farm (meso z0)#Roughness of surrounding area (map)Given as a map in numerical format (e.g. WASP format) with the highest available spatial resolution (recommended not inferior than 200 m) or paper format (1:50000)!Met mast measuring height (m AGL)+Met mast Geographical coordinates (Lat/Lon)Air density (kg/m^3)The typical air density at the level of this Wind Farm (Kg/m^3). In case of multiple power curves the one that corresponds to this density is considered.Wind Farm SCADA to AEMO:!SCADA data available from this WF1SCADA readings as per Rules S5.2.6 to be providedWind power dataTotal wind farm power (MW).5Number of wind turbines available for generation data.As number of turbines available for generation)Number of wind turbines in operation data3As number of turbines in operation, i.e. generatingWind speed dataNAlso provide the height at which this is measured. 10 min averages acceptable.Wind direction dataTemperature dataPAlso provide the height at which this is measured. Instantaneous value required.Pressure or humidity data2Also provide the height at which this is measured.!Wind Farm Historical measurementsWProvide historical SCADA measurements since the beginning of operation of the wind farmOnly applicable if an operational wind farm is registered as a scheduled or semi-scheduled generator or a Non-scheduled wind farm expanding to >= 30MW registered capacity and thereby creating a need for their output to be forecast. Time resolution should be same as SCADA.\If the wind farm is not in operation yet, provide historical wind measurements from the siteAt least 1 year of wind speed measurements from the wind farm site (and direction if available) should be provided with time resolution 1 hour or less. Such measurements will be used for pre-tuning of the wind power forecasting models. Cluster Standing Data: PA "cluster" corresponds to a group of wind turbines of similar type in the wind farm and within a reasonable geographic area. Please see the  Cluster definition guideline for more details. Participant to propose the cluster arrangement to AEMO for approval. If there are more than one such clusters, please repeat the following table. Wind Turbines Cluster #1Cluster identification ID of this Wind Turbines ClusterUnique ID(s) of the cluster(s) of wind turbines in the farm to be provided by the participant. Maximum 10 characters allowed. Example- SYDWND_CL1, SYDWND_CL2Cluster characteristics&Number of Wind Turbines in the ClusterNumber of identical machines proposed in the cluster. This should be consistent with information provided in Generating System Design Data Sheets section 7, page 21Type of Turbines in the ClusterType of the wind turbines proposed in the cluster. Mark the commercial wind turbine reference e< xample - VESTAS V66 1.75 MW. This should be consistent with information provided in Generating System Design Data Sheets section 7, page 21.Hub height of wind turbines in the Cluster (m),The hub height of this type of wind turbinesRotor diameter (m)Rotor Diameter of the turbine7Manufacturers' power vs wind speed characteristic curveProvide the characteristic curve of the type of wind turbines in this cluster using the turbine curves table attached. This is the basic power curve provided by the manufacturer. Curve of id 6, in the template provided, is estimated for the wind farm taking into account wake effects. Directional power curvesThese are characteristic curves that give the power output of the wind farm cluster as a function of wind speed and wind direction. Such curves are dependent on the specific wind farm cluster as they account for wake effects. Please provide in separate file (e.g. WASP format). This should be consistent with information provided in Generating System Design Data Sheets section 12.4.1 page 59 - power curveDManufacturer's thrust coefficient vs wind speed characteristic curveProvide the characteristic curve of the thrust coefficient of each type of wind turbines in this cluster using the turbine curves table attached. This parameter is used to calculate wake effects in some physical forecasting models.Nominal Power (kW) The nominal power of that type of turbine (kW). This should be consistent with information provided in Generating System Design Data Sheets section 7.1.1, page 21Maximal Power (kW) The maximal power a turbine of that type can produce (kW). This should be consistent with information provided in Generating System Design Data Sheets section 7.1.1, page 212Operation in ambient temperature range (degree C) BTemperature Range of turbine operation, example -20 to 40 degree C[Wind Turbine Cut-out Temperature (degree C) / Automatic Stop limit due to high temperatureFFor cases where the wind turbine need to be stopped during certain high temperatures. This should be consistent with information provided in Generating System Design Data Sheets section 7.1.1, page 21. Temperature threshold and associated time delay also to be provided, if available in technical specification of the Turbine.sWind Turbine Cut-in Temperature (degree C) / Automatic re-enter in operation after cut-out due to high temperaturesdTemperature where the wind turbine gets back in operation after a cut-off due to high temperature. iWind Turbine Cut-out Temperature (degree C) / Automatic Stop limit due to very low negative temperatures\For cases where the wind turbine need to be stopped during certain low negative temperaturesWind Turbine Cut-in Temperature (degree C) / Automatic re-enter in operation after cut-out due to very low negative temperaturesmTemperature where the wind turbine gets back in operation after a cut-off due to low negative temperatures. Rated Speed (m/sec)The rated speed (m/sec) of that type of turbine, i.e. the wind speed at which full power is attained. This should be consistent with information provided in Generating System Design Data Sheets section 12.4.1, page 58 - "speed at which full power is attained"Cut-in Speed (m/sec)FMinimum wind speed at which the wind turbine starts to produce power. Cut-out Speed (m/sec)Minimum wind speed at