coroa / global_energy_observatory_power_plants

Global Energy Observatory Power Plants

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Data

Downloaded 740 times by cbdavis coroa mfleschutz slowdestiny a-buntjer FabianHofmann TuckerMarlee WooCoding valentinvdb fresm maghnam MikeRalphson matteodefelice daspartha clementyeehw gplssm inf3cti0n95 MatthiasKl kedarotta sassej anishsugathan conradmurphy moermann ValentinMoens

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Name Type Country State Type_of_Plant_rng1 Type_of_Fuel_rng1_Primary Type_of_Fuel_rng2_Secondary Design_Capacity_MWe_nbr Date_of_Scraping GEO_Assigned_Identification_Number State_ID Electric_Power_Grid_Connected_To_rng1 Points0 Currency_enum Source_of_Cooling_Water_rng1 Owners1 Saved_Latitude_Start PerformanceDecade Location_Accuracy Latitude_Start ShapesCount Longitude_Start Map_Height Country_ID SOx_Control_Device_Type_enum Status_of_Plant_itf Type_ID Source_of_Coal_rng1 Saved_Longitude_Start User_ID NOx_Control_Device_Type_enum References1 ParticulatesPM_Control_Device_Type_enum CurrentPage_sys Description_ID Location Map_Width References2 Comments1 Operating_Company Power_Plant_Used_For_ Type_of_Plant_rng2_Short_Description Type_of_Ownership References3 Points1 Comments2 Percent_Share_nbr1 References4 Source_of_Makeup_Water_rng2_Rate_cum_day_nbr Source_of_Cooling_Water_rng2_Rate_cum_day_nbr Capital_Cost_Currency_rng3_In_Year_YYYY_yr EPGC_To_rng3_PPAyears Capital_Cost_of_Plant_nbr_rng1 Kilometers_rng2_Name_of_Major_Mines EPGC_To_rng2_Name_Operator References5 ParticulatesPM_Control_Device_Type_other Year_rng2_yr1 Configuration_of_Boiler_Turbine_Gen Upgrade1 Year_rng1_yr1 Kilometers_to_Coal_Mines_Average_rng1_nbr Source_of_Makeup_Water_rng1 Owners2 Construction_EPC_Contractor Percent_Share_nbr2 Owners4 Owners5 Owners3 Percent_Share_nbr5 Percent_Share_nbr4 Percent_Share_nbr3 Name_of_SubStation_Connected_To Firm_Capacity_MWe_nbr Steam_Supplied_To_rng3_Description Comments3 Water_Withdrawal_Rate_at_Full_Power_rng1_nbr_cum_hour Comments4 Cogen_Mode_Steam_Supplied_To_rng1 SOx_Control_Device_Type_other Heat_Supply_Capacity_MWth_nbr Source_Coal_rng2_Onsite_Storage_Capacity_Tonnes_nbr NOx_Control_Device_Type_other Type_of_Cooling_System Plant_Efficiency_and_Impact_itf Project_Financed_By Capital_Cost_of_Plant_rng2_and_or_In_US_Dollars_nbr Country_Assigned_Identification_Number Environmental_Issues References10 References11 References12 References13 References14 References15 References16 References17 References18 Mercury_Control_Device References8 References9 References6 References7 Cost_nbr3 Year_rng2_yr3 Year_rng2_yr2 Year_rng1_yr2 Year_rng1_yr3 Upgrade3 Upgrade2 EnvironmentalIssuesDescription1 EnvironmentalIssuesType_1 Cost_nbr1 Plant_Overall_Rating_setfield_itf_State_of_the_art Cost_nbr2 Points2 Steam_Supplied_To_rng2_Tonnes_hour_nbr