coroa / global_energy_observatory_power_plants

Global Energy Observatory Power Plants

Scrapes globalenergyobservatory.org

Global Energy Observatory: Information on Global Energy Systems and Infrastructure

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Data

Downloaded 672 times by cbdavis coroa WooCoding fresm MikeRalphson FabianHofmann MatthiasKl anishsugathan conradmurphy moermann gplssm

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rows 10 / 10076

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
Ramat Gabriel Cogen Power Plant Israel
Gas
Israel
Haifa
Power and Heat Combined Cycle Gas Turbine
Gas
70
2018-04-04
46082
1588
National Grid
63
RD Energy
32.687279
2000-2009
Approximate
32.687279
0
35.251222
320
104
0
Under Construction
2
35.251222
0
0
http://www.siemens.com/press/en/pressrelease/?press=/en/pressrelease/2016/power-gas/pr2016060299pgen.htm&content[]=PG
0
/geoid/46082
46525
Ramat Gabrial Industrial Park, Migdal Haemek, Haifa, Israel
920
http://www.aalborg-engineering.com/projects/steamgen-8-projects/179-template-sg8.html
Ramat Gabriel will power Nilit factory, which manufactures nylon fibers and thermoplastics.
RD Energy
Base Load
will power a fibre factory
one SGT-800 industrial gas turbine, one SST-300 industrial steam turbine as well as the SPPA-T3000 control system
One 1+1+1 CCGT unit
Siemens
High Efficiency and Low Enivronmental Imapct
Alon Tavor Cogen Power Plant Israel
Gas
Israel
Haifa
Power and Heat Combined Cycle Gas Turbine
gas
70
2018-04-04
46081
1588
National Grid
63
RD Energy
32.63272
2000-2009
Approximate
32.63272
0
35.3642
320
104
0
Under Construction
2
35.3642
0
0
http://www.siemens.com/press/en/pressrelease/?press=/en/pressrelease/2016/power-gas/pr2016060299pgen.htm&content[]=PG
0
/geoid/46081
46526
Alon Tavon, Haifa, Israel
920
http://www.aalborg-engineering.com/projects/steamgen-8-projects/179-template-sg8.html
Alon Tavor will supply a creamery with electricity and process steam
RD Energy
Cogeneration
Supplies a creamery with electricity and process steam
IPP
one SGT-800 industrial gas turbine, one SST-300 industrial steam turbine as well as the SPPA-T3000 control system
100
RD Energy
One 1+1+1 CCGT block
Siemens
Milk Dairy
Industry
High Efficiency and Low Enivronmental Imapct
Shin Sendai CCGT Power Plant Japan
Gas
Japan
Miyagi
Combined Cycle Gas Turbine
LNG
980
2018-04-04
46443
1740
Regional Grid
70
Tohoku Electric Power Company
38.27612
2000-2009
Exact
38.27612
0
141.04069
320
107
0
Operating Fully
2
141.04069
0
0
http://www.tohoku-epco.co.jp/ir/report/annual_report/pdf/ar2016.pdf
0
/geoid/46443
46443
Miyagi Prefecture Sendai Miyagino-ku, Minato 5-2-1, Japan
920
https://www.tohoku-epco.co.jp/ir/report/annual_report/pdf/ar2015.pdf
Listed as N0 3 Series and capacity increased to 1046 as of July 2017
Tohoku Electric Power Company
Base/Intermediate Load
https://ja.wikipedia.org/wiki/%E6%96%B0%E4%BB%99%E5%8F%B0%E7%81%AB%E5%8A%9B%E7%99%BA%E9%9B%BB%E6%89%80
100
http://www.tohoku-epco.co.jp/english_f/about/powerstation/
Tohoku Electric Power Company
two 1+1+1 CCGT units
Shin Sendai LNG Terminal
Senboku Natural Gas CCGT Power Plant Japan
Gas
Japan
Osaka
Combined Cycle Gas Turbine
Natural Gas
1109
2018-04-04
46522
1749
Regional Grid
70
Osaka Gas
34.54218
2000-2009
Exact
34.54218
0
135.40324
320
107
0
Operating Fully
2
135.40324
0
0
http://www.osakagas.co.jp/csr_e/charter01/multi_energy.html
0
/geoid/46522
46522
Sakai, Osaka Prefecture, Japan
920
http://www.osakagas.co.jp/csr_e/charter02/industrial.html#senboku
2 units are at the Senboku 1 LNG terminal and two at Senboku 2 terminal (placemark)
Osaka Gas
100
4 1+1+1 CCGT units
Imported
Toyomi Hydroelectric Power Plant Japan
Hydro
Japan
Niigata
Dam on river with reservoir
61.8
2018-04-04
46524
1745
Regional Grid
70
Tohoku Power
37.69777
2000-2009
Exact
37.69777
0
139.56608
320
107
Operating Fully
4
139.56608
0
http://www.tohoku-epco.co.jp/english_f/about/powerstation/
/geoid/46524
46524
Aga, Niigata, Japan
920
https://voith.com/jpn-en/kawasaki-shi-kanagawa-418.htm
Voith Fuji Hydro replace original 6 vertical bulb units commissioned in Dec 1929 (56.4 MW) by the current 2 in 2013 (61.8 MW)
Tohoku Power
http://damnet.or.jp/cgi-bin/binranA/enAll.cgi?db4=0725
100
2013
Voith Fuji Hydro replaced original 6 vertical bulb units from Dec 1929 by the current 2
2 surface powerhouses
Agano River
223.2
34.2
Power Generation
Toyomi Dam
Concrete Gravity Dam
1929-12-00
1.28
6048
Germencik-II (EFE-1) Geothermal Power Plant Turkey
Geothermal
Turkey
Aydin
Double Flash
47.4
2018-04-04
46460
3474
National Grid
141
Guris Holding
37.866015108902
2000-2009
Exact
37.866015108902
0
27.648731695813
320
218
Operating Fully
3
27.648731695813
0
http://www.thinkgeoenergy.com/first-unit-of-the-efeler-geothermal-power-project-commissioned-in-turkey/
/geoid/46460
46527
Germencik, Aydin, Turkey
920
Gurmat
Base Load
IPP
Guris
High Efficiency and Low Enivronmental Imapct
Germencik-I (Galip Hoca) Geothermal Power Plant Turkey
Geothermal
Turkey
Aydin
Double Flash
47.4
2018-04-04
46459
3474
National Grid
141
37.8846
2000-2009
Exact
37.8846
0
27.6321
320
218
Operating Fully
3
27.6321
0
http://www.guris.com.tr/EN,1678/geothermal-power-plants.html
/geoid/46459
46528
Germencik, Aydin, Turkey
920
http://www.gurmat.com.tr/?_dil=2
Gurmat
Base Load
IPP
Guris
High Efficiency and Low Enivronmental Imapct
AES Central Thermal San Nicolas Power Plant Argentina
Coal
Argentina
Buenos Aires
Sub-critical Thermal
Coal
Fuel Oil
650
2018-04-10
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
2018-04-10
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
2018-04-10
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