which the wind turbine is stopped to avoid damage at high wind speeds. This should be consistent with information provided in Generating System Design Data Sheets section 12.4.1, page 58*Cut-out Speed (m/sec) - other measurementsType of wind speed measurement on which cut-out is triggered (e.g. 2 min, 10 min, gusting average wind speeds). Repeat if several measurements available.!Restart after cut-out Wind Speed Maximum wind speed at which the wind turbine can re-enter operation after being cut-out due to too high wind speeds. This should be consistent with information provided in Generating System Design Data Sheets section 12.4.1, page 58 and 596Restart after cut-out Wind Speed - other measurementsType of maximum wind speed measurement on which wind turbine can re-enter operation after cut-out due to too high wind speeds (e.g. 2 min, 10 min, gusting average wind speeds). Repeat if several measurements available.Operational restrictions%Imposed noise level restrictions (DB)tFor cases where Wind Turbines should operate at a specific noise mode. The appropriate power curve is then selected.TManufacturers' power vs wind speed characteristic curve as a function of noise levelIf restrictions apply due to noise, the manufacturer's characteristic wind speed vs power curves of the wind turbines for different noise levels should be provided using the table provided for each noise level. Legal start night timeFor cases where Wind Turbines stop or run on a special power curve (indicate curve) during night hours for noise reduction or other reasons.Legal ending night timeAny other restrictionsProvide details of any other limitations imposed on the Wind Farm. This should be consistent with information provided in Generating System Design Data Sheets section 6.1.2, page 20, and Data Sheets section 7.1.2, page 22Wind turbines location+Geographical coordinates of Wind Turbine #10Coordinates in UTM WGS-84 or Latitude/ Longitude+Geographical coordinates of Wind Turbine #2+Geographical coordinates of Wind Turbine #3+Geographical coordinates of Wind Turbine #4+Geographical coordinates of Wind Turbine #5+Geographical coordinates of Wind Turbine #6+Geographical coordinates of Wind Turbine #7+Geographical coordinates of Wind Turbine #8+Geographical coordinates of Wind Turbine #9,Geographical coordinates of Wind Turbine #10,Geographical coordinates of Wind Turbine #11,Geographical coordinates of Wind Turbine #12,Geographical coordinates of Wind Turbine #13,Geographical coordinates of Wind Turbine #14,Geographical coordinates of Wind Turbine #15,Geographical coordinates of Wind Turbine #16,Geographical coordinates of Wind Turbine #17,Geographical coordinates of Wind Turbine #18,Geographical coordinates of Wind Turbine #19,Geographical coordinates of Wind Turbine #20Add more if required Cluster SCADATotal cluster power (MW)MAlso provide the height at which this is measured.10 min averages acceptable."Wind Turbine Characteristic CurvesBPlease repeat the following table for each type of wind turbines. Repeat the table if for a wind turbine type a different characteristic curve is available for different values of air density and/or for operation at different noise modes (in case that noise restrictions apply). >The wind speed increment should be in the order of 0.5-1.0 m/sType of wind turbine:Air density (kg/m3):?Noise mode dB (A): ? Speed (m/s) Power (kW)Thrust coeff. CtMW set-point applied in the wind farm's control system to limit (down regulate) its output to at or below the level required by AEMO or the NSP. At other times when no limit applies, the set-point to be set to above the wind farm's registered maximum capacity, but below 250% of it. Control system set-point quality flag and control system operation status (On/Off) is also to be provided via SCADA.DWind Farm Control System Set-Point (in MW) at cluster level (if any) Yes (if any)MW set-point applied in the cluster's control system to limit (down regulate) its output to at or below the level required by AEMO or the NSP, at cluster level. At other times when no limit applies, the set-point to be set to above the cluster's registered maximum capacity, but below 250% of it. Control system set-point quality flag and control system operation status (On/Off) is also to be provided via SCADA.Unless otherwise stated, instantaneous measurements are required. Instantaneous means values sent every 2 seconds to AEMO, or more often.kMeasurements from turbine nacelle anemometers much preferred over measurements from meteorological mast(s).#NSP MW Control Schemes in operationRepresentative value for the wind farm altitude (given as a unique value in m ASL [<meters above sea level]). It should be average of ground altitude for turbine locations.If a met mast available, indicate the height(s). (repeat line if several). Please provide measuring heights for both the SCADA wind speed data (ID 1.23) and also wind Farm Historical measurements (ID 1.28 and 1.29).If a met mast available, indicate the geographical coordinates. (repeat line if several). Please provide geographical coordinates for both the SCADA wind speed data (ID 1.23) and also wind Farm Historical measurements (ID 1.28 and 1.29).As number of turbines available for generation. This definition is the summation of: " Turbines operating " Turbines available to operate, but not operating due to ambient conditions (very low / high wind speeds, ambient temperature) " Turbines available to operate, but paused due to down regulation. This definition excludes all the following cases: " Turbines under maintenance or repair " Turbines with a fault or damage " Turbines not yet built " Transmission/distribution network not available+Number of wind turbines actively generating+Wind Farm Control System Set-Point (in MW) pProvide details of NSP MW Control Schemes used to down regulate the wind farm at wind farm and/or cluster level.ECMValidations@aemo.com.auDUID of the wind farm to be proposed by the participant. Maximum 8 characters allowed. Example - SYDNWIND. 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