Plant_Overall_Rating_setfield_itf_Environmentally Responsible Plant_Overall_Rating_setfield_itf_Worth Duplicating Regulatory_Authority Owners6 Owners7 Percent_Share_nbr6 Percent_Share_nbr8 Owners8 Owners9 Percent_Share_nbr7 Percent_Share_nbr9 Owners10 Percent_Share_nbr10 Percent_Share_nbr15 Percent_Share_nbr13 Owners12 Owners16 Owners14 Owners13 Owners11 Percent_Share_nbr12 Percent_Share_nbr16 Percent_Share_nbr14 Owners15 Percent_Share_nbr11 Source_of_Water Source_of_Fuel_rng1 Source_of_Fuel_rng2_Name_of_Pipeline Gas_Supply_MMSCMD_rng1_Required_for_90Percent_PLF_nbr Comments5 GS_MMSCMD_rng2_Linkage_nbr Comments8 Comments7 Comments6 Firm_Capacity_MWe_ nbr Source_of_Oil Points3 Configuration_of_Powerhouses_rng1 Firm_Capacity_MWe_rng1_nbr River_Lake_Canal_Dammed Crest_Length_of_the_Dam_m_nbr Height_of_the_Dam_m_nbr_rng1 Project_Benefits_setfield_Power Generation Name_of_Dam Project_Benefits_setfield_Irrigation Type_of_Dam_rng1 Capacity_of_Main_Reservoir_MM_cum_rng1_at_FRL_nbr CMR_MM_cum_rng2_Useful_Live_nbr Year_Project_Commissioned COP_rng2_Distance_from_Dam_m_nbr PPPAD_rng2_GW_Hours_per_year_at_water_head_m_nbr Power_Production_Potential_At_Design_nbr_rng1 At_Full_Reservoir_Level_rng2_Altitude_m_nbr Name_of_rng1_Main_Reservoir At_Full_Reservoir_Level_FRL_rng1_Surface_Area_sq_km_nbr Altitude_Above_Sea_Level_Main_Reservoir_m_rng1_at_Maximum_nbr Water_Flow_Rate_Through_Turbines_rng1_cum_sec_nbr Catchment_Area_sq_km_nbr HoD_rng2_Crest_Altitude_m_nbr Altitude_Above_Sea_Level_Main_Reservoir_m_rng2_at_Minimum_nbr Mean_River_Flow_cum_sec_nbr Width_of_Dam_rng1_at_Crest_m_nbr Type_Of_Dam_rng2_Describe Project_Benefits_setfield_Tourism Project_Benefits_setfield_City Water Height_of_Water_Head_rng1_at_Maximum_m_nbr Water_Storage_Pumping_Rate_rng1_cum_sec_nbr NoMR_rng2_Lower_Reservoir_if_pumped_storage Project_Benefits_setfield_Recreation and Sports Project_Benefits_setfield_Fish Project_Benefits_setfield_Water _ Flood Management Water_Management_Description Annual_Flow_Into_Reservoir_rng1_nbr_MM_cum Width_of_Dam_rng2_at_Base_m_nbr Height_of_Water_Head_rng2_at_Minimum_m_nbr Sedimentation_Rate_MM_cum_year_rng1_nbr High_Season_Generation_rng2_to High_Season_Generation_Months_rng1 Water_Storage_Pumping_Time_rng2_at_Power_MWe_nbr FRL_Generation_Duration_rng2_at_Power_MWe_nbr Pumping_rng2_Max_Pumping_Power_MWe_nbr EnvironmentalIssuesType_2 FRL_Generation_Duration_rng1_hours_nbr EnvironmentalIssuesDescription2 Water_Storage_Pumping_Time_rng1_hours_nbr Realized_Cap_rng2_Plant_Load_Factor_Percent_nbr Energy_Content_at_FRL_GW hours_nbr WFRTT_rng2_Max_Velocity_m_sec_nbr Sedimentation_Rate_rng2_Impact_on_Project Points4 Project_Benefits_setfield_Navigation Points6 Points5 Area_Field_rng2_Name_of_Field Depth_of_Wells_rng2_nbr_Maximum_m Minimum_Inlet_Steam_Brine_rng1_nbr_Temperature_o_C Depth_of_Wells_rng1_nbr_Minimum_m Maximum_Inlet_Steam_Brine_rng1_nbr_Temperature_o_C