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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
46082
70
2018-06-00
Siemens
1
SGT-800 + SST300
Aalborg Engineering
SteamGen 8
46081
70
2018-06-00
Siemens
Siemens
1
SGT-800 + SST300
Aalborg Engineering
SteamGen 8
46443
490
2015-12-00
1
CCGT-1
60
46443
490
2016-07-00
2
CCGT-2
60
46522
277
2009-00-00
1
7001FA+E
Babcock-Hitachi
46522
277
2009-00-00
2
7001FA+E
Babcock-Hitachi
46522
277.5
2009-00-00
3
7001FA+E
Nooter
46522
277.5
2009-00-00
4
7001FA+E
Nooter
46524
31.4
2013-00-00
Voith Fuji Hydro
Voith Fuji Hydro
1
Verical bulb turbine
46524
31.4
2013-00-00
Voith Fuji Hydro
Voith Fuji Hydro
2
Verical bulb turbine

Statistics

Average successful run time: 30 minutes

Total run time: about 1 month

Total cpu time used: about 5 hours

Total disk space used: 14.9 MB

History

  • Auto ran revision 56e2bb96 and completed successfully .
    3 records added, 3 records removed in the database
    14 pages scraped
  • Auto ran revision 56e2bb96 and completed successfully .
    12 records added, 12 records removed in the database
    16 pages scraped
  • Auto ran revision 56e2bb96 and completed successfully .
    3 records added, 3 records removed in the database
    14 pages scraped
  • Auto ran revision 56e2bb96 and completed successfully .
    3 records added, 3 records removed in the database
    14 pages scraped
  • Auto ran revision 56e2bb96 and completed successfully .
    28 records added, 28 records removed in the database
    19 pages scraped
  • ...
  • Forked from ScraperWiki

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