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Based on Japan’s Shinkasen technology, will the Mumbai-Ahmedabad Bullet Train adapt to India’s hot and humid climate?/
Mumbai-Ahmedabad Bullet Train project: While the current Heating, Ventilation, and Air Conditioning systems are largely adequate, slight adjustments in layout are required to optimize performance under Indian climatic conditions. (Image: PTI)
Dr.G.R.Balakrishnan Oct 01 2024 Logistics News (Roadways & Railways)

Based on Japan’s Shinkasen technology, will the Mumbai-Ahmedabad Bullet Train adapt to India’s hot and humid climate?/

The ambitious Mumbai-Ahmedabad Bullet Train corridor in India seeks to replicate the success of Japan’s renowned Shinkansen network, known for its efficiency and speed. However, the NHSRCL (National High Speed Rail Corporation Limited) on its website said that while the fundamental processes and technologies could be transferred, India faced unique environmental challenges that could not be overlooked. The region of Gujarat-Maharashtra experiences extreme weather conditions, including scorching temperatures that can reach up to 50 degrees Celsius and high levels of dust and humidity. These factors presented significant risks to the implementation of high-speed rail (HSR) technology, which has thrived in Japan’s comparatively mild climate.

Japan’s Shinkansen operates in a relatively clean environment characterized by moderate summers and snowy winters. In contrast, India’s environmental conditions are harsher, with dust and humidity posing serious challenges to HSR installations. So far, Taiwan is the only country outside Japan to successfully implement Shinkansen technology, benefiting from similar climatic conditions. This raises an important question: can India adapt this advanced rail technology to suit its extreme weather and dust-prone environment?

To explore this feasibility, the NHSRCL commissioned a comprehensive technical study by the HKC Consortium in Japan. The study focused on assessing the rolling stock’s adaptability for Indian conditions and identified several necessary modifications. For instance, while the current Heating, Ventilation, and Air Conditioning (HVAC) systems are largely adequate, slight adjustments in layout are required to optimize performance under Indian climatic conditions. Additionally, the frequency of filter cleaning must be increased to effectively manage dust levels.

The study emphasized that certain propulsion equipment will need to be resized to cope with higher ambient temperatures. Improvements in the insulation of traction motors were also recommended. Notably, the installation of an obstacle detection system in the train doors — a feature absent in the Shinkansen— was deemed feasible, enhancing the safety measures in India’s first Bullet Train.

One challenge that arose during the redesigning process was the increased weight of cooling equipment, which could impact energy efficiency. As the weight rises, the power required to maintain high speeds also increases, potentially affecting the overall performance of the train. Furthermore, the average weight of Indian passengers, along with their baggage, is greater than that of Japanese passengers, adding another layer of complexity.

Despite these challenges, a weight calculation study indicated that the MAHSR trains could maintain a weight comparable to Japanese Shinkansen trains while offering reduced seating capacity. Fortunately, this means that no significant changes to existing propulsion equipment are necessary.
Conclusion

In conclusion, while the implementation of Shinkansen technology in India presents unique challenges, thorough research and targeted modifications have paved the way for its success. By addressing environmental factors and making necessary adaptations, India is on its way to create a high-speed rail system that meets its specific needs while maintaining efficiency and safety.