UYI-OJO GRACIOUSETINOSA

The previous system which had a 3.5KVA, 48V inverter, eight(8) 12V, 220AH wet cell batteries and eight(8) 150W, 24V solar panels was disconnected. A new inverter which is a hybrid inverter of rating 7.5KVA, 48V was purchased alongside with four(4) 12V, 220AH wet cell batteries. The panels which were placed on the roof 500m from the stationary unit was cleaned up with wet rags and mild detergent, and the eight(8) old batteries were cleaned up and revamped by addition of distilled water and the batteries were arranged in three(3) frameworks (four to each). A framework containing the four(4) new 12V batteries connected in series to give a steady voltage of 48V were connected to the 7.5KVAinverter of which also had the solar panels connected to it. These connections made up Unit A while the other two framework which had the four(4) old 12V batteries connected in series each (making up 8 batteries) were connected together in parallel to make up for the steady 48V and then connected to the 3.5KVA inverter which was connected to a 48V, 50A charge controller on which the solar panels were connected to. These connections made up Unit B. Unit A was made to supply the departmental offices and the lecturer offices which carries more load while Unit B was made to supply the 400level, 500level class and other few minor devices which had less load. The integration of both Units and the separation of loads led to a more efficient and reliable PV system for the department of Mechanical engineering as the alternate source of power can now be used for longer hours without powering down.