Brine_rng3_nbr_Flow_Rate_T_hr Inlet_Steam_rng2_nbr_Pressure_MPa Inlet_Steam_rng3_nbr_Flow_Rate_T_hr Total_Number_of_Wells_rng1_nbr_Production Binary_Fluid_Type Area_of_Field_Hectares_rng1_nbr Average_Annual_Generation_rng1_nbr_GWh Fuel_for_Startup_Backup_ Total_Number_of_Wells_rng2_nbr_Re_Injection LP_Steam_Input_to_Turbine_rng2_nbr_Rate_T_hr_MW HP_Steam_Input_to_Turbine_rng1_nbr_Pressure_Bars IP_Steam_Input_to_Turbine_rng2_nbr_Rate_T_hr_MW LP_Steam_Input_to_Turbine_rng1_nbr_Pressure_Bars Source_of_Cooling_Water Produced_Water_Management HP_Steam_Input_to_Turbine_rng2_nbr_Rate_T_hr_MW Binary_Fluid_rng3_nbr_Flow_Rate_T_hr Binary_Fluid_rng2_nbr_Pressure_MPa Total_Number_of_Wells_rng3_nbr_Monitoring Total_Pipe_Network_Length_kms_nbr IP_Steam_Input_to_Turbine_rng1_nbr_Pressure_Bars Type_of_Reactors_rng1 Type_of_Fuel Type_of_Reactors_rng2_Short_Description Source_of_Fuel Safeguards Refueling_Cycle_rng1_Months_nbr Disposition_of_Spent_Fuel Design_Capacity_MWe_Peak_nbr Area_Occupied_By_nbr_rng1_Collectors Area_Occupied_By_nbr_rng2_Total_Land Area_Occupied_By_rng3 Backup_Power_System_rng1 Type_of_Land_rng1 Expected_Annual_Generation_GWh_nbr Mounting_System_rng1 Energy_Storage_System_rng1 Grid_Feed_In_Tariff_per_MWh Mounting_System_rng2_Description Type_of_Land_rng3_Describe Type_of_Land_rng2_Altitude_m Solar_Insolation_rng1_kWh_m2_year Firm_Capacity_MWe_Peak_nbr Backup_Power_System_rng2_Short_Description Operating_Temperature_of_HTF_rng2_Output_Temp_degC_nbr THCE_rng3_Details TOHTF_rng2_Details Area_of_Collectors_rng1_nbr Fuel_Type_for_Startup_Backup_rng1 Type_of_Turbine_rng2_Details Area_of_Collectors_rng3 Type_of_Panels_rng1 Operating_Temperature_of_HTF_rng1_Input_Temp_degC_nbr ToP_rng3_Details Tariff_rng2_For_Number_of_Years_nbr ESS_rng3_Details ESS_rng2_Storage_Capacity_hrs_nbr Solar_Insolence_DNR_rng3_Details Fuel_Type_rng2_Source_of_Fuel Type_of_Heat_Transfer_Fluid_HTF_rng1 Solar_Insolence_DNR_rng1_kWh_sq_m_day_nbr ToP_rng2_Model Grid_Feed_In_Tariff_per_MWh_in_selected_currency_rng1_nbr Solar_Insolence_DNR_rng2_Power_Watts_sq_m_nbr Type_of_Turbine_rng1 Thermal_Storage_rng2_MWh_heat_nbr Thermal_Storage_rng1_Tank_Volume_cum_nbr Backup_Power_System_rng2_Details Type_of_Heat_Collecting_Element_HCE_rng1 Water_rng2_Usage_Rate_Liters_kWh_nbr Area_of_Collectors_rng2_Land Area_nbr THCE_rng2_Model Type_of_Generating_Units Source_of_Waste_as_Fuel_rng1 Waste_fuel_rng2_Amount_Incinerated_Daily_Tonnes_nbr Location_rng1 Productive_Wind_Speed_m_sec_rng1_nbr Location_rng2_On_Off_Shore Total_Number_of_Turbines_nbr Status_of_Land_rng2_Owner Altitude_Range_m_above_Sea_Level_rng1_nbr Designed_Power_Production_Potential_GWh_year_nbr_rng1 Status_of_Land_rng1 Altitude_Range_m_above_Sea_Level_rng2_nbr Size_of_Land_hectares_nbr Status_of_Land_rng3_Description DPPP_rng2_at_Average_Wind_Speed_m_s_nbr Productive_Wind_Speed_rng2_nbr DPPP_rng3_at_Mast_Height_m_nbr GFT_rng3_nbr GFT_rng2_PPA_For_Years_YYYY_nbr Backup_Power_System
