![]() ![]() “Domestic consumption of aluminum is forecast to reach 10 million tons over the next 10 years* and key players such as BALCO are preparing to be able to cater to this demand,” said N Venu, CEO and Managing Director, Hitachi ABB Power Grids in India. The GIS technology can be safely operated in confined spaces for optimal substation layout and superior switchgear performance. The GIS substation provides space savings of as much as 60 percent compared to conventional switchgear by virtue of its compact, robust and low-maintenance design. It is also deploying its industry-leading 500- megavolt ampere power transformers to further enhance grid efficiency and safety. Hitachi ABB Power Grids is equipping the substations with its advanced MicroSCADA automation solution to monitor and control the aluminum producer’s grid in real time and ensure maximum power availability. The technology pioneer is delivering fully engineered 400-kilovolt gas-insulated switchgear (GIS) substations that will replace an existing apparatus to better assimilate power from BALCO’s captive generation plants, delivering it with efficiency to the Korba aluminum smelter. Hitachi ABB Power Grids is a global technology leader with a combined heritage of almost 250 years, employing around 36,000 people in 90 countries.Hitachi ABB Power Grids in India has been awarded a project worth over INR 124 crore by one of India’s top aluminum producers, Bharat Aluminum Company (BALCO), to ensure improved reliability of the power distribution system at its Korba plant in Chhattisgarh. This brings business value to operators while enabling a low-carbon society. The technology can save as much as 1,000 tons of carbon dioxide on a line covering 600,000 kilometers per year and offer operating cost savings of 30 percent versus an equivalent diesel-transit system. This helps minimize the size of the fleet while increasing passenger carrying capacity. On arterial roads, an e-bus with this solution can reduce the need to take the vehicle out of service for recharging every few hours or having a replacement bus ready. Hitachi ABB Power Grids’ innovative flash-charging system quickly tops up the battery while passengers get on and off the bus. An e-bus with flash-charging technology can solve that problem while improving the quality of life through reducing pollution in densely populated urban areas. That is because with battery-operated buses it is difficult to maximize passenger load carrying capacity and running time while making the whole operation economically viable. For bus operators, the switch to electric has previously presented challenges. While India’s government is striving to scale up EV adoption to 30 percent by 2030, the mass public transport segment is largely untouched. Smart e-mobility is at a nascent stage in India. We are delighted to have partnered with the best in the industry for this endeavor,” Prof. “We hope to study and understand how the right technology can enable an efficient transport system without damaging the environment. Bhaskar Ramamurthi, Director, IIT Madras. “The development of India’s e-mobility charging infrastructure and increased deployment of e-buses is key to meeting the demand for sustainable transport solutions across India’s rural and urban areas,” said Prof. ![]()
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