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Bibliographic Details
Main Authors:	Garcia, Karen, Jordan, Christian, Melling, Gregor, Schendel, Alexander, Welzel, Mario, Schlurmann, Torsten
Format:	Dataset Open Access
Language:	en
Published:	PANGAEA 2025
Subjects:	BA_A1; BA_A2; BA_A3; BA_A4; BA_A5; BA_A6; BA_A7; BA_B1; BA_B2; BA_B3; BA_B4; BA_B5; BA_B6; BA_B7; BA_B8; BA_C1; BA_C2; BA_C3; BA_C4; BA_C5; BA_C6; BA_C7; BA_D1; BA_D2; BA_D3; BA_D4; BA_D5; BA_D6; BA_D7; BA_D8; Calculated according to Garcia et al. (2025); CoastalFutures; Current velocity; DAM sustainMare - CoastalFutures: Future scenarios to promote the sustainable use of marine areas; Data source; DATE/TIME; Date/time end; Date/time start; Date of determination; DEPTH, water; Event label; Flow intensity; Froude number; GG_GAA01; GG_GAA02; GG_GAA03; GG_GAB01; GG_GAB02; GG_GAB03; GG_GAC01; GG_GAC02; GG_GAC04; GG_GAC05; GG_GAC06; GG_GAC07; GG_GAC08; GG_GAD01; GG_GAD02; GG_GAD03; GG_GAD04; GG_GAD05; GG_GAD06; GG_GAD07; GG_GAD08; GG_GAD09; GG_GAD10; GG_GAE01; GG_GAE02; GG_GAE03; GG_GAE04; GG_GAE05; GG_GAE06; GG_GAE07; GG_GAE08; GG_GAF01; GG_GAF02; GG_GAF03; GG_GAF04; GG_GAF05; GG_GAG01; GG_GAG02; GG_IGA01; GG_IGB01; GG_IGB02; GG_IGB03; GG_IGB04; GG_IGB05; GG_IGB06; GG_IGB07; GG_IGC01; GG_IGC02; GG_IGC03; GG_IGC04; GG_IGC05; GG_IGC06; GG_IGC07; GG_IGC08; GG_IGC09; GG_IGC10; GG_IGD01; GG_IGD02; GG_IGD03; GG_IGD04; GG_IGD05; GG_IGD06; GG_IGD07; GG_IGD08; GG_IGD09; GG_IGD10; GG_IGD11; GG_IGD12; GG_IGD13; GG_IGE01; GG_IGE02; GG_IGE03; GG_IGE04; GG_IGE05; GG_IGE06; GG_IGE07; GG_IGE08; GG_IGE09; GG_IGE10; GG_IGE11; GG_IGE12; GG_IGE13; GG_IGE14; GG_IGF01; GG_IGF02; GG_IGF03; GG_IGF04; GG_IGF05; GG_IGF06; GG_IGF07; GG_IGF08; GG_IGF09; GG_IGF10; GG_IGG01; GG_IGG02; GG_IGG03; GG_IGG04; GG_IGG05; GG_IGG06; GG_IGG07; GG_IGG08; GG_IGG09; GG_IGG10; GG_IGG11; GG_IGH01; GG_IGH02; GG_IGH03; GG_IGH04; GG_IGH05; GG_IGH06; GG_IGH07; GG_IGH08; GG_IGH09; GG_IGH10; GG_IGH11; GG_IGH12; GG_IGI01; GG_IGI02; GG_IGI03; GG_IGI04; GG_IGI05; GG_IGI06; GG_IGI07; GG_IGI08; GG_IGI09; GG_IGI10; GG_IGJ01; GG_IGJ02; GG_IGJ03; GG_IGJ04; GG_IGJ05; GG_IGJ06; GG_IGJ07; GG_IGJ08; GG_IGK01; GG_IGK02; GG_IGK03; GG_IGL01; GG_IGL02; GG_IGM01; GG_SUBSTATION_GA; GG_SUBSTATION_IG; GS_A01; GS_A02; GS_A03; GS_A04; GS_A05; GS_A06; GS_B01; GS_B02; GS_B03; GS_B04; GS_B05; GS_B06; GS_C01; GS_C02; GS_C03; GS_C04; GS_C05; GS_C06; GS_D01; GS_D02; GS_D03; GS_D04; GS_D05; GS_D06; GS_E01; GS_E02; GS_E03; GS_