AES Central Thermal San Nicolas Power Plant Argentina
Coal
Argentina
Buenos Aires
Sub-critical Thermal
Coal
Fuel Oil
650
2020-11-14
42220
156
Regional Grid
lorjExsgnJcW`_@gEQ_RqUbVi^zSdPjDdD
8
Parana River
AES Argentina (since March 1993)
-33.3559
2000-2009
Exact
-33.3559
1
-60.1734
320
10
0
Operating Fully
1
Attached coal port
-60.1734
0
0
http://www.aesargentina.com.ar/sannicolas_e.htm
0
/geoid/42220
42220
San Nicholas, Buenos Aires, Argentina
920
http://www.industcards.com/st-other-argentina.htm
There is a 845MW CCGT unit in the same complex
Central Termica San Nicolas (AES Argentina)
Munmorah Coal Power Station Australia (Shutdown)
Coal
Australia
New South Wales
Sub-critical Thermal
Coal
600
2020-11-14
43140
193
Regional Grid
jtviEem}{[aThi@mUw[nYmZjOjJ
9
Lake Munmorah and Budgewoi
Delta Electricity
-33.2117
2000-2009
Exact
-33.2117
1
151.5418
320
13
0
Decommissioned
1
two local underground mines via conveyor belt
151.5418
0
0
http://www.de.com.au/New-Developments/Munmorah-Rehabilitation/default.aspx
0
/geoid/43140
43140
near Doyalson, on the shores of Lake Munmorah, New South Wales, Australia
920
http://en.wikipedia.org/wiki/Munmorah_Power_Station
The four units at Munmorah Power Station were down rated to 300 MW capability in 1984. Unit 4 last operated in March 2009 and unit 3 operated until August 2010. Officially shutdown in 2012-07-03
Delta Electricity
Base Load
Unit 4 last used in 2009-03-00 and Unit 3 in 2010-08-00
Government of New South Wales
http://www.industcards.com/st-coal-australia-nsw.htm
Bayswater Coal Power Plant Australia
Coal
Australia
New South Wales
Sub-critical Thermal
Coal bituminous
2640
2020-11-14
43163
193
Regional Grid
vgwdEuvhx[uHrZeXyL}BnF}_@yP{_@oi@lHiLnl@|AbQgHrGn@lRhPcKp]
9
Adjacent Bayswater Reservoir
Macquarie Generation
-32.395
2000-2009
Exact
-32.395
2
150.9492
320
13
0
Operating Fully
1
Coal is delivered by overland conveyor from Hunter Valley mines, and by rail from Western NSW mines
150.9492
0
0
http://www.macgen.com.au/Generation-Portfolio/Bayswater-Power-Station.aspx
0
/geoid/43163
43163
New South Wales, Australia
920
http://www.macgen.com.au/About-Us/Annual-Reports.aspx
The two cooling towers have Height 132 metres Diameter at base 100 metres Diameter at top 52 metres
Macquarie Generation
Base Load
Government
http://www.industcards.com/st-coal-australia-nsw.htm
pvxdEufjx[qfA}LrBysAn}@eB
The GWh generated listed in Annual Reports are energy sent out. Total generattion and emissions should be about 7% higher
Liddell Coal Power Plant Australia
Coal
Australia
New South Wales
Sub-critical Thermal
Coal bituminous
2000
2020-11-14
43164
193
Regional Grid
blsdEezmx[uF~]oX~EaI{R_Iw@oN}NwCoIaAwM`CwU|^`DdAcFfQhCs@lYnRrF
9
Liddell Lake
Macquarie Generation
-32.3715
2000-2009
Exact
-32.3715
2
150.978
320
13
0
Operating Fully
1
