India had a successful trial of country’s first Hydrogen Fuel Cell (HFC) prototype car which runs on an indigenously developed fuel cell stack and run nearly 250 km at the speed of 60 to 65 kilometres per hour using 1.75 kg of Hydrogen stored in type III Hydrogen commercial tank.
Best part of the technology is that it would substantially reduce the battery cost and its weight as we need only 1.75-3 kg of Hydrogen gas to run a commercial vehicle. And it would also save the time of recharging the battery since we only need to refuel the hydrogen tank and electricity would be produced by the fuel cell.
The prototype was developed by Council of Scientific and Industrial Research and KPIT using an indigenously developed fuel cell stack at CSIR-National Chemical Laboratory, Pune. The Hydrogen Fuel cell used in the prototype is a The fuel cell is a low-temperature PEM (Proton Exchange Membrane) type Fuel Cell that operates at 65-75 degree centigrade, which is suitable for vehicular applications.
The FC vehicle is fitted with a Type III commercial hydrogen tank. Its capacity is around 1.75 Kgs of H2 stored at about 350 bar pressure, the FC vehicle should run for approximately 250 Km range under typical Indian road conditions at a moderate speed of 60-65 Km/hr. The entire fuel cell stack and its associated components with power train were retro-fitted in a standard 5-seater sedan car, said a senior officer of the Ministry of Science and Technology.
The Ministry said the CSIR and KPIT have successfully developed a 10 kiloWatt automotive-grade LT-PEMFC fuel cell stack based on CSIR’s know-how. The heart of the PEM fuel cell technology includes the membrane electrode assembly, which is wholly a CSIR knowhow.
"The technology has a great future and owing to its indigenous development, is expected to be more commercially viable than ever before. It is an important technology that will help India significantly reduce pollution and reduce our fossil fuel imports," said KPIT Chairman Ravi Pandit. The KPIT had brought in their expertise in stack engineering which included light-weight metal bipolar plate and gasket design, development of the balance of plant (BoP), system integration, control software and electric powertrain that enabled running the fuel cell vehicle. The fuel cell stack uses extremely thin metal bipolar plates, thus reducing the stack weight by about two-thirds.
The trials were run on a battery-electric passenger car platform retrofitted with the Fuel Cell Stack. However, it is expected that the technology is more suited for commercial vehicles (CV) such as buses and trucks. Battery electric buses/ trucks require a large battery to achieve the desired operating range. In comparison, HFC technology requires a much smaller battery for a very large operating range. Hence, HFC technology offers more promise for the CV segment.
CSIR-NCL Director Prof Ashwini Kumar Nangia said “the time has come for renewable energy based on hydrogen as a fuel to power transportation in the country. This will not only reduce the petrol, diesel import bill but hydrogen is the cleanest fuel with water as the only by-product. A long term investment of CSIR under NMITLI in a niche energy area has come to fruition.”
In 2016, CSIR-NCL and CSIR-CECRI as part of the Industry Originated Project (IOP) category of the New Millennium Indian Technology Leadership Initiative (NMITLI) scheme partnered with KPIT for the development of an automotive-grade PEM Fuel Cell technology. Hydrogen Fuel Cell (HFC) the technology uses chemical reactions between hydrogen and oxygen (from the air) to generate electrical energy, eliminating the use of fossil fuels. Further, the fuel cell technology emits only water, thus cutting down the emission of harmful greenhouse gases along with other air pollutants. The technology, with further adoption and use, is poised to make the world a cleaner place with reduced air pollution levels.
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