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Duran, D., Martinez, I., Weber, B., Rincon, E. Juarez, J., 2014. Design of a mobile photovoltaic module system for demonstration and experimentation. Energy Procedia 57, 32 – 38. | |||
The paper considers a variant of a training portable system, comprising 2 or 4 135 W polycrystalline PV panels with the dimensions of 1481 mm × 671 mm each. The system also includes 2, 4 and 12 V lead batteries, charge controller, inverter and control panel. | |||
The system structure includes a mobile table and telescopic arms (the principal figure is provided). | |||
The PV panels are settled on a pivot enabling to change the PV panels tilt. The height of the PV panels is adjusted by the use of the telescopic arms. | |||
The device price is of about US$ 10,000. |
Revision as of 19:17, 17 June 2015
Duran, D., Martinez, I., Weber, B., Rincon, E. Juarez, J., 2014. Design of a mobile photovoltaic module system for demonstration and experimentation. Energy Procedia 57, 32 – 38. The paper considers a variant of a training portable system, comprising 2 or 4 135 W polycrystalline PV panels with the dimensions of 1481 mm × 671 mm each. The system also includes 2, 4 and 12 V lead batteries, charge controller, inverter and control panel. The system structure includes a mobile table and telescopic arms (the principal figure is provided). The PV panels are settled on a pivot enabling to change the PV panels tilt. The height of the PV panels is adjusted by the use of the telescopic arms. The device price is of about US$ 10,000.