Coal is delivered by overland conveyor from Hunter Valley mines, and by rail from Western NSW mines
150.978
0
0
http://www.macgen.com.au/Generation-Portfolio/Liddell-Power-Station.aspx
0
/geoid/43164
43164
Muswellbrook, New South Wales, Australia
920
http://www.industcards.com/st-coal-australia-nsw.htm
Macquarie Generation
Base Load
Government
http://en.wikipedia.org/wiki/Liddell_Power_Station
vkqdEs~hx[~q@f\sGpJal@|[a}@tH}W}{@hl@y_BtK|A`e@dj@
100
http://www.macgen.com.au/About-Us/Annual-Reports.aspx
Eraring Coal Power Plant Australia
Coal
Australia
New South Wales
Sub-critical Thermal
Coal bituminous
2840
2020-11-14
43165
193
Regional Grid
pfyhEemy{[iGd`Aca@{G}p@wn@nC{OxMhC?cOhWlIp_@lE
9
Bonnell’s Bay, Lake Macquarie
Origin Energy (acquired from Eraring Energy in 2013)
-33.0622
2000-2009
Exact
-33.0622
2
151.5209
320
13
0
Operating Fully
1
receives black coal supplies by road, rail and overland conveyors from local and distant coal mines
151.5209
0
0
http://www.eraring-energy.com.au/Default.aspx?aCateId=795 (See Annual Reports)
3
/geoid/43165
43165
Dora Creek, New South Wales, Australia
920
http://www.industcards.com/st-coal-australia-nsw.htm
Origin Energy (acquired from Eraring Energy in 2013)
Base Load
The plant is being upgraded to 4x720 MW units
Government
http://en.wikipedia.org/wiki/Eraring_Power_Station
n{vhEyry{[up@i]sDub@bGcd@tNoa@pd@qs@~NhGR|uAcKlPmHd}@
100
4000
1814400
Redbank Coal Power Plant Australia
Coal
Australia
New South Wales
Sub-critical Thermal
Coal Waste Tailings
151
2020-11-14
43166
193
Regional Grid
tuzeEqqay[mCzTyH?gOyA_DkK|Nq@BcBhLs@
9
Hunter River
Redbank Energy
-32.5804
2000-2009
Exact
-32.5804
1
151.0718
320
13
0
Operating Fully
1
By conveyor
151.0718
0
0
http://www.redbankenergy.com/assets/redbank.aspx
0
/geoid/43166
43166
Hunter Valley, approx 145kms north of Sydney, New South Wales, Australia
920
http://www.industcards.com/st-coal-australia-nsw.htm
Redbank Energy
Base Load
http://en.wikipedia.org/wiki/Redbank_Power_Station
100
2001
30
230000000
Mount Thorley Warkworth mine
Energy Australia
Mount Piper Coal Power Plant Australia
Coal
Australia
New South Wales
Sub-critical Thermal
Coal
1400
2020-11-14
43170
193
Regional Grid
rysjEygur[yBhKu[sLcFdMeb@yNwVuWbBw_@jOpC|GoQhKnB`CkHfNpNjQ~FaCvXjO~Ac@xR
9
Lyell Dam and Thomsons Creek Dam
Energy Australia (acquired Mt Piper and Wallerawang power stations from NSW government in September 2013)
-33.3586
2000-2009
Exact
-33.3586
2
150.0316
320
13
0
Operating Fully
1
150.0316
0
0
http://www.de.com.au/Power-Stations/Mt-Piper/Mt-Piper/default.aspx and http://www.de.com.au/About-Us/Annual-Reports/default.aspx
0
/geoid/43170
45772
Portland, New South Wales, Australia
920
http://www.industcards.com/st-coal-australia-nsw.htm
Two 1000MW USC units have been approved for this site in April 2010
Energy Australia (acquired Mt Piper and Wallerawang power stations from NSW government in September 2013)
