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PHOTOVOTAIC SYSTEMS APPLICATION IN ISOLATED AND PARALLEL GRIDS - AEL-PHIP

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The Photovoltaic Systems Application in Isolated and Parallel Grids, ''AEL-PHIP'', has been designed to study the operations carried out in photovoltaic power systems which operate isolated from the national energy grid (island operation) or connected to it (parallel operation).

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The Photovoltaic Systems Application in Isolated and Parallel Grids, ''AEL-PHIP'', has been designed to study the operations carried out in photovoltaic power systems which operate isolated from the national energy grid (island operation) or connected to it (parallel operation).

This application allows studying the electricity generation by means of photovoltaic panels, through the simulation of different configurations and irradiance conditions, as well as its working in island and parallel to grid operation. To that end, the application also allows proving and understanding the working principles of the different control, regulation and energy storage devices used in real photovoltaic systems.

For these purposes, the ''AEL-PHIP'' application consists of different kits that allow studying several aspects of photovoltaic power plants:

  • PHIP-K1. Analysis of Series and Parallel Photovoltaic Modules Kit.
  • PHIP-K2. Off-Grid Single-Phase Photovoltaic Systems Kit.
  • PHIP-K3. Single-Phase Photovoltaic Systems for Parallel to Grid Operation Kit.

Each kit's didactic purpose is detailed below:

  • PHIP-K1. Analysis of Series and Parallel Photovoltaic Modules Kit: This kit consists of a photovoltaic module assembled on a wheeled structure that allows varying the solar module tilt angle. Thus, different roof tilts or typical structures can be simulated, above which these photovoltaic modules are installed. A halogen lamp mounted on an articulated arm is coupled to the mentioned structure for the sun's path simulation. The lamp has a current regulator which allows controlling the incident irradiance on the photovoltaic panel. In order to simulate the solar panel load, the kit includes a variable resistive load. This kit also includes a solar simulation module consisting of three photovoltaic panel simulators, which allow working without the halogen lamp lighting.

Each panel simulator has a regulator for the adjustment of solar irradiance and an analog voltmeter and ammeter for measuring the generation electrical parameters. With this kit, the user will be able to achieve the following learning: daily and yearly curves display, calculation of the photovoltaic modules optimal position, characteristic curves display and photovoltaic modules analysis in parallel, series and other configurations.

  • PHIP-K2. Off-Grid Single-Phase Photovoltaic Systems Kit: This kit consists of all the industrial elements needed to study and understand the operation of a real photovoltaic system which operates in island mode. Firstly, it includes an electronic regulator whose purpose is to control the battery charge flow and the inverter input power flow. In addition, this kit includes a sinusoidal wave inverter which transforms the DC current coming from the regulator into single-phase AC current. Both at the regulator and inverter outputs, AC and DC loads are connected respectively, whose purpose is to consume the generated energy.

These loads are AC and DC lamps with different power consumption. This kit also includes a network analyzer for monitoring the system electrical parameters and an analog voltmeter and ammeter with the goal of connecting them to the battery terminals for measuring its operating current and voltage.

With this kit the user will be able to achieve the following learning: installation of photovoltaic systems, measurement of the plant electrical parameters and design and operation of photovoltaic systems isolated from the grid in direct or storage operation.

  • PHIP-K3. Single-Phase Photovoltaic Systems for Grid-Parallel Operation Kit: This kit consists of the industrial elements needed to study and understand the operation of the photovoltaic systems which operate in parallel to the grid mode. To that end, it includes an industrial inverter which provides the grid with the generated power. The grid is represented by the power supply included in the base unit. The grid inverter monitors voltage, current and grid impedance for an emergency disconnection in case of deviations or faults that may be dangerous.

This kit also includes a network analyzer for monitoring the electrical parameters of the power flux supplied to the grid.

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Practical possibilities with the PHIP-K1 kit:

  1. Daily and yearly curves display.
  2. Calculation of the photovoltaic modules optimal position.
  3. Display of the photovoltaic modules characteristic curves.
  4. Working of bypass diodes.
  5. Series and parallel configuration of the photovoltaic modules.
  6. Analysis of the simulated generation with different configurations of the photovoltaic modules and different solar irradiation conditions.

Practical possibilities with the PHIP-K2 kit:

  1. Installation of photovoltaic plants.
  2. Measuring the electrical parameters of the photovoltaic generation system.
  3. Designing and testing a photovoltaic system isolated from the grid in direct operation.
  4. Designing and testing a photovoltaic system isolated from the grid in storage operation.
  5. Designing and testing a photovoltaic system isolated from the grid with AC voltage supply and energy storage.

Practical possibilities with the PHIP-K3 kit:

  1. Installation of photovoltaic plants.
  2. Measuring the electrical parameters of the photovoltaic generation system.
  3. Designing and testing grid-connected (or parallel) photovoltaic systems.
  4. Determining the industrial inverter efficiency.
  5. Analysis of the photovoltaic system response to a grid black-out.

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  1. Several other exercises can be done and designed by the user.

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