Data Set and Simulation Files used in the Manuscript Offshore Wind Farms and Isolated Oil and Gas Platforms: Perspectives and Possibilities
Computer simulation model used in the preparation of the manuscript "Offshore Wind Farms and Isolated Oil and Gas Platforms: Perspectives and Possibilities" submitted to the ASME 41st International Conference on Ocean, Offshore & Arctic Engineering (OMAE 2022). PowerFactory files DIgSI...
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| Format: | Software |
| Language: | unknown |
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Zenodo
2022
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| Online Access: | https://dx.doi.org/10.5281/zenodo.6095757 https://zenodo.org/record/6095757 |
| Summary: | Computer simulation model used in the preparation of the manuscript "Offshore Wind Farms and Isolated Oil and Gas Platforms: Perspectives and Possibilities" submitted to the ASME 41st International Conference on Ocean, Offshore & Arctic Engineering (OMAE 2022). PowerFactory files DIgSILENT PowerFactory 2020 SP2a (x64) Build 20.0.4.1 (10037) / Rev. 73397 Model: 20201211_OMAE_BaseModel.pfd Cases Case 1: ESS is connected but does not contribute. Case 2: ESS is connected and contribute with primary reserves (a slow and small secondary resposnse is tuned in the controller). Case 3: ESS is connected and contribute wiht primary and inertial reserves (a slow and small secondary response is tuned in the controller). Case 4: same as case 3, but the DC voltage controller current feed-forward is not active. This case did not receive a special name in the paper, it was still called case 3. Raw data files aaaammdd_Case_0*_ESS.csv: ESS related measurements aaaammdd_Case_0*_PCC.csv: Measurements at the PCC, but also at the wind turbines aaaammdd_Case_0*_Freq.csv: Frequencies and speeds on the system Structure of *_ESS.csv time in seconds Vmesa_ESS_690V: voltage in pu of 690V ESS_GC: total power leaving the ac terminals of GC in MW PQ_Meas_BCs_CurrentSource: power arriving at the capacitor from ESDs in MW ESS_GC: DC voltage in pu of 1200V ESS_GC: DC current at terminals in pu of 8.333kA BC_DCLinkSide: DC current at the DC link side from the BC in pu of 3.5kA FC_DCLinkSide: DC current at the DC link side from the FCC in pu of 5kA Structure of *_PCC.csv time in seconds GG_01: speed in pu GG_02: speed in pu PQ_Meas_GG01_11kV: active power in MW PQ_Meas_GG02_11kV: active power in MW PQ_Meas_RL01_11kV: active power in MW PQ_Meas_RL02_11kV: active power in MW PQ_Meas_WF_11kV: active power in pu in MW PQ_Meas_ESS_TR_11kV: active power in MW PQ_Meas_LV_Load_11kV: active power in MW PQ_Meas_WT1_33kV: active power in MW PQ_Meas_WT2_33kV: active power in MW PQ_Meas_WT3_33kV: active power in MW GG_01: voltage in pu of 11kV Structure of *_Freq.csv time in seconds ESS 690V PLL Type 1 Model 3: frequency in pu PLL_WT1_690V_G: frequency in pu PLL_WT2_690V_G: frequency in pu PLL_WT3_690V_G: frequency in pu GG_01: mechanical speed in pu GG_02: mechanical speed in pu Matlab files MATLAB R2018a Udpate 6 (9.4.0.949201) 64-bit (win64) Simulink model: SimpleMass.slx Script: SimpleRotatinMass_script.m Simple model of the swing equation of a machine without damping windings. It was used for obtaining the data for the figures: Figure: phases of the frequency control, just the frequency Case in script: 3 Basic info: H=5s (lower inertia), longer time for the secondary to start Raw data file: SimpleMass_One_SlowerSec_Raw.txt Figure: roles of inertia and governor in the phases of the frequency control Case in script: 1 Basic info: H=10s (high inertia), shorter time for the secondary to start Raw data file: SimpleMass_Two_Raw.txt Case in script: 2 Basic info: H=5s (low inertia), shorter time for the secondary to start Raw data file: SimpleMass_One_Raw.txt Be careful with the raw data files and the cases in the script. Case 1 was for high inertia, but the raw file was called "two" because it was as if there were two generator units in the system. The opposite happend with case 2, which was linked to the raw file "one". |
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