Base Load
http://en.wikipedia.org/wiki/Mount_Piper_Power_Station
``rjEqxwr[m[{DtAq]dq@g}@jHX|CpYmA~M_U`VaIhY
100
https://www.clpgroup.com/ouroperations/assetsandservices/powergeneraton/coalfiredpowerpurchase/Pages/deltawesterngentradercontract.aspx
TRUenergy
http://www.energyaustralia.com.au/about-us/what-we-do/generation-assets/wallerawang-mtpiper-power-station
Vales Point B Coal Power Plant Australia
Coal
Australia
New South Wales
Sub-critical Thermal
Coal Black
1320
2020-11-14
43171
193
Regional Grid
jqmiE{b|{[iKvQiNGwJah@oK~IgDoHuMhIgJiTrHaRbK_JdcAdl@
9
Salt water from Lake Macquarie
Delta Electricity
-33.16
2000-2009
Exact
-33.16
1
151.5446
320
13
0
Operating Fully
1
Adjacent mines by conveyor
151.5446
0
0
http://www.de.com.au/About-Us/Power-Stations/Vales-Point/default.aspx and http://www.de.com.au/About-Us/Annual-Reports/default.aspx
3
/geoid/43171
43171
Southern end of Lake Macquarie, New South Wales, Australia
920
http://www.industcards.com/st-coal-australia-nsw.htm
Delta Electricity
Base Load
Government
http://en.wikipedia.org/wiki/Vales_Point_Power_Station
100
Alstom baghouses
Wallerawang-C Coal Power Plant Australia
Coal
Australia
New South Wales
Sub-critical Thermal
Coal Black
1000
2020-11-14
43172
193
Regional Grid
`|{jEgy_s[_AzKqMkDcF~I_UnBsNwX|Gs^jHuPhTeL|InMj@xNqBh]
9
Lake Wallace and Lake Lyell, fresh water lakes on the Coxs River
Energy Australia (acquired Mt Piper and Wallerawang power stations from NSW government in September 2013)
-33.4026
2000-2009
Exact
-33.4026
2
150.083
320
13
0
Operating Fully
1
Local coal mines
150.083
0
0
http://www.de.com.au/About-Us/Generation/Wallerawang/default.aspx and http://www.de.com.au/About-Us/Annual-Reports/default.aspx
0
/geoid/43172
43172
Wallerawang, New South Wales, Australia
920
http://www.industcards.com/st-coal-australia-nsw.htm
Energy Australia (acquired Mt Piper and Wallerawang power stations from NSW government in September 2013)
Base Load
Government
http://en.wikipedia.org/wiki/Wallerawang_Power_Station
xyxjEyxas[gLz@gCtH}AqAeAqNmF}CxCaRzEcDpR~R
100
Angus Place colliery
TRUenergy
Swanbank B Coal Power Plant Australia
Coal
Australia
Queensland
Sub-critical Thermal
Coal
480
2020-11-14
43138
195
l}ygDiyuc\rAjDaAtLsLzKq@nF{Ei@LwBmKmAtBe[dB{BxBKfRfA
9
Lake Moogerah and the Western Corridor Recycled Water Project
-27.66049
2000-2009
Exact
-27.66049
2
152.8142
320
13
0
Decommissioned
1
mines in South-east Queensland, including Oakleigh, Jeebropilly and Acland
152.8142
0
0
http://www.power-technology.com/projects/swanbank_gas_station/
0
/geoid/43138
43138
Ipswich, Swanbank, Queensland, Australia
920
http://en.wikipedia.org/wiki/Swanbank_Power_Station
The plant burns about 1 million tonnes of coal per year
CS Energy
Intermediate/Peak Load
le{gDshtc\zHhI~@`ImFlWeg@]kFtC{U{M`A}PqDmJrFyJfWmCfQkF|EX~@dIbI_EfAp@
1990
4 units
All four units refurbished
1990