E04; GS_E05; GS_E06; GS_F01; GS_F02; GS_F03; GS_F04; GS_F05; GS_F06; GS_F07; GS_F08; GS_F09; GS_G01; GS_G02; GS_G03; GS_G04; GS_G05; GS_G06; GS_G07; GS_G08; GS_G09; GS_SUBSTATION01; GS_SUBSTATION02; HG_A05; HG_A06; HG_A07; HG_A09; HG_A10; HG_A11; HG_A12; HG_B04; HG_B05; HG_B06; HG_B07; HG_B08; HG_B09; HG_B10; HG_B11; HG_B12; HG_C03; HG_C04; HG_C05; HG_C06; HG_C07; HG_C08; HG_C09; HG_C10; HG_C11; HG_C12; HG_D03; HG_D04; HG_D05; HG_D06; HG_D07; HG_D08; HG_D09; HG_D10; HG_D11; HG_E03; HG_E04; HG_E05; HG_E06; HG_E07; HG_E08; HG_E09; HG_E10; HG_F02; HG_F03; HG_F04; HG_F05; HG_F06; HG_F07; HG_F08; HG_F09; HG_G03; HG_G04; HG_G05; HG_G06; HG_G07; HG_G08; HG_H01; HG_H02; HG_H03; HG_H04; HG_H05; HG_H06; HG_H07; HG_I01; HG_I02; HG_I03; HG_I04; HG_I05; HG_I06; HG_J01; HG_J02; HG_J03; HG_SUBSTATION; hydrodynamic conditions; Keulegan–Carpenter number; LA_A10; LA_A11; LA_A12; LA_A13; LA_A14; LA_A15; LA_B08; LA_B09; LA_B10; LA_B11; LA_B12; LA_B13; LA_B15; LA_B16; LA_B17; LA_C06; LA_C07; LA_C08; LA_C09; LA_C10; LA_C11; LA_C12; LA_C13; LA_C14; LA_C15; LA_C17; LA_C18; LA_C19; LA_D04; LA_D05; LA_D06; LA_D07; LA_D08; LA_D09; LA_D10; LA_D11; LA_D12; LA_D13; LA_D14; LA_D15; LA_D16; LA_D17; LA_D19; LA_D20; LA_E02; LA_E03; LA_E04; LA_E05; LA_E06; LA_E07; LA_E08; LA_E09; LA_E10; LA_E11; LA_E12; LA_E13; LA_E14; LA_E15; LA_E16; LA_E17; LA_E18; LA_E19; LA_F01; LA_F02; LA_F03; LA_F04; LA_F05; LA_F06; LA_F07; LA_F08; LA_F09; LA_F10; LA_F11; LA_F12; LA_F13; LA_F14; LA_F15; LA_F16; LA_F17; LA_F18; LA_F19; LA_F20; LA_G03; LA_G04; LA_G05; LA_G06; LA_G07; LA_G08; LA_G09; LA_G10; LA_G11; LA_G12; LA_G13; LA_G14; LA_G15; LA_G16; LA_G17; LA_G18; LA_G19; LA_G20; LA_H04; LA_H05; LA_H06; LA_H07; LA_H08; LA_H09; LA_H10; LA_H11; LA_H12; LA_H13; LA_H14; LA_H15; LA_H16; LA_H17; LA_H18; LA_H19; LA_H20; LA_I05; LA_I06; LA_I07; LA_I08; LA_I09; LA_I10; LA_I11; LA_I12; LA_I13; LA_I14; LA_I15; LA_I16; LA_I17; LA_I18; LA_I19; LA_I20; LA_J06; LA_J07; LA_J08; LA_J09; LA_J10; LA_J11; LA_J12; LA_J13; LA_J14; LA_J15; LA_J16; LA_J17; LA_J18; LA_J19; LA_J20; LA_K11; LA_K12; LA_K13; LA_K14; LA_K15; LA_K16; LA_K17; LA_K18; LA_K19; LA_K20; LA_L11; LA_L12; LA_L13; LA_L14; LA_L15; LA_L16; LA_L17; LA_L18; LA_L19; LA_L20; LA_M14; LA_M15; LA_M16; LA_M17; LA_M18; LA_M19; LA_M20; LA_SUBSTATION_1; LA_SUBSTATION_2; LATITUDE; LID_ID1; LID_ID10; LID_ID11; LID_ID12; LID_ID13; LID_ID14; LID_ID15; LID_ID16; LID_ID17; LID_ID18; LID_ID19; LID_ID2; LID_ID20; LID_ID21; LID_ID22; LID_ID23; LID_ID24; LID_ID25; LID_ID26; LID_ID27; LID_ID28; LID_ID29; LID_ID3; LID_ID30; LID_ID4; LID_ID5; LID_ID6; LID_ID7; LID_ID8; LID_ID9; LID_L1; LID_L10; LID_L11; LID_L12; LID_L13; LID_L14; LID_L15; LID_L16; LID_L17; LID_L18; LID_L19; LID_L2; LID_L20; LID_L21; LID_L22; LID_L23; LID_L24; LID_L25; LID_L26; LID_L27; LID_L28; LID_L29; LID_L3; LID_L30; LID_L4; LID_L5; LID_L6; LID_L7; LID_L8; LID_L9; LONGITUDE; LS_LS01; LS_LS02; LS_LS03; LS_LS04; LS_LS05; LS_LS06; LS_LS07; LS_LS08; LS_LS09; LS_LS10; LS_LS11; LS_LS12; LS_LS13; LS_LS14; LS_LS15; LS_LS16; LS_LS17; LS_LS18; LS_LS19; LS_LS20; LS_LS21; LS_LS22; LS_LS23; LS_LS24; LS_LS25; LS_LS26; LS_LS27; LS_LS28; LS_LS29; LS_LS30; LS_LS31; LS_LS32; LS_LS33; LS_LS34; LS_LS35; LS_LS36; LS_LS37; LS_LS38; LS_LS39; LS_LS40; LS_LS41; LS_LS42; LS_LS43; LS_LS44; LS_LS45; LS_LS46; LS_LS47; LS_LS48; LS_LS49; LS_LS50; LS_LS51; LS_LS52; LS_LS53; LS_LS54; LS_LS55; LS_LS56; LS_LS57; LS_LS58; LS_LS59; LS_LS60; LS_LS61; LS_LS62; LS_LS63; LS_LS64; LS_LS65; LS_LS66; LS_LS67; LS_LS68; LS_LS69; LS_LS70; LS_LS71; LS_LS72; LS_LS73; LS_LS74; LS_LS75; LS_SUBSTATION_OSP2; Median, grain size; Median grain size/monopile diameter ratio; Mobility parameter; Monopile diameter; MULT; Multiple investigations; Number; Offshore wind energy structures (OWES); Offshore wind farm ID; Research Mission of the German Marine Research Alliance (DAM): Protection and sustainable use of marine areas; Reynolds number, pile; RR_A1; RR_A2; RR_B1; RR_B2; RR_B3; RR_B4; RR_B5; RR_C1; RR_C2; RR_C3; RR_C4; RR_C5; RR_C6; RR_D1; RR_D2; RR_D3; RR_D4; RR_D5; RR_D6; RR_D7; RR_E1; RR_E2; RR_E3; RR_E4; RR_E5; RR_E6; RR_E7; RR_E8; RR_F1; RR_F2; RR_F3; RR_F4; RR_F5; RR_F6; RR_F7; RR_F8; RR_G1; RR_G2; RR_G3; RR_G4; RR_G5; RR_G6; RR_G7; RR_G8; RR_H1; RR_H2; RR_H3; RR_H4; RR_H5; RR_H6; RR_H7; RR_J1; RR_J2; RR_J3; RR_J4; RR_J5; RR_J6; RR_K1; RR_K2; RR_K3; scour depth; Scour depth, maximum; Scour depth/monopile diameter ratio; sediment grain size; Shields parameter; Shields parameter, critical; sustainMare; TEE_01A; TEE_02A; TEE_03A; TEE_04A; TEE_05A; TEE_06A; TEE_07A; TEE_08A; TEE_09A; TEE_10B; TEE_11B; TEE_12B; TEE_13B; TEE_14B; TEE_15B; TEE_16B; TEE_17B; TEE_18B; TEE_19C; TEE_20C; TEE_21C; TEE_22C; TEE_23C; TEE_24C; TEE_25C; TEE_26C; TEE_27C; Turbine ID; Turbine number; Water depth/monopile diameter ratio; Wave height, significant
Online Access:	https://doi.org/10.1594/PANGAEA.984839
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