Greentech Lead Europe: ABB, a provider of power and automation technology solutions, has been awarded an order worth $25 million to supply electrical and control systems for a new 75 megawatt (MW) photovoltaic (PV) power plant in the Northern Cape province of South Africa.
Owned by WBHO, a leading South African construction company, and Building Energy, an Italian renewable energy developer and operator, the plant is located in the Kalahari Desert close to the town of Kathu and to Sishen, one of the largest open-pit iron ore mines in the world.
The Kathu PV power plant is among the first tranche of projects to be awarded as part of South Africa’s renewable energy program, which aims to diversify the country’s energy mix and reduce its carbon footprint. Once completed in 2014, it is expected to be one of the world’s largest PV power plants with a single-axis tracking system.
The power plant will have the capacity to generate around 146 gigawatt hours (GWh) of clean solar power to feed into the national grid – enough to meet the needs of over 40,000 people based on average national per capita consumption and displacing the equivalent of about 50,000 tons of carbon dioxide emissions annually.
ABB’s electrical and automation solution will optimize the performance of the Kathu plant to maximize output while ensuring reliability in remote and demanding operating conditions.
ABB will supply products such as medium- and low-voltage switchgear, distribution transformers, and control and protection devices. It also incorporates distributed automation and control products from the Symphony Plus family. ABB will be responsible for the design, engineering, supply, installation and commissioning of the project.
ABB will help integrate the plant’s electrical equipment and high-voltage substation with the company’s proprietary Symphony Plus Distributed Control System (DCS) solution in conformance with the IEC 61850 open-communication standard for substation automation.
ABB will also supply an advanced tracking system with a back-tracking algorithm that optimizes tracker movement and eliminates shadow on the panels. The solution also features a data-collection system that collects operational input from the trackers, inverters, string boxes and substation to enable remote operation and maintenance, thereby alleviating the need for onsite manning.
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