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rows 10 / 33446

Boiler_Model_Type GEO_Assigned_Identification_Number Chimney_Height_m_nbr Capacity_MWe_nbr Date_Commissioned_dt Turbine_Manufacturer Boiler_Manufacturer Generator_Manufacturer Unit_Nbr Turbine_Model_Type Decommission_Date_dt Unit_Efficiency_Percent_nbr Generator_Model_Type Control_NOx_yr Control_SOx_yr Control_PM_yr Control_Hg_yr Control_N2O_yr Boiler_HRSG_Manufacturer Unit_Efficiency_Percent Chimney_Height_nbr Boiler_HRSG_Model_Type Diesel_Engine_Boiler_Manufacturer Diesel_Engine_Boiler_Model_Type Hydraulic_Head_m_nbr Speed_RPM_nbr Injection_Wells_nbr Production_Wells_nbr Pipe_Network_Length_km_nbr Reactor_Manufacturer Reactor_Type_Model IAEA_ID Construction_Start_Date_dt Generator_Type_Model Turbine_Type_Model Panel_Manufacturer Invertor_Manufacturer Panel_Type_Model Invertor_Type_Model Number_Of_Panels_nbr Storage_Backup_System Solar_to_Electric_Efficiency_Percent_nbr HCE_Manufacturer Number_Of_Turbines_nbr Rotor_Diameter_m_nbr Peak_MWe_per_Turbine_nbr Hub_Height_m_nbr Max_Production_at_wind_speed_m_sec_nbr Turbine_Model Capacity_Factor_Percent_nbr
300t/h
42220
270
75
1953-00-00
Siemens
Steinmuller
Siemens
1
300t/h
42220
270
75
1953-00-00
Siemens
Steinmuller
Siemens
2
300t/h
42220
270
75
1953-00-00
AEG
Steinmuller
Siemens
3
300t/h
42220
270
75
1953-00-00
AEG
Steinmuller
Siemens
4
1195t/h
42220
350
1976-00-00
Ansaldo
Franco Tosi
Ercoli Marelli
5
42220
200
25
Alstom
6
GT MS 5001 Black Start Turbine
43140
350
1967-00-00
GEC UK
International Combustion Ltd
GEC UK
1
ST-1
1996-00-00
43140
350
1968-00-00
GEC UK
International Combustion Ltd
GEC UK
2
ST-2
1996-00-00
43140
350
1969-00-00
GEC UK
International Combustion Ltd
GEC UK
3
ST-3
2012-07-03
43140
350
1969-00-00
GEC UK
International Combustion Ltd
GEC UK
4
ST-4
2012-07-03

Statistics

Average successful run time: 22 minutes

Total run time: about 2 months

Total cpu time used: about 13 hours

Total disk space used: 14.9 MB

History

  • Auto ran revision 7a61cfc9 and completed successfully .
    3 records added, 3 records removed in the database
  • Auto ran revision 7a61cfc9 and completed successfully .
    3 records added, 3 records removed in the database
  • Auto ran revision 7a61cfc9 and completed successfully .
    3 records added, 3 records removed in the database
  • Auto ran revision 7a61cfc9 and completed successfully .
    3 records added, 3 records removed in the database
  • Auto ran revision 7a61cfc9 and completed successfully .
    3 records added, 3 records removed in the database
  • ...
  • Forked from ScraperWiki

Show complete history