Modeling and Simulink of photovoltaic farms medium and low voltage networks in various operating conditions
Implementation plan:
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Scenario 1 :(Normal Mode)
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Step 1: Initially, we construct a Low voltage power grid Simulink model.
Step 2: Then, we simulate and collect the simulated data.
Step 3: Next, we detect power flow and calculate voltage, active, and reactive losses .
Step 4: Next, we Integrate control logic to compute load demand.
Step 5: Finally, we plot performance metrics for the following
5.1: Time vs. Current (A)
5.2: Time vs. Voltage (V)
5.3: Time vs. Power (KW)
5.4: Time vs. Reactive Power(Q)
5.5: Time vs. Apparent Power(S)
Scenario 2 :(Both PV Mode with Full power)
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Step 1: Initially, we construct a Low voltage PV grid Simulink model.
Step 2: Then, we simulate and collect the simulated data.
Step 3: Next, we detect power flow and calculate voltage, active, and reactive losses .
Step 4: Next, we Integrate control logic to compute load demand and irradiance.
Step 5: Finally, we plot performance metrics for the following
5.1: Time vs. Current (A)
5.2: Time vs. Voltage (V)
5.3: Time vs. Power (KW)
5.4: Time vs. Reactive Power(Q)
5.5: Time vs. Apparent Power(S)
Scenario 3 : (PV Mode – Asymmetric (50% + 100%))
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Step 1: Initially, we construct a Low voltage PV grid Simulink model.
Step 2: Then, we simulate and collect the simulated data.
Step 3: Next, we detect power flow and calculate voltage, active, and reactive losses .
Step 4: Next, we Integrate control logic to compute load demand and irradiance.
Step 5: Finally, we plot performance metrics for the following
5.1: Time vs. Current (A)
5.2: Time vs. Voltage (V)
5.3: Time vs. Power (KW)
5.4: Time vs. Reactive Power(Q)
5.5: Time vs. Apparent Power(S)
Scenario 4 : (PV Mode – Asymmetric (100% + 50%))
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Step 1: Initially, we construct a Low voltage PV grid Simulink model.
Step 2: Then, we simulate and collect the simulated data.
Step 3: Next, we detect power flow and calculate voltage, active, and reactive losses .
Step 4: Next, we Integrate control logic to compute load demand and irradiance.
Step 5: Finally, we plot performance metrics for the following
5.1: Time vs. Current (A)
5.2: Time vs. Voltage (V)
5.3: Time vs. Power (KW)
5.4: Time vs. Reactive Power(Q)
5.5: Time vs. Apparent Power(S)
Scenario 5 :(Feeder Failure Mode)
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Step 1: Initially, we construct a Low voltage PV grid with Feeder LK2 failure Simulink model.
Step 2: Then, we simulate and collect the simulated data.
Step 3: Next, we detect power flow and calculate voltage, active, and reactive losses .
Step 4: Next, we Integrate control logic to compute load demand and irradiance.
Step 5: Finally, we plot performance metrics for the following
5.1: Time vs. Current (A)
5.2: Time vs. Voltage (V)
5.3: Time vs. Power (KW)
5.4: Time vs. Reactive Power(Q)
5.5: Time vs. Apparent Power(S)
Software Requirements:
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1. Development Tool: Matlab-R2023a/Simulink or above
2. Operating System: Windows-10 (54-bit) or above
Note:
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1) If the plan does not meet your requirements, provide detailed steps, parameters, models, or expected results in advance. Once implemented, changes won’t be possible without prior input; otherwise, we’ll proceed as per our implementation plan.
2) If the plan satisfies your requirement, Please confirm with us.
3) Project based on Simulation only, not a real time project.
4) Please understand that any modifications made to the confirmed implementation plan will not be made after the project development.
