The breakthrough removes one of many key obstacles to the large-scale adoption of hydrogen, which has lengthy been constrained by security dangers and excessive transportation prices. Historically, hydrogen should be compressed at extraordinarily excessive pressures or liquefied at temperatures under minus 253 levels Celsius, each of which require advanced infrastructure and important funding.
Based on Prof. (Dr.) Rajib Kumar Sinharay, Principal Investigator, the analysis demanded distinctive persistence. Preliminary experiments confirmed no seen outcomes for almost fifty days, however after shut to 10 months and round 100 trials, the group achieved a milestone that has not been beforehand documented. He famous that constructing a wholly new methodology from scratch was difficult, however in the end demonstrated the worth of sustained scientific effort.
The undertaking started when Ohm Cleantech Personal Restricted (OCPL), a part of the h2e Energy Group, approached MIT-WPU to resolve an issue that had remained unresolved even at main establishments. With no present documented methodology in India or globally, the researchers and OCPL collectively conceptualised and developed the method. Particulars of the innovation stay confidential as the corporate proceeds with worldwide patent filings.
OCPL founder Siddharth Mayur mentioned the progress marks a big step in direction of protected, modern and scalable hydrogen transport. He added that the corporate is eager to commercialise the expertise in alignment with the Nationwide Inexperienced Hydrogen Mission and the imaginative and prescient of Atmanirbhar Bharat.
MIT-WPU’s LOHC system works by way of a two-stage chemical course of. Throughout hydrogenation, hydrogen is chemically bonded right into a specifically designed natural liquid, enabling protected storage and transport. On the vacation spot, the dehydrogenation course of releases the hydrogen, whereas the provider liquid stays reusable. This strategy permits hydrogen to be dealt with utilizing present gasoline tankers, storage methods and doubtlessly normal pipelines, sharply decreasing prices and operational dangers.
Laboratory trials have delivered outcomes that place India on the forefront of LOHC analysis. The group achieved full hydrogen storage inside two hours, in contrast with as much as eighteen hours reported in world research. The method operated at 130 levels Celsius and a strain of 56 bar, decrease than standard benchmarks. Practically 11,000 litres of hydrogen had been saved in simply 15.6 litres of provider liquid, whereas dehydrogenation exams recovered 86 per cent of the saved hydrogen, with additional optimisation underway.
Analysis Advisor Prof. Datta Dandge mentioned the flexibility to move hydrogen like another industrial liquid might take away long-standing security and regulatory obstacles, accelerating the nation’s hydrogen mission and reworking clean-energy logistics for transport and heavy business.
The analysis was carried out at MIT-WPU’s superior hydrogen laboratory, outfitted with methods able to working at temperatures as much as 350 levels Celsius and pressures of 200 bar. The group is now centered on refining the method and scaling it from laboratory success to industrial deployment.
Undertaking Fellow and PhD pupil Nishant Patil described the work as a defining expertise, including that contributing to a breakthrough with nationwide affect strengthened his dedication to advancing innovation in India’s clear vitality ecosystem.
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