Please use this identifier to cite or link to this item: http://repo.lib.jfn.ac.lk/ujrr/handle/123456789/5598
Title: Fault ride-through of grid connected photovoltaic solar system
Authors: Rajan, Ratnakumar
Panchalogaranjan, Vinushika
Shanmugarajah, Vinothine
Ravindran, Nagaratnam
Atputharajah, Arulampalam
Issue Date: 2009
Publisher: University of Jaffna
Abstract: Contribution from the photovoltaic solar power plants has significantly increased in supplying the power demand to the power systems. The occurrence of a short time fault in the power system trips the solar power plant from the grid and it takes a long time to reconnect. This outage time causes a big loss to the solar power generating industries while disturbing the power system. This paper presents a Fault Ride Through (FRT) operational technique, based on the switching control of the Insulated Gate Bipolar Transistors (IGBTs) of the Voltage Source Inverter (VSI). This will minimize the outage time. The solar system is designed in such a way that it will detect the fault, by measuring the grid voltage. If grid voltage is getting significantly low (for example <50%) due to a fault, the DC link voltage is set to the open circuit voltage of the solar module. This is achieved by controlling the pulse to the IGBTs. This make sure the power supplied by the solar cells, during the fault time, is kept to zero. In other word, the power blocking operational mode is achieved by the VSI control. After the fault is cleared, the VSI control technique is set in such a way that the solar system gets back to the Maximum Power Point Tracking (MPPT) operational mode. The voltage control of the system was designed using Sine-triangle Pulse Width Modulation (SPWM). A comprehensive system includes (i) solar cells, (ii) VSI, (iii) power system grid and (iv) proposed control technique, is modeled using PSCAD software. Performance of the system is studied by applying a short time ground fault for 150ms period. The voltage and current wave forms of the system were analyzed. In normal manual control operations, it takes more than 10 minutes to recover. With the proposed automated control technique, it is proven in simulations that it reduces the outage period to be less than 0.3 seconds.
URI: http://repo.lib.jfn.ac.lk/ujrr/handle/123456789/5598
Appears in Collections:Electrical & Electronic Engineering

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